MIPdatabase
This file last updated: 13/12/2021
International Journal of Latest Research in Science and Technology, 4, (2), 154-160, (2015)
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 264, Article120324-(2022)
Talanta, 88, (1), 129-135, (2012)
Lee TP et al., Micro-solid phase extraction of ochratoxin A, and its determination in urine using capillary electrophoresis.
Microchimica Acta, 180, (11-12), 1149-1156, (2013)
Rozaini MNH et al., Rapid ultrasound assisted emulsification micro-solid phase extraction based on molecularly imprinted polymer for HPLC-DAD determination of bisphenol A in aqueous matrices.
Talanta, 171, 242-249, (2017)
Rozaini MNH et al., Molecularly imprinted silica gel incorporated with agarose polymer matrix as mixed matrix membrane for separation and preconcentration of sulfonamide antibiotics in water samples.
Talanta, 199, 522-531, (2019)
Journal of Separation Science, 41, (5), 1164-1172, (2018)
Analytica Chimica Acta, 877, 80-89, (2015)
Kamal Ahmed R et al., Design and application of molecularly imprinted Polypyrrole/Platinum nanoparticles modified platinum sensor for the electrochemical detection of Vardenafil.
Microchemical Journal, 171, Article106771-(2021)
Saad EM et al., Molecularly imprinted polymers for selective extraction of rosmarinic acid from Rosmarinus officinalis L.
Food Chemistry, 335, Article127644-(2021)
Microporous And Mesoporous Materials, 292, Article109759-(2020)
Journal of Molecular Recognition, 30, (4), ArticleNoe2594-(2017)
Food Chemistry, 194, 61-67, (2016)
Saadati F et al., Synthesis and characterization of nanostructure molecularly imprinted polyaniline/graphene oxide composite as highly selective electrochemical sensor for detection of p-nitrophenol.
Journal of the Taiwan Institute of Chemical Engineers, 86, 213-221, (2018)
Sensors and Actuators B: Chemical, 308, Article127708-(2020)
Journal of Applied Polymer Science, 101, (5), 3520-3528, (2006)
Fuel, 210, 380-389, (2017)
Reactive and Functional Polymers, 73, (3), 531-539, (2013)
Journal of the American Chemical Society, 113, (14), 5176-5182, (1991)
Nanomaterials, 11, (11), ArticleNo3091-(2021)
IEEE Sensors Journal, 18, (6), 2236-2244, (2018)
Chatterjee TN et al., Development of a nickel hydroxide nanopetal decorated molecular imprinted polymer based electrode for sensitive detection of epigallocatechin-3-gallate in green tea.
Sensors and Actuators B: Chemical, 283, 69-78, (2019)
Das D et al., Electrochemical Detection of Epicatechin in Green Tea Using Quercetin-Imprinted Polymer Graphite Electrode.
IEEE Sensors Journal, 21, (23), 26526-26533, (2021)
Journal of Chromatography A, 885, (1-2), 217-236, (2000)
Pakistan Journal of Analytical & Environmental Chemistry, 18, (1), 18-36, (2017)
FASEB Journal, 17, (4), A586-A586, (2003)
Saboori AM et al., Preparation of molecular imprinted polymers against dichlorvos, an organophosphate pesticide.
FASEB Journal, 18, (8), C169-C169, (2004)
Analytical Communications, 35, (9), 285-287, (1998)
Journal of Physics: Conference Series, 1788, (1), Article012001-(2021)
International Journal of Science and Research (IJSR), 5, (1), ArticleID:NOV152733-(2016)
Journal of Controlled Release, 287, 142-155, (2018)
Sabu C et al., Bioinspired oral insulin delivery system using yeast microcapsules.
Materials Science and Engineering: C, 103, Article109753-(2019)
Food Control, 28, (2), 315-320, (2012)
Journal of Environmental Management, 300, Article113707-(2021)
Talanta, 147, 90-97, (2016)
Journal of Environmental Chemical Engineering, 8, (4), Article103889-(2020)
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 13, 85-90, (2004)
Macromolecules, 34, (6), 1548-1550, (2001)
Journal of Non-Crystalline Solids, 247, (1-3), 146-152, (1999)
Ciuffi KJ et al., Synthesis of fluorinated metalloporphyrinosilica imprinted with templates through sol-gel process.
Journal of Non-Crystalline Solids, 273, (1-3), 100-108, (2000)
Iamamoto Y et al., Porphyrinosilica and metalloporphyrinosilica: Hybrid organic-inorganic materials prepared by sol-gel processing.
Anais Da Academia Brasileira De Ciencias, 72, (1), 59-66, (2000)
Sacco HC et al., Synthesis of manganese porphyrinosilica imprinted with templates using the sol-gel process.
Journal of Non-Crystalline Solids, 273, (1-3), 150-158, (2000)
Biosensors and Bioelectronics, 81, 532-545, (2016)
Nanoscale, 10, (4), 2081-2089, (2018)
Materials Science and Engineering: C, 79, 541-549, (2017)
Chemicke Listy, 99, (4), 222-230, (2005)
Drug Development and Industrial Pharmacy, 38, (5), 616-622, (2012)
Journal of Chromatography B, 1171, Article122640-(2021)
New Journal of Chemistry, 42, (19), 16144-16153, (2018)
Banan K et al., MIP-based extraction techniques for the determination of antibiotic residues in edible meat samples: Design, performance & recent developments.
Trends In Food Science & Technology, 119, 164-178, (2022)
(2011)
Oskouei M et al., Proceeding, Synthesis of a New Molecularly Imprinted Polymer and its Application for Extraction, Preconcentration and Determination of Theophylline,
(2011)
Sadeghi HB et al., Potentiometric Sensing of Lamotrigine Based on Molecularly Imprinted Polymers.
Electroanalysis, 23, (11), 2716-2723, (2011)
Bangaleh Z et al., A New Potentiometric Sensor for Determination and Screening Phenylalanine in Blood Serum Based on Molecularly Imprinted Polymer.
Iranian Journal of Pharmaceutical Research, 18, (1), 61-71, (2019)
Radiochimica Acta, 101, (11), 725-731, (2013)
Sarabadani P et al., Synthesis and characterization of a novel nanostructured ion-imprinted polymer for pre-concentration of Y(III) ions.
Analytical Methods, 6, (3), 741-749, (2014)
Sarabadani P et al., Solid phase extraction of radioyttrium from irradiated strontium target using nanostructure ion imprinted polymer formed with 1-hydroxy-4-(prop-2-enyloxy)-9, 10-anthraquinone.
Applied Radiation and Isotopes, 90, 8-14, (2014)
Analytical Methods, 4, (10), 3232-3237, (2012)
Karimi M et al., Potentiometric Determination of Mercury Ions by Ion Imprinted Polymer Coated Multiwall Carbon Nanotube: High Selective Sensor for Determination of Trace Amounts of Mercury Ions in Biological Samples.
Oriental Journal of Chemistry, 28, (4), 1557-1566, (2012)
Aboufazeli F et al., Novel ion imprinted polymer magnetic mesoporous silica nano-particles for selective separation and determination of lead ions in food samples.
Food Chemistry, 141, (4), 3459-3465, (2013)
Behbahani M et al., Synthesis and characterisation of nano structure lead (II) ion-imprinted polymer as a new sorbent for selective extraction and preconcentration of ultra trace amounts of lead ions from vegetables, rice, and fish samples.
Food Chemistry, 138, (2-3), 2050-2056, (2013)
Ebrahimzadeh H et al., Novel ion-imprinted polymer coated on nanoporous silica as a highly selective sorbent for the extraction of ultratrace quantities of gold ions from mine stone samples.
Microchimica Acta, 180, (5-6), 445-451, (2013)
Ebrahimzadeh H et al., Novel ion imprinted polymer coated multiwalled carbon nanotubes as a high selective sorbent for determination of gold ions in environmental samples.
Chemical Engineering Journal, 215-216, 315-321, (2013)
Moazzen E et al., A high selective ion-imprinted polymer grafted on a novel nanoporous material for efficient gold extraction.
Journal of Separation Science, 36, (11), 1826-1833, (2013)
Najafi E et al., A novel magnetic ion imprinted nano-polymer for selective separation and determination of low levels of mercury(II) ions in fish samples.
Food Chemistry, 141, (4), 4040-4045, (2013)
Sadeghi O et al., Determination of Pb(II) Ions Using Novel Ion-Imprinted Polymer Magnetic Nanoparticles: Investigation of the Relation Between Pb(II) Ions in Cow's Milk and Their Nutrition.
Food Analytical Methods, 6, (3), 753-760, (2013)
Aboufazeli F et al., Novel Cd(II) Ion Imprinted Polymer Coated on Multiwall Carbon Nanotubes as a Highly Selective Sorbent for Cadmium Determination in Food Samples.
Journal of AOAC International, 97, (1), 173-178, (2014)
Karimi M et al., Determination of Sulfonamides in Chicken Meat by Magnetic Molecularly Imprinted Polymer Coupled to HPLC-UV.
Food Analytical Methods, 7, (1), 73-80, (2014)
Ebrahimzadeh H et al., A magnetic ion-imprinted polymer for lead(II) determination: A study on the adsorption of lead(II) by beverages.
Journal of Food Composition and Analysis, 41, 74-80, (2015)
Journal of Chromatography A, 1027, (1-2), 155-160, (2004)
Sadeghi S et al., Potentiometric sensing of levamisole hydrochloride based on molecularly imprinted polymer.
Sensors and Actuators B: Chemical, 122, (1), 158-164, (2007)
Sadeghi S et al., Synthesis of a new ion imprinted polymer material for separation and preconcentration of traces of uranyl ions.
Reactive and Functional Polymers, 67, (10), 966-976, (2007)
Sadeghi S et al., Magnetic nanoparticles with an imprinted polymer coating for the selective extraction of uranyl ions.
Microchimica Acta, 178, (1), 89-97, (2012)
Sadeghi S et al., Electroanalytical determination of sulfasalazine in pharmaceutical and biological samples using molecularly imprinted polymer modified carbon paste electrode.
Sensors and Actuators B: Chemical, 168, (1), 336-344, (2012)
Sadeghi S et al., Voltammetric sensor based on carbon paste electrode modified with molecular imprinted polymer for determination of sulfadiazine in milk and human serum.
Materials Science and Engineering: C, 33, (8), 4884-4891, (2013)
Sadeghi S et al., Selective solid-phase extraction using molecular imprinted polymer sorbent for the analysis of Florfenicol in food samples.
Food Chemistry, 141, (2), 1242-1251, (2013)
Azodi-Deilami S et al., Magnetic molecularly imprinted polymer nanoparticles coupled with high performance liquid chromatography for solid-phase extraction of carvedilol in serum samples.
Journal of Applied Polymer Science, 131, (23), Article No 41209-(2014)
Sadeghi S et al., Solid-Phase Extraction of Florfenicol from Meat Samples by a Newly Synthesized Surface Molecularly Imprinted Sol-Gel Polymer.
Food Analytical Methods, 7, (10), 2084-2094, (2014)
Sadeghi S et al., The development of a new optical sensor based on the Mn doped ZnS quantum dots modified with the molecularly imprinted polymers for sensitive recognition of florfenicol.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 159, 83-89, (2016)
Journal of Separation Science, 40, (6), 1361-1368, (2017)
Food Chemistry, 357, Article129782-(2021)
Journal of Electroanalytical Chemistry, 795, 32-40, (2017)
Nezhadali A et al., Spectrophotometric determination of fluoxetine by molecularly imprinted polypyrrole and optimization by experimental design, artificial neural network and genetic algorithm.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 190, 181-187, (2018)
Reactive and Functional Polymers, 72, (5), 295-302, (2012)
Health Physics, 101, (2), 128-135, (2011)
Lai EPC et al., Cd2+, Cu2+, Pb2+, Sr2+, and Y3+ binding characteristics of 17[beta]-estradiol molecularly imprinted polymer particles incorporated with dicyclohexano-18-crown-6 for urine bioassay.
Journal of Applied Polymer Science, 123, (1), 12-19, (2012)
Chemical Engineering Journal, 359, 505-517, (2019)
Separation Science and Technology, 51, (2), 248-254, (2016)
Nano Research, 9, (11), 3463-3477, (2016)
Sensor Letters, 13, (9), 743-749, (2015)
Journal of Applied Polymer Science, 105, (1), 229-235, (2007)
Sadowska M et al., Molecularly Imprinted Thin Polymeric Film as a Fluorescent Sensor for Nucleotides.
Molecular Crystals And Liquid Crystals, 486, (1), 203-212, (2008)
Wandelt B et al., Polymeric Sensory Systems Based on Molecular Imprinting for Identification and Separation of Molecules and Bigger Biological Objects.
Molecular Crystals And Liquid Crystals, 486, (1), 257-270, (2008)
Cywinski PJ et al., Thin-layer molecularly imprinted sensors studied by fluorescence microscopy.
e-Journal of Surface Science and Nanotechnology, 8, 293-297, (2010)
Journal of Separation Science, 36, (14), 2299-2305, (2013)
Gadzala-Kopciuch R et al., Applications of Molecularly Imprinted Polymers for Isolation of Estrogens from Environmental Water Samples.
Current Analytical Chemistry, 12, (4), 315-323, (2016)
Processes, 5, (4), ArticleNo72-(2017)
Analytical Methods, 8, (11), 2413-2419, (2016)
Sheykhaghaei G et al., Synthesis and characterization of core-shell magnetic molecularly imprinted polymer nanoparticles for selective extraction of tizanidine in human plasma.
Bulletin of Materials Science, 39, (3), 647-653, (2016)
Talanta, 207, Article120222-(2020)
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 153, 637-644, (2016)
Roushani M et al., Preparation an electrochemical sensor for detection of manganese (II) ions using glassy carbon electrode modified with multi walled carbon nanotube-chitosan-ionic liquid nanocomposite decorated with ion imprinted polymer.
Journal of Electroanalytical Chemistry, 804, 1-6, (2017)
Roushani M et al., Application of ion-imprinted polymer synthesized by precipitation polymerization as an efficient and selective sorbent for separation and pre-concentration of chromium ions from some real samples.
Journal of the Iranian Chemical Society, 15, (10), 2241-2249, (2018)
Materials Chemistry and Physics, 260, Article124156-(2021)
Analytical Methods, 8, (6), 1381-1389, (2016)
Analytical Methods, 12, (1), 63-72, (2020)
Biomedical Chromatography, 33, (1), Article_e4404-(2019)
Food Analytical Methods, 9, (9), 2621-2630, (2016)
Bazmandegan-Shamili A et al., MultiSimplex optimization of the dispersive solid-phase microextraction and determination of fenitrothion by magnetic molecularly imprinted polymer and high-performance liquid chromatography.
Journal of the Iranian Chemical Society, 15, (5), 1181-1189, (2018)
Langmuir, 35, (5), 1320-1326, (2019)
Analyst, 124, (7), 1003-1009, (1999)
Suedee R et al., Thin-layer chromatographic separation of chiral drugs on molecularly imprinted chiral stationary phases.
Jpc-Journal Of Planar Chromatography-Modern Tlc, 14, (3), 194-198, (2001)
Chemistry of Materials, 15, (15), 2921-2925, (2003)
Journal of Applied Polymer Science, 103, (4), 2325-2330, (2007)
Journal of Separation Science, 43, (3), 614-621, (2020)
Electroanalysis, 20, (18), 2023-2030, (2008)
Javanbakht M et al., Molecularly imprinted polymer based potentiometric sensor for the determination of hydroxyzine in tablets and biological fluids.
Analytica Chimica Acta, 612, (1), 65-74, (2008)
Polymers for Advanced Technologies, 29, (8), 2401-2409, (2018)
Fallah-Darrehchi M et al., Conductive conduit based on electrospun poly (l-lactide-co-D, l-lactide) nanofibers containing 4-aminopyridine-loaded molecularly imprinted poly (methacrylic acid) nanoparticles used for peripheral nerve regeneration.
International Journal of Biological Macromolecules, 190, 499-507, (2021)
Food Chemistry, 298, Article125044-(2019)
Journal of Chromatography A, 1455, 28-36, (2016)
Safdarian M et al., Rapid microwave-assisted distillation-precipitation polymerization for the synthesis of magnetic molecular imprinted polymers coupled to HPTLC determination of perphenazine in human urine.
New Journal of Chemistry, 43, (1), 48-57, (2019)
Ramezani Z et al., Metal-coded hydrogel magnetic molecularly imprinted polymer for preconcentration and cleanup of sarcosine: Determination in urine; coupled to on-column capillary electrophoresis.
Talanta, 230, Article122309-(2021)
ACS Applied Materials & Interfaces, 6, (15), 13280-13292, (2014)
Iranian Journal of Public Health, 40, (4), 112-121, (2011)
Organic & Biomolecular Chemistry, 11, (8), 1318-1325, (2013)
Physical Review Letters, 98, (1), Art. No. 018101-(2007)
Microchemical Journal, 148, 141-150, (2019)
Safran V et al., Development of Molecularly Imprinted Polymer-Based Optical Sensor for the Sensitive Penicillin G Detection in Milk.
ChemistrySelect, 6, (43), 11865-11875, (2021)
Analytica Chimica Acta, 608, (2), 197-203, (2008)
European Chemical Bulletin, 5, (2), 69-76, (2016)
Journal of Molecular Catalysis, 87, (1), L21-L24, (1994)
Ohkubo K et al., Homogeneous esterolytic catalysis of a polymer prepared by molecular imprinting of a transition-state analog.
Journal of Molecular Catalysis, 93, (2), 189-193, (1994)
Ohkubo K et al., High esterolytic activity of a novel water-soluble polymer catalyst imprinted by a transition-state analog.
Journal of the Chemical Society-Chemical Communications, (20), 2143-2144, (1995)
Ohkubo K et al., Molecular design of transition-state analog-imprinted polymer catalysts-stereoselective esterolysis of amino-acid esters.
Kobunshi Ronbunshu, 52, (10), 644-649, (1995)
Ohkubo K et al., Catalytic activities of novel L-histidyl group-introduced polymers imprinted by a transition-state analog in the hydrolysis of amino-acid esters.
Journal of Molecular Catalysis A: Chemical, 101, (2), L111-L114, (1995)
Ohkubo K et al., Catalytic activity of a novel water-soluble cross-linked polymer imprinted by a transition-state analogue for the stereoselective hydrolysis of enantiomeric amino acid esters.
Polymer, 37, (17), 3993-3995, (1996)
Sagawa T et al., Esterolytic catalyses of self-assembled monolayers prepared by molecular imprinting of a transition-state analogue.
Abstracts of Papers of the American Chemical Society, 215, (COLL), 166-166, (1998)
Sagawa T et al., Catalytic and stereoselective activities of cross-linked polymers imprinted with reaction intermediate for enzyme-like reactions.
Recent Research Developments in Pure & Applied Chemistry, 3, (1), 57-71, (1999)
Ohkubo K et al., Shape- and stereo-selective esterase activities of cross-linked polymers imprinted with a transition-state analogue for the hydrolysis of amino acid esters.
Journal of Molecular Catalysis A: Chemical, 165, (1-2), 1-7, (2001)
Ohkubo K et al., Influence of cross-linking monomer and hydrophobic styrene comonomer on stereoselective esterase activities of polymer catalyst imprinted with a transition-state analogue for hydrolysis of amino acid esters.
Polymer, 42, (5), 2263-2266, (2001)
Sagawa T et al., Rate-enhancement of hydrolysis of long-chain amino acid ester by cross-linked polymers imprinted with a transition-state analogue: evaluation of imprinting effect in kinetic analysis.
Analytica Chimica Acta, 504, (1), 37-41, (2004)
Sagawa T et al., Proceeding, Surface molecularly imprinted TiO2 nanoparticle for photoreduction of viologen,
Ellingson R (Ed.), 25-30, (2006)
Sagawa T, Efficient photoinduced electron transfer using TiO2 doped polymer.
Kobunshi Ronbunshu, 68, (5), 307-314, (2011)
Bulletin of the Chemical Society of Japan, 62, (2), 499-505, (1989)
Colloids and Surfaces B: Biointerfaces, 183, Article110456-(2019)
FEBS Journal, 283, (S1), 314-314, (2016)
Israel Journal of Chemistry, 18, (3-4), 346-353, (1979)
Sagiv J, Organized monolayers by adsorption. 1. Formation and structure of oleophobic mixed monolayers on solid surfaces.
Journal of the American Chemical Society, 102, (1), 92-98, (1980)
Cohen SR et al., Thermally induced disorder in organized organic monolayers on solid substrates.
Journal of Physical Chemistry, 90, (14), 3054-3056, (1986)
Rubinstein I et al., Ionic recognition and selective response in self-assembling monolayer membranes on electrodes.
Nature, 332, (6163), 426-429, (1988)
Microchemical Journal, 148, 141-150, (2019)
Derazshamshir A et al., Phenol removal from wastewater by surface imprinted bacterial cellulose nanofibres.
Environmental Technology, 41, (24), 3134-3145, (2020)
Journal of Controlled Release, 124, (3), 154-162, (2007)
Venkatesh S et al., Transport and structural analysis of molecular imprinted hydrogels for controlled drug delivery.
European Journal of Pharmaceutics and Biopharmaceutics, 69, (3), 852-860, (2008)
World Journal of Pharmaceuticla Research, 6, (9), 207-216, (2017)
Chemical Engineering Journal, 321, 195-206, (2017)
(2011)
1843, (2002)
Yamashita K et al., Proceeding, Preparation of imprinting hydrogel adsorbents,
1842, (2002)
Analytical and Bioanalytical Chemistry, 406, (29), 7729-7739, (2014)
Sahebnasagh A et al., Preparation and Evaluation of Histamine Imprinted Polymer as a Selective Sorbent in Molecularly Imprinted Solid-Phase Extraction Coupled with High Performance Liquid Chromatography Analysis in Canned Fish.
Food Analytical Methods, 7, (1), 1-8, (2014)
Science of The Total Environment, 609, 885-895, (2017)
Sensors and Actuators B: Chemical, 227, 668-676, (2016)
Sensors, 8, (9), 5792-5805, (2008)
Microchemical Journal, 160, Article105713-(2021)
Sensors and Actuators B: Chemical, 127, (2), 362-369, (2007)
Özcan L et al., Electrochemical preparation of a molecularly imprinted polypyrrole-modified pencil graphite electrode for determination of ascorbic acid.
Sensors, 8, (9), 5792-5805, (2008)
Özkorucuklu SP et al., Voltammetric Behaviour of Sulfamethoxazole on Electropolymerized-Molecularly Imprinted Overoxidized Polypyrrole.
Sensors, 8, (12), 8463-8478, (2008)
International Journal of Hydrogen Energy, 38, (35), 15275-15284, (2013)
Seven F et al., Imprinting hydrogels with metal ions for metal nanoparticle preparation and use in hydrogen production as catalysis media.
Abstracts of Papers of the American Chemical Society, 245, (POLY), 366-(2013)
Sensors and Actuators B: Chemical, 246, 96-107, (2017)
Bioorganic Chemistry, 58, 26-47, (2015)
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 140, 534-543, (2015)
Roushani M et al., Synthesis and application of ion-imprinted polymer nanoparticles for the extraction and preconcentration of zinc ions.
Food Chemistry, 173, 266-273, (2015)
Hemmati K et al., Synthesis and characterization of a novel magnetic molecularly imprinted polymer with incorporated graphene oxide for drug delivery.
Polymer, 101, 257-268, (2016)
Electrochimica Acta, 149, 108-116, (2014)
Sensors and Actuators B: Chemical, 246, 96-107, (2017)
Sensors and Actuators B: Chemical, 166-167, (1), 17-23, (2012)
Sai N et al., An imprinted crystalline colloidal array chemical-sensing material for detection of trace diethylstilbestrol.
Analyst, 138, (9), 2720-2728, (2013)
Sai N et al., Molecular imprinted opal closest-packing photonic crystals for the detection of trace 17[beta]-estradiol in aqueous solution.
Talanta, 144, 157-162, (2015)
Sai N et al., A novel enrichment imprinted crystalline colloidal array for the ultratrace detection of chloramphenicol.
Talanta, 161, 1-7, (2016)
Sai N et al., A novel photonic sensor for the detection of chloramphenicol.
Arabian Journal of Chemistry, 12, (8), 4398-4406, (2019)
Progress in Polymer Science, 88, 1-129, (2019)
Biopolymers and Cell, 29, (3), 188-206, (2013)
Research Communication in Engineering Science & Technology 1 (2018)
Nasir AM et al., One-pot synthesis of molecular-imprinted membrane for selective extraction of caffeic acid.
Polymer Bulletin, 77, (8), 3953-3968, (2020)
Journal of Analytical Methods in Chemistry, 2014, Article ID 921350-(2014)
E-Journal of Chemistry, 7, (4), 1362-1374, (2010)
Saifuddin N et al., Microwave enhanced synthesis of chitosan-graft-polyacrylamide molecular imprinting polymer for selective removal of 17[beta]-estradiol at trace concentration.
Asian Journal of Biochemistry, 6, (1), 38-54, (2011)
Journal of Bioscience and Bioengineering, 90, (6), 665-668, (2000)
Journal of the American Chemical Society, 128, (40), 13068-13069, (2006)
Amano S et al., Solid-State Hosts by the Template Polymerization of Columnar Liquid Crystals: Locked Supramolecular Architectures around Chiral 2-Amino Alcohols.
Chemistry - A European Journal, 13, (18), 5186-5196, (2007)
Biosensors and Bioelectronics, 25, (3), 635-639, (2009)
Journal of Flow Injection Analysis, 29, (1), 7-10, (2012)
Tokonami S et al., Label-Free and Selective Bacteria Detection Using a Film with Transferred Bacterial Configuration.
Analytical Chemistry, 85, (10), 4925-4929, (2013)
International Journal of Pharmaceutical Sciences and Research, 4, (7), 2517-2527, (2013)
Cane C, Chiao JC, Verdu FV (Eds.), 273-284, (2005)
Nicholls C et al., Displacement imprinted polymer receptor analysis (DIPRA) for chlorophenolic contaminants in drinking water and packaging materials.
Biosensors and Bioelectronics, 21, (7), 1171-1177, (2006)
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 96, 790-795, (2012)
Saini SS et al., Molecularly Imprinted Polymers for the Detection of Food Toxins: A Minireview.
Advances in Nanoparticles, 2, (1), 60-65, (2013)
Journal of Chemical & Engineering Data, 59, (7), 2207-2214, (2014)
Laatikainen K et al., Effect of template ion-ligand complex stoichiometry on selectivity of ion-imprinted polymers.
Talanta, 134, 538-545, (2015)
Lenoble V et al., Nickel retention by an ion-imprinted polymer: Wide-range selectivity study and modelling of the binding structures.
Chemical Engineering Journal, 304, 20-28, (2016)
Meouche W et al., Effect of porogen solvent on the properties of nickel ion imprinted polymer materials prepared by inverse suspension polymerization.
European Polymer Journal, 87, 124-135, (2017)
Laatikainen K et al., In situ complexation versus complex isolation in synthesis of ion imprinted polymers.
Reactive and Functional Polymers, 122, 1-8, (2018)
Sensors and Actuators B: Chemical, 237, 613-620, (2016)
Electrochimica Acta, 52, (9), 3082-3087, (2007)
Buica GO et al., Poly(pyrrole-EDTA like) modified electrodes for mercury ions electroanalysis.
Journal of Optoelectronics and Advanced Materials, 11, (8), 1152-1159, (2009)
Buica GO et al., Voltammetric Sensing of Mercury and Copper Cations at Poly(EDTA-like) Film Modified Electrode.
Electroanalysis, 21, (1), 77-86, (2009)
Cane C, Chiao JC, Verdu FV (Eds.), 273-284, (2005)
Microchemical Journal, 99, (2), 278-282, (2011)
Sainz-Gonzalo FJ et al., Synthesis and characterization of a molecularly imprinted polymer optosensor for TEXs-screening in drinking water.
Biosensors and Bioelectronics, 26, (7), 3331-3338, (2011)
Journal of the Chemical Society-Perkin Transactions 1, (17), 2111-2117, (1993)
Nippon Kagakkai Koen Yokoshu, 86, (2), 944-(2006)
Biosensors and Bioelectronics, 86, 913-919, (2016)
Pellizzoni E et al., Corrigendum to "Fluorescent molecularly imprinted nanogels for the detection of anticancer drugs in human plasma" [Biosens. Bioelectron. 86 (2016) 913-919].
Biosensors and Bioelectronics, 94, 728-(2017)
1721, (2002)
Saito K et al., Proceeding, Synthesis of less cross-linked molecularly imprinted polymer catalyst by using the monomers containing peptide structure in side chain,
720, (2002)
Kawaguchi M et al., Molecularly imprinted solid phase extraction using stable isotope labeled compounds as template and liquid chromatography-mass spectrometry for trace analysis of bisphenol A in water sample.
Analytica Chimica Acta, 539, (1-2), 83-89, (2005)
Kushida N et al., Development of molecularly imprinted catalysts using various interactions from N-acryloylpeptide derivatives.
Polymer Preprints, Japan, 54, (1), 1888-(2005)
Oyama T et al., Polymer catalysts from "sequence-conformation imprinting" with N-acryloylpeptide monomers.
Polymer Preprints, Japan, 55, (2), 3865-3866, (2006)
Kataoka H et al., Recent advances in SPME techniques in biomedical analysis.
Journal of Pharmaceutical and Biomedical Analysis, 54, (5), 926-950, (2011)
Sakamoto Y et al., Determination of Chloramphenicol in Honey and Royal Jelly by Sample Clean-up with Molecular Imprinted Polymer.
Bunseki Kagaku, 61, (5), 383-389, (2012)
370-374, (2019)
Biosensors and Bioelectronics, 15, (7-8), 403-409, (2000)
Matsuda Y et al., Synthesis of functional capsule gel incorporated with nicotine imprinted polymer and adsorptive characteristic for nicotine.
Journal of the Materials Science Society of Japan, 37, (4), 195-199, (2000)
Kajitani H et al., Asdorption Characteristics and Application of Caffeine-Imprinted Polymer.
Nippon Kagakkai Koen Yokoshu, 82, 284-(2002)
Kajitani H et al., Caffeine-Imprinted Polymer.
Nippon Kagakkai Koen Yokoshu, 81, (1), 562-(2002)
Kajitani H et al., Synthesis and Adsorption Characteristics of Caffeine-Imprinted Polymer.
Nippon Kagakkai Koen Yokoshu, 83, (1), 58-(2003)
Separation Science and Technology, 53, (18), 2906-2915, (2018)
In: Mathematical and Analytical Techniques, Haghi AK, Balköse D, Mukbaniani OV, Mercader AG (Eds.) Apple Academic Press: Oakville, Ontario, Ch. 13, (2017)
Sajini T et al., A brief overview of molecularly imprinted polymers supported on titanium dioxide matrices.
Materials Today Chemistry, 11, 283-295, (2019)
Sajini T et al., Kinetic and thermodynamic studies of molecularly imprinted polymers for the selective adsorption and specific enantiomeric recognition of D-mandelic acid.
Journal of Polymer Research, 26, (4), Article88-(2019)
Sajini T et al., Computational Design and Fabrication of Enantioselective Recognition Sorbents for L-phenylalanine Benzyl Ester on Multiwalled Carbon Nanotubes Using Molecular Imprinting Technology.
Chinese Journal of Polymer Science, 37, (12), 1305-1318, (2019)
Sajini T et al., Tailoring of photo-responsive molecularly imprinted polymers on multiwalled carbon nanotube as an enantioselective sensor and sorbent for L-PABE.
Composites Science and Technology, 181, Article107676-(2019)
Sajini T et al., Rational design and synthesis of photo-responsive molecularly imprinted polymers for the enantioselective intake and release of l-phenylalanine benzyl ester on multiwalled carbon nanotubes.
Polymer, 173, 127-140, (2019)
Sajini T et al., A brief overview of molecularly imprinted polymers: Highlighting computational design, nano and photo-responsive imprinting.
Talanta Open, 4, Article100072-(2021)
Food Chemistry, 237, 275-281, (2017)
Marine Pollution Bulletin, 137, 306-314, (2018)
Microchemical Journal, 146, 106-114, (2019)
Abbasi S et al., Enrichment of cardiovascular drugs using rhamnolipid bioaggregates after dispersive solid phase extraction based water compatible magnetic molecularly imprinted biopolymers.
Microchemical Journal, 157, Article104874-(2020)
Journal of Chromatography A, 810, (1-2), 1-17, (1998)
Chen YB et al., Influence of thermal annealing on the thermodynamic and mass transfer kinetic properties of D- and L-phenylalanine anilide on imprinted polymeric stationary phases.
Analytical Chemistry, 71, (5), 928-938, (1999)
Journal of Chromatography A, 707, (2), 199-203, (1995)
Shiomi T et al., A method for the molecular imprinting of hemoglobin on silica surfaces using silanes.
Biomaterials, 26, (27), 5564-5571, (2005)
Advanced Materials, 25, (37), 5215-5256, (2013)
Japanese Journal of Artificial Organs, 29, (2), 441-445, (2000)
Hattori K et al., Gate effect of cellulosic dialysis membrane grafted with molecularly imprinted polymer.
Journal of Chemical Engineering of Japan, 34, (11), 1466-1469, (2001)
Yoshimi Y et al., Gate effect Yoshimi Y et al., Gate Effect Hattori K et al., Gate effect of theophylline-imprinted polymers grafted to the cellulose by living radical polymerization.
Journal of Membrane Science, 233, (1-2), 169-173, (2004)
Hattori K et al., Chiral-selectivity on gate effect of phenylalanine-imprinted polymers grafted onto cellulosic membrane.
Chem Sens, 20, (Supplement B), 384-385, (2004)
Hattori K et al., Effect of electrostatic interactions on gate effect in molecularly imprinted polymers.
Electrochemistry, 72, (7), 508-510, (2004)
Sekine S et al., Chiral sensing in organic solvent using gate effect of molecularly imprinted polymer.
Chem Sens, 21, (Supplement B), 22-24, (2005)
Hattori K et al., Gate effect of glucose-imprinted dialysis membrane.
Nephrology Dialysis Transplantation, 22, (Suppl. 6), 121-122, (2007)
Sekine SI et al., Influence of solvents on chiral discriminative gate effect of molecularly imprinted poly(ethylene glycol dimethacrylate-co-methacrylic acid).
Sensors and Actuators B: Chemical, 127, (2), 512-517, (2007)
Yoshimi Y et al., Development of an enzyme-free glucose sensor using the gate effect of a molecularly imprinted polymer.
Journal of Artificial Organs, 12, (4), 264-270, (2009)
Yoshimi Y et al., A glucose sensor using gate effect of molecularly imprinted polymer grafted on electrode.
Journal of Bioscience and Bioengineering, 108, (Supplement 1), S31-S31, (2009)
Hattori K et al., Chiral-selectivity on gate effect of phenylalanine-imprinted polymers grafted onto cellulosic membrane.
Chem Sens, 20, (Supplement B), 384-385, (2011)
Analytical Sciences, 14, (4), 823-826, (1998)
Sasagawa Y et al., Detection of GOD Using a Molecular Imprinting Polymer Thin Film.
Nippon Kagakkai Koen Yokoshu, 75, 179-(1998)
Haginaka J et al., Preparation of molecularly imprinted polymers for propanolol and its metabolites, and their application to direct serum injection assays.
Chromatography, 20, (2), 188-189, (1999)
Alvarez-Lorenzo C et al., Polymer gels that memorize elements of molecular conformation.
Macromolecules, 33, (23), 8693-8697, (2000)
Haginaka J et al., Uniform-sized molecularly imprinted polymer material for (S)-propranolol.
Journal of Pharmaceutical and Biomedical Analysis, 22, (6), 899-907, (2000)
Alvarez-Lorenzo C et al., Reversible adsorption of calcium ions by imprinted temperature sensitive gels.
Journal of Chemical Physics, 114, (6), 2812-2816, (2001)
Hirayama K et al., Synthesis of polymer particles with specific lysozyme recognition sites by a molecular imprinting technique.
Journal of Applied Polymer Science, 81, (14), 3378-3387, (2001)
Hirayama K et al., Preparation of a sensor device with specific recognition sites for acetaldehyde by molecular imprinting technique.
Sensors and Actuators B: Chemical, 86, (1), 20-25, (2002)
Polymer Journal, 34, (6), 474-(2002)
Journal of the American Chemical Society, 129, (35), 10906-10910, (2007)
Journal of Membrane Science, 108, (1-2), 171-175, (1995)
Yoshikawa M et al., Molecularly imprinted polymeric membranes containing DIDE derivatives for optical resolution of amino acids.
Macromolecules, 29, (25), 8197-8203, (1996)
Yoshikawa M et al., Alternative molecularly imprinted polymeric membranes from a tetrapeptide residue consisting of D- or L-amino acids.
Macromolecular Rapid Communications, 18, (9), 761-767, (1997)
Yoshikawa M et al., Molecularly imprinted polymeric membranes involving tetrapeptide EQKL derivatives as chiral-recognition sites toward amino acids.
Analytica Chimica Acta, 365, (1-3), 59-67, (1998)
Yoshikawa M et al., Chiral recognition of N-a-acetyltryptophans with molecularly imprinted polymeric membranes containing DVNE derivatives.
Sen'i Gakkaishi, 54, (2), 77-84, (1998)
Bulletin of the Chemical Society of Japan, 71, (2), 513-519, (1998)
Carbohydrate Polymers, 193, 173-178, (2018)
Bunseki Kagaku, 61, (5), 383-389, (2012)
Advanced Materials, 29, (37), ArticleNo1703054-(2017)
Pharmaceutical Reviews, 6, (5), (2008)
Chemistry Letters, 18, (12), 2159-2162, (1989)
Japanese Journal of Applied Physics, 56, (4S), 04CM02-(2017)
Kajisa T et al., Molecularly Imprinted Artificial Biointerface for an Enzyme-Free Glucose Transistor.
ACS Applied Materials & Interfaces, 10, (41), 34983-34990, (2018)
Kajisa T et al., Well-designed dopamine-imprinted polymer interface for selective and quantitative dopamine detection among catecholamines using a potentiometric biosensor.
Biosensors and Bioelectronics, 117, 810-817, (2018)
Nishitani S et al., Potentiometric Adsorption Isotherm Analysis of a Molecularly Imprinted Polymer Interface for Small-Biomolecule Recognition.
ACS Omega, 3, (5), 5382-5389, (2018)
Yang HY et al., Potentiometric Langmuir Isotherm Analysis of Histamine-Selective Molecularly Imprinted Polymer-Based Field-Effect Transistor.
ECS Journal of Solid State Science and Technology, 7, (7), Q3079-Q3082, (2018)
Sakata T et al., Molecularly imprinted polymer-based bioelectrical interfaces with intrinsic molecular charges.
RSC Advances, 10, (29), 16999-17013, (2020)
Proceedings, 2, (13), Article1004-(2018)
Physical Review Letters, 85, (23), 5000-5003, (2000)
Bulletin of the Society of Sea Water Science, Japan, 56, (3), 228-233, (2002)
Araki K et al., Effect of the Functional Molecule on Adsorption Characteristics of Lithium-selective Surface Imprinted Polymer.
Journal of Ion Exchange, 14, (Supplement), 2-7, (2003)
Sakoguchi A et al., Li (I) Selective Adsorption by Means of Organic Resins Imprinted with Fluorine-containing [beta]-Diketone and Neutral Phosphorus Compound.
Journal of Ion Exchange, 14, (Supplement), 333-336, (2003)
Journal of Chemical Engineering of Japan, 37, (1), 59-66, (2004)
Kanazawa R et al., Preparation of thermosensitive microgel adsorbent for quick adsorption of heavy metal ions by a temperature change.
Journal of Chemical Engineering of Japan, 37, (6), 804-807, (2004)
Tokuyama H et al., Equilibrium and kinetics for temperature swing adsorption of a target metal on molecular imprinted thermosensitive gel adsorbents.
Separation and Purification Technology, 44, (2), 152-159, (2005)
Tokuyama H et al., Development and performance of a novel molecular imprinted thermosensitive gel with a cross-linked chelating group for the temperature swing adsorption of a target metal.
Journal of Chemical Engineering of Japan, 38, (8), 633-640, (2005)
Tokuyama H et al., Preparation of molecular imprinted thermosensitive gels grafted onto polypropylene by plasma-initiated graft polymerization.
Reactive and Functional Polymers, 68, (1), 182-188, (2008)
Journal of Electroanalytical Chemistry, 795, 103-109, (2017)
Pure And Applied Chemistry, 85, (1), 211-223, (2013)
Polymer Preprints, Japan, 54, (1), 1478-(2005)
Yoshikawa M et al., Green polymers from Geobacillus thermodenitrificans DSM465 - Candidates for molecularly imprinted materials.
Macromolecular Bioscience, 6, (3), 210-215, (2006)
Microchimica Acta, 188, (3), Article70-(2021)
Journal of Pharmaceutical and Biomedical Analysis, 162, 215-224, (2019)
Salajegheh M et al., Morphine Sensing by a Green Modified Molecularly Imprinted Poly L-Lysine/Sodium Alginate-activated Carbon/Glassy Carbon Electrode Based on Computational Design.
Electroanalysis, 31, (3), 468-476, (2019)
Desalination, 199, (1-3), 532-534, (2006)
Salam A et al., Effect of Surface Modification on the Synthesis of Pore-Filling Polymeric Monoliths in Microfiltration Membranes Made from Poly(propylene) and Poly(ethylene terephthalate).
Macromolecular Materials And Engineering, 292, (3), 310-318, (2007)
International Journal of Electrochemical Science, 10, 6780-6793, (2015)
Desalination and Water Treatment, 57, (35), 16540-16551, (2016)
Synthetic Metals, 254, 141-152, (2019)
Sensors and Actuators B: Chemical, 314, Article128026-(2020)
Surya SG et al., A chitosan gold nanoparticles molecularly imprinted polymer based ciprofloxacin sensor.
RSC Advances, 10, (22), 12823-12832, (2020)
Lahcen AA et al., Laser-scribed graphene sensor based on gold nanostructures and molecularly imprinted polymers: Application for Her-2 cancer biomarker detection.
Sensors and Actuators B: Chemical, 347, Article130556-(2021)
Polymer Reviews, 56, (4), 557-583, (2016)
Abdollahi E et al., Synthesis of new molecularly imprinted polymer via reversible addition fragmentation transfer polymerization as a drug delivery system.
Polymer, 143, 245-257, (2018)
Analytical Chemistry, 77, (8), 2569-2574, (2005)
Microchimica Acta, 178, (3), 429-437, (2012)
Behbahani M et al., Synthesis and characterisation of nano structure lead (II) ion-imprinted polymer as a new sorbent for selective extraction and preconcentration of ultra trace amounts of lead ions from vegetables, rice, and fish samples.
Food Chemistry, 138, (2-3), 2050-2056, (2013)
Behbahani M et al., Synthesis, characterization and analytical application of Zn(II)-imprinted polymer as an efficient solid-phase extraction technique for trace determination of zinc ions in food samples.
Journal of Food Composition and Analysis, 34, (1), 81-89, (2014)
Behbahani M et al., Application of a tailor-made polymer as a selective and sensitive colorimetric sensor for reliable detection of trace levels of uranyl ions in complex matrices.
RSC Advances, 5, (74), 59912-59920, (2015)
Synthetic Metals, 256, Article116136-(2019)
Journal of Materials Chemistry A, 2, (35), 14289-14328, (2014)
RSC Advances, 6, (38), 31906-31914, (2016)
Journal of Hazardous Materials, 309, 27-36, (2016)
Nanomaterials, 11, (12), ArticleNo3360-(2021)
Journal of Membrane Science, 389, (1), 334-342, (2012)
Salehi E, Application of diffusive transport model for better insight into retardation mechanisms involved in ion-imprinted membrane transport.
Chinese Journal of Chemical Engineering, 24, (9), 1161-1165, (2016)
Microchimica Acta, 186, (12), Article798-(2019)
Journal of Chromatography B, 1027, 165-173, (2016)
Chemische Berichte-Recueil, 118, 246-260, (1985)
Biosensors and Bioelectronics, 141, Article111467-(2019)
Biosensors and Bioelectronics, 77, 978-985, (2016)
Moreira FTC et al., Colorimetric cellulose-based test-strip for rapid detection of amyloid [beta]-42.
Microchimica Acta, 188, (10), Article334-(2021)
Biosensors and Bioelectronics, 26, (2), 566-574, (2010)
Moreira FTC et al., New potentiometric sensors based on two competitive recognition sites for determining tetracycline residues using flow-through system.
Procedia Engineering, 5, 1200-1203, (2010)
Kamel AH et al., Biomimetic Sensor Potentiometric System for Doxycycline Antibiotic Using a Molecularly Imprinted Polymer as an Artificial Recognition Element.
Sensor Letters, 9, (5), 1654-1660, (2011)
Moreira FTC et al., Biomimetic sensors of molecularly-imprinted polymers for chlorpromazine determination.
Materials Science and Engineering: C, 31, (5), 1121-1128, (2011)
Moreira FTC et al., Myoglobin-biomimetic electroactive materials made by surface molecular imprinting on silica beads and their use as ionophores in polymeric membranes for potentiometric transduction.
Biosensors and Bioelectronics, 26, (12), 4760-4766, (2011)
Moreira FTC et al., Artificial antibodies for troponin T by its imprinting on the surface of multiwalled carbon nanotubes: Its use as sensory surfaces.
Biosensors and Bioelectronics, 28, (1), 243-250, (2011)
Oliveira HMV et al., Ciprofloxacin-imprinted polymeric receptors as ionophores for potentiometric transduction.
Electrochimica Acta, 56, (5), 2017-2023, (2011)
Moreira FTC et al., Surface Imprinting Approach on Screen Printed Electrodes Coated with Carboxylated PVC for Myoglobin detection with Electrochemical Transduction.
Procedia Engineering, 47, 865-868, (2012)
Queiros RB et al., Determination of Microcystin-LR in waters in the subnanomolar range by sol-gel imprinted polymers on solid contact electrodes.
Analyst, 137, (10), 2437-2444, (2012)
Moreira FTC et al., Host-tailored sensors for leucomalachite green potentiometric measurements.
Journal of Chemistry, 2013, Article ID 605403-(2013)
Electroanalysis, 20, (2), 194-202, (2008)
Moreira FTC et al., New biomimetic sensors for the determination of tetracycline in biological samples: Batch and flow mode operations.
Analytical Methods, 2, (12), 2039-2045, (2010)
Queirós RB et al., Sensors for the Detection and Quantification of Bacterial Contamination in Water for Human Use.
Advanced Engineering Materials, 12, (5), B175-B178, (2010)
Queirós RB et al., Proceeding, Optical cavity fibre sensor for detection of microcystin-LR in water,
Santos JL, Culshaw B, Lopez-Higuera JM, MacPherson WN (Eds.), Art. No. 76531N, (2010)
Almeida SAA et al., Sulphonamide-imprinted sol-gel materials as ionophores in potentiometric transduction.
Materials Science and Engineering: C, 31, (8), 1784-1790, (2011)
Almeida SAA et al., Novel LTCC-potentiometric microfluidic device for biparametric analysis of organic compounds carrying plastic antibodies as ionophores: Application to sulfamethoxazole and trimethoprim.
Biosensors and Bioelectronics, 30, (1), 197-203, (2011)
Guerreiro JRL et al., New sensing materials of molecularly-imprinted polymers for the selective recognition of Chlortetracycline.
Microchemical Journal, 97, (2), 173-181, (2011)
Guerreiro JRL et al., Selective recognition in potentiometric transduction of amoxicillin by molecularly imprinted materials.
European Food Research and Technology, 232, (1), 39-50, (2011)
Kamel AH et al., A Solid Binding Matrix/Mimic Receptor-Based Sensor System for Trace Level Determination of Iron Using Potential Measurements.
International Journal of Electrochemistry, 2011, Article ID 643683-(2011)
Kamel AH et al., Molecularly-Imprinted Materials for Potentiometric Transduction: Application to the Antibiotic Enrofloxacin.
Analytical Letters, 44, (12), 2107-2123, (2011)
Moreira FTC et al., Biomimetic norfloxacin sensors made of molecularly-imprinted materials for potentiometric transduction.
Microchimica Acta, 172, (1), 15-23, (2011)
Queirós RB et al., Microcystin-LR detection in water by the Fabry-Pérot interferometer using an optical fibre coated with a sol-gel imprinted sensing membrane.
Biosensors and Bioelectronics, 26, (9), 3932-3937, (2011)
Rebelo TSCR et al., Trimethoprim-selective electrodes with molecularly imprinted polymers acting as ionophores and potentiometric transduction on graphite solid-contact.
Microchemical Journal, 98, (1), 21-28, (2011)
Almeida SAA et al., Optimizing potentiometric ionophore and electrode design for environmental on-site control of antibiotic drugs: Application to sulfamethoxazole.
Biosensors and Bioelectronics, 35, (1), 319-326, (2012)
Queirós RB et al., Label-free Detection of Microcystin-LR in Waters Using Real-Time Potentiometric Biosensors Based on Single-Walled Carbon Nanotubes Imprinted Polymers.
Procedia Engineering, 47, 758-761, (2012)
Moreira FTC et al., Smart plastic antibody material (SPAM) tailored on disposable screen printed electrodes for protein recognition: Application to myoglobin detection.
Biosensors and Bioelectronics, 45, 237-244, (2013)
Moreira FTC et al., Novel biosensing device for point-of-care applications with plastic antibodies grown on Au-screen printed electrodes.
Sensors and Actuators B: Chemical, 182, 733-740, (2013)
Moreira FTC et al., Electrochemical biosensor based on biomimetic material for myoglobin detection.
Electrochimica Acta, 107, 481-487, (2013)
Queirós RB et al., Recycling old screen-printed electrodes with newly designed plastic antibodies on the wall of carbon nanotubes as sensory element for in situ detection of bacterial toxins in water.
Sensors and Actuators B: Chemical, 189, 21-29, (2013)
Tavares APM et al., Haemoglobin smart plastic antibody material tailored with charged binding sites on silica nanoparticles: its application as an ionophore in potentiometric transduction.
RSC Advances, 3, (48), 26210-26219, (2013)
Cabral-Miranda G et al., Backside-surface imprinting as a new strategy to generate specific plastic antibody materials.
Journal of Materials Chemistry B, 2, (20), 3087-3095, (2014)
Moreira FTC et al., Protein-responsive polymers for point-of-care detection of cardiac biomarker.
Sensors and Actuators B: Chemical, 196, 123-132, (2014)
Moret J et al., New molecularly-imprinted polymer for carnitine and its application as ionophore in potentiometric selective membranes.
Materials Science and Engineering: C, 43, 481-487, (2014)
Rebelo TSCR et al., Novel Prostate Specific Antigen plastic antibody designed with charged binding sites for an improved protein binding and its application in a biosensor of potentiometric transduction.
Electrochimica Acta, 132, 142-150, (2014)
Truta LAAN et al., Graphene-based biomimetic materials targeting urine metabolite as potential cancer biomarker: Application over different conductive materials for potentiometric transduction.
Electrochimica Acta, 150, 99-107, (2014)
Moreira FTC et al., Detection of cardiac biomarker proteins using a disposable based on a molecularly imprinted polymer grafted onto graphite.
Microchimica Acta, 182, (5-6), 975-983, (2015)
Guerreiro JRL et al., Molecular Imprinting of Complex Matrices at Localized Surface Plasmon Resonance Biosensors for Screening of Global Interactions of Polyphenols and Proteins.
ACS Sensors, 1, (3), 258-264, (2016)
Khan MAR et al., Plastic antibody for the electrochemical detection of bacterial surface proteins.
Sensors and Actuators B: Chemical, 233, 697-704, (2016)
Martins GV et al., 8-hydroxy-2'-deoxyguanosine (8-OHdG) biomarker detection down to picoMolar level on a plastic antibody film.
Biosensors and Bioelectronics, 86, 225-234, (2016)
Moreira FTC et al., Screen-printed electrode produced by printed-circuit board technology. Application to cancer biomarker detection by means of plastic antibody as sensing material.
Sensors and Actuators B: Chemical, 223, 927-935, (2016)
Rebelo TSCR et al., Protein imprinted materials designed with charged binding sites on screen-printed electrode for microseminoprotein-beta determination in biological samples.
Sensors and Actuators B: Chemical, 223, 846-852, (2016)
Rebelo TSCR et al., Protein Imprinted Material electrochemical sensor for determination of Annexin A3 in biological samples.
Electrochimica Acta, 190, 887-893, (2016)
Rebelo TSCR et al., Testing the variability of PSA expression by different human prostate cancer cell lines by means of a new potentiometric device employing molecularly antibody assembled on graphene surface.
Materials Science and Engineering: C, 59, 1069-1078, (2016)
Tavares APM et al., Conductive Paper with Antibody-Like Film for Electrical Readings of Biomolecules.
Scientific Reports, 6, ArticleNo26132-(2016)
Ferreira NS et al., New electrochemically-derived plastic antibody on a simple conductive paper support for protein detection: Application to BSA.
Sensors and Actuators B: Chemical, 243, 1127-1136, (2017)
Frasco MF et al., Imprinting Technology in Electrochemical Biomimetic Sensors.
Sensors, 17, (3), ArticleNo523-(2017)
Guerreiro JRL et al., A saliva molecular imprinted localized surface plasmon resonance biosensor for wine astringency estimation.
Food Chemistry, 233, 457-466, (2017)
Khan MAR et al., Artificial receptors for the electrochemical detection of bacterial flagellar filaments from Proteus mirabilis.
Sensors and Actuators B: Chemical, 244, 732-741, (2017)
Moreira FTC et al., Smart naturally plastic antibody based on poly([alpha]-cyclodextrin) polymer for [beta]-amyloid-42 soluble oligomer detection.
Sensors and Actuators B: Chemical, 240, 229-238, (2017)
Ribeiro JA et al., Electrochemical detection of cardiac biomarker myoglobin using polyphenol as imprinted polymer receptor.
Analytica Chimica Acta, 981, 41-52, (2017)
Sacramento AS et al., Novel biomimetic composite material for potentiometric screening of acetylcholine, a neurotransmitter in Alzheimer's disease.
Materials Science and Engineering: C, 79, 541-549, (2017)
Sales MGF et al., Autonomous electrochemical biosensors: A new vision to direct methanol fuel cells.
Biosensors and Bioelectronics, 98, 428-436, (2017)
Cardoso AR et al., In-situ generated molecularly imprinted material for chloramphenicol electrochemical sensing in waters down to the nanomolar level.
Sensors and Actuators B: Chemical, 256, 420-428, (2018)
Gomes RS et al., Sensing CA 15-3 in point-of-care by electropolymerizing O-phenylenediamine (oPDA) on Au-screen printed electrodes.
PLoS ONE, 13, (5), ArticleNoe0196656-(2018)
Moreira FTC et al., Redox probe-free readings of a [beta]-amyloid-42 plastic antibody sensory material assembled on copper@carbon nanotubes.
Sensors and Actuators B: Chemical, 264, 1-9, (2018)
Moreira FTC et al., Biomimetic materials assembled on a photovoltaic cell as a novel biosensing approach to cancer biomarker detection.
Scientific Reports, 8, (1), ArticleNo10205-(2018)
Piloto AM et al., Plastic antibodies tailored on quantum dots for an optical detection of myoglobin down to the femtomolar range.
Scientific Reports, 8, (1), ArticleNo4944-(2018)
Ribeiro JA et al., Disposable electrochemical detection of breast cancer tumour marker CA 15-3 using poly(Toluidine Blue) as imprinted polymer receptor.
Biosensors and Bioelectronics, 109, 246-254, (2018)
Santos ART et al., Antibody Biomimetic Material Made of Pyrrole for CA 15-3 and Its Application as Sensing Material in Ion-Selective Electrodes for Potentiometric Detection.
Biosensors, 8, (1), ArticleNo8-(2018)
Tavares APM et al., Novel electro-polymerized protein-imprinted materials using Eriochrome black T: Application to BSA sensing.
Electrochimica Acta, 262, 214-225, (2018)
Cardoso AR et al., Molecularly-imprinted chloramphenicol sensor with laser-induced graphene electrodes.
Biosensors and Bioelectronics, 124-125, 167-175, (2019)
Cardoso AR et al., An impedimetric molecularly-imprinted biosensor for Interleukin-1[beta] determination, prepared by in-situ electropolymerization on carbon screen-printed electrodes.
Bioelectrochemistry, 130, Article107287-(2019)
Carneiro MCCG et al., Dual biorecognition by combining molecularly-imprinted polymer and antibody in SERS detection. Application to carcinoembryonic antigen.
Biosensors and Bioelectronics, 146, Article111761-(2019)
Moreira FTC et al., Autonomous biosensing device merged with photovoltaic technology for cancer biomarker detection.
Journal of Electroanalytical Chemistry, 855, Article113611-(2019)
Rebelo TSCR et al., Molecularly imprinted polymer SPE sensor for analysis of CA-125 on serum.
Analytica Chimica Acta, 1082, 126-135, (2019)
Tavares APM et al., Photovoltaics, plasmonics, plastic antibodies and electrochromism combined for a novel generation of self-powered and self-signalled electrochemical biomimetic sensors.
Biosensors and Bioelectronics, 137, 72-81, (2019)
Tavares APM et al., Self-powered and self-signalled autonomous electrochemical biosensor applied to cancinoembryonic antigen determination.
Biosensors and Bioelectronics, 140, Article111320-(2019)
Truta LAAN et al., Carcinoembryonic antigen imprinting by electropolymerization on a common conductive glass support and its determination in serum samples.
Sensors and Actuators B: Chemical, 287, 53-63, (2019)
Piloto AM et al., Label-free quantum dot conjugates for human protein IL-2 based on molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 304, Article127343-(2020)
Serrano VM et al., In-situ production of Histamine-imprinted polymeric materials for electrochemical monitoring of fish.
Sensors and Actuators B: Chemical, 311, Article127902-(2020)
Cerqueira SMV et al., Development of an electrochemical biosensor for Galectin-3 detection in point-of-care.
Microchemical Journal, 164, Article105992-(2021)
Gonçalves MdL et al., Electrochemical Point-of Care (PoC) Determination of Interleukin-6 (IL-6) Using a Pyrrole (Py) Molecularly Imprinted Polymer (MIP) on a Carbon-Screen Printed Electrode (C-SPE).
Analytical Letters, 54, (16), 2611-2623, (2021)
Tavares APM et al., Innovative screen-printed electrodes on cork composite substrates applied to sulfadiazine electrochemical sensing.
Journal of Electroanalytical Chemistry, 880, Article114922-(2021)
Electrophoresis, 39, (20), 2581-2589, (2018)
Journal of The Electrochemical Society, 160, (4), H243-H246, (2013)
Talanta, 99, 897-903, (2012)
Analytical and Bioanalytical Chemistry, 409, (5), 1207-1220, (2017)
International Journal of Pharmaceutics, 364, (2), 188-212, (2008)
(2008)
Salian VD et al., The role of living/controlled radical polymerization in the formation of improved imprinted polymers.
Journal of Molecular Recognition, 25, (6), 361-369, (2012)
Salian VD et al., Crosslinking diversity on network morphology, template binding, and template transport of molecularly imprinted polymers prepared via living radical polymerization.
Journal of Applied Polymer Science, 130, (5), 3588-3599, (2013)
Salian VD et al., Living Radical Polymerization and Molecular Imprinting: Improving Polymer Morphology in Imprinted Polymers.
Macromolecular Materials And Engineering, 298, (4), 379-390, (2013)
Salian VD et al., Controlled Drug Release from Weakly Crosslinked Molecularly Imprinted Networks: The Benefit of Living Radical Polymerization.
Macromolecular Chemistry And Physics, 214, (20), 2355-2366, (2013)
Salian VD et al., Molecularly imprinted polymers via living radical polymerization: Relating increased structural homogeneity to improved template binding parameters.
Reactive and Functional Polymers, 78, 38-46, (2014)
Chemosphere, 150, 275-284, (2016)
Electroanalysis, 30, (12), 2803-2840, (2018)
Babamiri B et al., Nickel nanoclusters as a novel emitter for molecularly imprinted electrochemiluminescence based sensor toward nanomolar detection of creatinine.
Biosensors and Bioelectronics, 107, 272-279, (2018)
Babamiri B et al., A molecularly imprinted electrochemiluminescence sensor for ultrasensitive HIV-1 gene detection using EuS nanocrystals as luminophore.
Biosensors and Bioelectronics, 117, 332-339, (2018)
Bahari D et al., Ultrasensitive molecularly imprinted fluorescence sensor for simultaneous determination of CA125 and CA15-3 in human serum and OVCAR-3 and MCF-7 cells lines using Cd and Ni nanoclusters as new emitters.
Analytical and Bioanalytical Chemistry, 413, (15), 4049-4061, (2021)
RSC Advances, 5, (74), 59912-59920, (2015)
Bojdi MK et al., Selective and Sensitive Determination of Uranyl Ions in Complex Matrices by Ion Imprinted Polymers-Based Electrochemical Sensor.
Electroanalysis, 27, (10), 2458-2467, (2015)
Polymer International, 62, (12), 1711-1716, (2013)
Salimraftar N et al., Three-level response surface full-factorial design: advanced chemometric approach for optimizing diclofenac sodium-imprinted polymer.
Polymer Bulletin, 71, (1), 19-30, (2014)
Analytical Chemistry, 77, (21), 7005-7011, (2005)
American Journal of Enology and Viticulture, 59, (4), 396-400, (2008)
Chemical Society Reviews, 41, (3), 1261-1296, (2012)
Panagiotopoulou M et al., Molecularly Imprinted Polymer Coated Quantum Dots for Multiplexed Cell Targeting and Imaging.
Angewandte Chemie International Edition, 55, (29), 8244-8248, (2016)
Chemical Communications, (25), 3224-3226, (2005)
Valero-Navarro A et al., The development of a MIP-optosensor for the detection of monoamine naphthalenes in drinking water.
Biosensors and Bioelectronics, 24, (7), 2305-2311, (2009)
Porcel-Valenzuela M et al., Molecularly imprinted silica films prepared by electroassisted deposition for the selective detection of dopamine.
Sensors and Actuators B: Chemical, 222, 63-70, (2016)
Journal of Separation Science, 40, (16), 3358-3367, (2017)
Analytical Chemistry, 74, (3), 702-712, (2002)
Talanta, 88, (1), 129-135, (2012)
Lee TP et al., Micro-solid phase extraction of ochratoxin A, and its determination in urine using capillary electrophoresis.
Microchimica Acta, 180, (11-12), 1149-1156, (2013)
Malaysian Journal of Fundamental and Applied Sciences, 6, (1), 27-30, (2010)
Sanagi MM et al., Determination of organophosphorus pesticides using molecularly imprinted polymer solid phase extraction.
The Malaysian Journal of Analytical Sciences, 15, (2), 175-183, (2011)
Sanagi MM et al., Molecularly imprinted polymer solid-phase extraction for the analysis of organophosphorus pesticides in fruit samples.
Journal of Food Composition and Analysis, 32, (2), 155-161, (2013)
Science Advances, 4, (7), eaar2904-(2018)
Sensors and Actuators B: Chemical, 204, 88-95, (2014)
Salles MO et al., Development of a Molecularly Imprinted Modified Electrode to Evaluate Phenacetin Based on the Preconcentration of Acetaminophen.
Journal of the Brazilian Chemical Society, 27, (1), 54-61, (2016)
Microchimica Acta, 188, (11), Article368-(2021)
Applied Water Science, 8, (1), ArticleNo41-(2018)
Chemical Papers, 66, (5), 369-391, (2012)
Salmi Z et al., Preparation of MIP grafts for quercetin by tandem aryl diazonium surface chemistry and photopolymerization.
Microchimica Acta, 180, (15-16), 1411-1419, (2013)
Bakas I et al., Molecularly imprinted polymeric sensings layers grafted from aryl diazonium-modified surfaces for electroanalytical applications. A mini review.
Surface And Interface Analysis, 46, (10-11), 1014-1020, (2014)
Bakas I et al., Picomolar Detection of Melamine Using Molecularly Imprinted Polymer-Based Electrochemical Sensors Prepared by UV-Graft Photopolymerization.
Electroanalysis, 27, (2), 429-439, (2015)
Ayadi H et al., Molecularly imprinted PVC beads for the recognition of proteins.
Journal of Applied Polymer Science, 133, (33), ArticleNo43694-(2016)
Structural Chemistry, 21, (6), 1171-1184, (2010)
Saloni J et al., Theoretical study of molecular interactions of TNT, acrylic acid, and ethylene glycol dimethacrylate - Elements of molecularly imprinted polymer modeling process.
Polymer, 52, (4), 1206-1216, (2011)
Saloni J et al., Theoretical Investigation on Monomer and Solvent Selection for Molecular Imprinting of Nitrocompounds.
Journal of Physical Chemistry A, 117, (7), 1531-1534, (2013)
Saloni J, Intermolecular interactions in molecular imprinting.
Abstracts of Papers of the American Chemical Society, 247, (COMP), 246-(2014)
Abstracts of Papers of the American Chemical Society, 245, (COMP), 264-(2013)
IOP Conference Series: Materials Science and Engineering, 509, Article012001-(2019)
Biotechnology and Bioengineering, 106, (5), 804-817, (2010)
Talanta, 110, 128-134, (2013)
Analytical Letters, 40, (7), 1294-1306, (2007)
Salvador JP et al., Book chapter, Application of bioassays/biosensors for the analysis of pharmaceuticals in environmental samples,
In: Analysis, Fate and Removal of Pharmaceuticals in the Water Cycle, Petrovic M (Ed.) Elsevier: Ch. 2.8, 279-334, (2007)
Analytical and Bioanalytical Chemistry, 410, (20), 4925-4941, (2018)
Natural Product Research, 28, (17), 1343-1349, (2014)
Separation Science and Technology, 40, (1-3), 109-129, (2005)
Iranian Journal of Public Health, 43, (5), 645-657, (2014)
Etemadi M et al., Selective adsorption of Cr(VI) ions from aqueous solutions using Cr6+-imprinted Pebax/chitosan/GO/APTES nanofibrous adsorbent.
International Journal of Biological Macromolecules, 95, 725-733, (2017)
Iranian Journal of Chemistry and Chemical Engineering, 31, (3), 35-44, (2012)
Journal of Fluorescence, 26, (5), 1645-1652, (2016)
Samadi-Maybodi A et al., Magnetized ion-imprinted polymer-coated nano-particles for selective separation and trace detection of 203Pb using gamma-ray spectrometry.
Journal of Radioanalytical and Nuclear Chemistry, 316, (2), 465-473, (2018)
RSC Advances, 11, (26), 15795-15807, (2021)
Analytical Methods, 6, (9), 2909-2915, (2014)
Science of The Total Environment, 631-632, 1534-1543, (2018)
Samah NA et al., Modelling the Diclofenac and Indomethacin Recovery by Molecularly Imprinted Polymer.
Journal of Physical Science, 29, (Suppl.1), 67-74, (2018)
Chemical Papers, 72, (11), 2707-2717, (2018)
Shamsipur M et al., Development of an ultrasensitive electrochemical genosensor for detection of HIV-1 pol gene using a gold nanoparticles coated carbon paste electrode impregnated with lead ion-imprinted polymer nanomaterials as a novel electrochemical probe.
Microchemical Journal, 160, Article105714-(2021)
Bioanalysis, 3, (17), 2019-2046, (2011)
Samanidou V et al., Matrix molecularly imprinted mesoporous sol-gel sorbent for efficient solid-phase extraction of chloramphenicol from milk.
Analytica Chimica Acta, 914, 62-74, (2016)
Kechagia M et al., Trends in Microextraction-Based Methods for the Determination of Sulfonamides in Milk.
Separations, 4, (3), ArticleNo23-(2017)
Bitas D et al., Molecularly Imprinted Polymers as Extracting Media for the Chromatographic Determination of Antibiotics in Milk.
Molecules, 23, (2), ArticleNo316-(2018)
Kechagia M et al., One-pot synthesis of a multi-template molecularly imprinted polymer for the extraction of six sulfonamide residues from milk before high-performance liquid chromatography with diode array detection.
Journal of Separation Science, 41, (3), 723-731, (2018)
In: Encyclopedia of Chromatography, Cazes J (Ed.) Marcel Dekker: (2001)
Kalogiouri NP et al., Synthesis and application of molecularly imprinted polymers using sol-gel matrix imprinting technology for the efficient solid-phase extraction of BPA from water.
Microchemical Journal, 157, Article104965-(2020)
Kalogiouri NP et al., A green molecular imprinted solid-phase extraction protocol for bisphenol A monitoring with HPLC-UV to guarantee the quality and safety of walnuts under different storage conditions.
Journal of Separation Science, 44, (8), 1633-1640, (2021)
Tsalbouris A et al., Bisphenol A migration to alcoholic and non-alcoholic beverages - An improved molecular imprinted solid phase extraction method prior to detection with HPLC-DAD.
Microchemical Journal, 162, Article105846-(2021)
Procedia Engineering, 5, 381-384, (2010)
Bajwa S et al., Nanostructured materials with biomimetic recognition abilities for chemical sensing.
Nanoscale Research Letters, 7, (1), 328-(2012)
Findeisen A et al., Artificial receptor layers for detecting chemical and biological agent mimics.
Sensors and Actuators B: Chemical, 170, 196-200, (2012)
Lieberzeit PA et al., MIP Sensors on the Way to Biotech Application: Selectivity and Ruggedness.
Procedia Engineering, 47, 534-537, (2012)
Samardzic R et al., Quartz Crystal Microbalance In-Line Sensing of Escherichia Coli in a Bioreactor Using Molecularly Imprinted Polymers.
Sensor Letters, 12, (6-7), 1152-1155, (2014)
Reactive and Functional Polymers, 70, (1), 63-68, (2010)
Mizuki H et al., Zr(IV)-Immobilized Resin Prepared by Surface Template Polymerization for Fluoride Ion Removal.
Solvent Extraction and Ion Exchange, 29, (1), 146-156, (2011)
Analyst, 130, (1), 38-40, (2005)
Sambe H et al., Retentivity and enantioselectivity of uniformly-sized molecularly imprinted polymers for (S)-nilvadipine in aqueous and non-aqueous mobile phases.
Analytical Sciences, 21, (4), 391-395, (2005)
Sambe H et al., Uniformly-Sized, Molecularly Imprinted Polymers for (-)-Nicotine by Precipitation Polymerization and Their Applications.
Chromatography, 27, (Supplement 1), 43-44, (2006)
Sambe H et al., Uniformly-sized, molecularly imprinted polymers for nicotine by precipitation polymerization.
Journal of Chromatography A, 1134, (1-2), 88-94, (2006)
Sambe H et al., Simultaneous determination of bisphenol A and its halogenated derivatives in river water by combination of isotope imprinting and liquid chromatography-mass spectrometry.
Journal of Chromatography A, 1134, (1-2), 16-23, (2006)
Haginaka J et al., Uniformly-sized, molecularly imprinted polymers for (-)-epigallocatechin gallate, -epicatechin gallate and -gallocatechin gallate by multi-step swelling and polymerization method.
Journal of Chromatography A, 1156, (1-2), 45-50, (2007)
Sambe H et al., Molecularly imprinted polymers for triazine herbicides prepared by multi-step swelling and polymerization method: Their application to the determination of methylthiotriazine herbicides in river water.
Journal of Chromatography A, 1152, (1-2), 130-137, (2007)
IOP Conference Series: Materials Science and Engineering, 546, (3), Article032012-(2019)
Doklady Akademii Nauk SSSR, 238, (2), 356-358, (1978)
Journal of Bioscience and Bioengineering, 96, (6), 525-528, (2003)
Asian Journal of Chemistry, 29, (6), 1229-1234, (2017)
Chemico-Biological Interactions, 295, 52-63, (2018)
Drug Testing and Analysis, 5, (6), 461-467, (2013)
International Journal of Biological Macromolecules, 188, 126-136, (2021)
Journal of Biochemical Technology, 9, (4), 22-27, (2018)
Journal of Liquid Chromatography & Related Technologies, 38, (6), 702-708, (2015)
Pakistan Journal of Analytical & Environmental Chemistry, 18, (1), 18-36, (2017)
Physics and Chemistry of the Earth, Parts A/B/C, 76-78, 49-53, (2014)
Kibechu R et al., Effect of incorporating graphene oxide and surface imprinting on polysulfone membranes on flux, hydrophilicity and rejection of salt and polycyclic aromatic hydrocarbons from water.
Physics and Chemistry of the Earth, Parts A/B/C, 100, 126-134, (2017)
Kibechu RW et al., Graphene-based molecularly imprinted polymer for separation and pre-concentration of trace polycyclic aromatic hydrocarbons in environmental water samples.
Journal of Applied Polymer Science, 134, (37), ArticleNo45300-(2017)
Journal of Chromatography A, 1217, (16), 2521-2532, (2010)
Capriotti AL et al., Recent trends in matrix solid-phase dispersion.
TrAC Trends in Analytical Chemistry, 43, 53-66, (2013)
Capriotti AL et al., Recent advances and developments in matrix solid-phase dispersion.
TrAC Trends in Analytical Chemistry, 71, 186-193, (2015)
(2012)
Hawari HF et al., Array of MIP-Based Sensor for Fruit Maturity Assessment.
Procedia Chemistry, 6, 100-109, (2012)
Hawari HF et al., Proceeding, Recognition of Limonene volatile using Interdigitated Electrode molecular imprinted polymer sensor,
723-726, (2012)
Hawari HF et al., Development of Interdigitated Electrode Molecular Imprinted Polymer Sensor for Monitoring Alpha Pinene Emissions from Mango Fruit.
Procedia Engineering, 53, 197-202, (2013)
Hawari HF et al., Highly selective molecular imprinted polymer (MIP) based sensor array using interdigitated electrode (IDE) platform for detection of mango ripeness.
Sensors and Actuators B: Chemical, 187, 434-444, (2013)
In: Materials for Smart Systems III, Wun-Fogle M, Uchino K, Ito Y, Gotthardt R (Eds.) Materials Research Society: Warrendale, 311-316, (2000)
Shin YS et al., Ordered Hierarchical Porous Materials: Towards Tunable Size- and Shape-Selective Microcavities in Nanoporous Channels.
Angewandte Chemie International Edition, 39, (15), 2702-2707, (2000)
Journal of Nanoscience and Nanotechnology, 13, (4), 3054-3061, (2013)
Hande PE et al., Highly selective monitoring of metals by using ion-imprinted polymers.
Environmental Science and Pollution Research, 22, (10), 7375-7404, (2015)
Hande PE et al., A molecularly imprinted polymer with flash column chromatography for the selective and continuous extraction of diphenyl amine.
RSC Advances, 5, (90), 73434-73443, (2015)
Hande PE et al., Chitosan-Based Lead Ion-Imprinted Interpenetrating Polymer Network by Simultaneous Polymerization for Selective Extraction of Lead(II).
Industrial & Engineering Chemistry Research, 55, (12), 3668-3678, (2016)
Hande PE et al., Selective nanomolar detection of mercury using coumarin based fluorescent Hg(II)-Ion imprinted polymer.
Sensors and Actuators B: Chemical, 246, 597-605, (2017)
Hande PE et al., An Efficient Method for Determination of the Diphenylamine (Stabilizer) in Propellants by Molecularly Imprinted Polymer based Carbon Paste Electrochemical Sensor.
Propellants, Explosives, Pyrotechnics, 42, (4), 376-380, (2017)
Talanta, 220, Article121414-(2020)
975-978, (2003)
Navarro-Villoslada F et al., Application of multivariate analysis to the screening of molecularly imprinted polymers for bisphenol A.
Analytica Chimica Acta, 504, (1), 149-162, (2004)
San Vicente B et al., Continuous solid-phase extraction and preconcentration of bisphenol A in aqueous samples using molecularly imprinted columns.
Analytical and Bioanalytical Chemistry, 380, (1), 115-122, (2004)
Malaysian Journal of Fundamental and Applied Sciences, 6, (1), 27-30, (2010)
Sanagi MM et al., Determination of organophosphorus pesticides using molecularly imprinted polymer solid phase extraction.
The Malaysian Journal of Analytical Sciences, 15, (2), 175-183, (2011)
Sanagi MM et al., Molecularly imprinted polymer solid-phase extraction for the analysis of organophosphorus pesticides in fruit samples.
Journal of Food Composition and Analysis, 32, (2), 155-161, (2013)
Ibrahim WAW et al., Application of Solid-Phase Extraction for Trace Elements in Environmental and Biological Samples: A Review.
Critical Reviews in Analytical Chemistry, 44, (3), 233-254, (2014)
Zinalibdin MR et al., A Novel Molecularly Imprinted Acrylonitrile-butadiene-styrene Membrane for Adsorption of Hippuric acid.
Procedia Chemistry, 16, 91-98, (2015)
Zinalibdin MR et al., Preparation, characterization and adsorption study of o-cresol molecularly imprinted grafted silica gel sorbent synthesized by sol-gel polymerization.
AIP Conference Proceedings, 1904, (1), ArticleNo020083-(2017)
Chemistry Letters, 27, (11), 1089-1090, (1998)
Haginaka J et al., Uniform-sized molecularly imprinted polymer for (S)-ibuprofen - Retention properties in aqueous mobile phases.
Journal of Chromatography A, 857, (1-2), 117-125, (1999)
Haginaka J et al., Preparation of molecularly imprinted polymers for endocrine-disrupting chemicals: comparison of molecularly imprinted polymers for [beta]-oestradiol and bisphenol A.
Chromatography, 20, (4), 330-331, (1999)
Haginaka J et al., Uniform-sized molecularly imprinted polymers for bisphenol A.
Chemistry Letters, 28, (8), 757-758, (1999)
Haginaka J et al., Uniform-sized molecularly imprinted polymers for 2-arylpropionic acid derivatives selectively modified with hydrophilic external layer and their applications to direct serum injection analysis.
Analytical Chemistry, 72, (21), 5206-5210, (2000)
Haginaka J et al., Uniformly sized molecularly imprinted polymer for (S)-naproxen - Retention and molecular recognition properties in aqueous mobile phase.
Journal of Chromatography A, 913, (1-2), 141-146, (2001)
Fu Q et al., Uniformly sized molecularly imprinted polymer for (S)-nilvadipine. Comparison of chiral recognition ability with HPLC chiral stationary phases based on a protein.
Analytical Chemistry, 75, (2), 191-198, (2003)
Sanbe H et al., Restricted access media-molecularly imprinted polymer for propranolol and its application to direct injection analysis of b-blockers in biological fluids.
Analyst, 128, (6), 593-597, (2003)
Sanbe H et al., Uniformly sized molecularly imprinted polymers for bisphenol A and b-estradiol: retention and molecular recognition properties in hydro-organic mobile phases.
Journal of Pharmaceutical and Biomedical Analysis, 30, (6), 1835-1844, (2003)
Sanbe H et al., Preparation of uniformly sized molecularly imprinted polymers for phenolic compounds and their application to the assay of bisphenol A in river water.
Analytical Sciences, 19, (5), 715-719, (2003)
Haginaka J et al., Uniformly sized molecularly imprinted polymers: their applications to chiral separation and bioanalysis.
Chinese Journal of Chromatography, 22, (4), 306-308, (2004)
Journal of Materials Chemistry, 21, (34), 12588-12604, (2011)
Salinas Y et al., Optical chemosensors and reagents to detect explosives.
Chemical Society Reviews, 41, (3), 1261-1296, (2012)
Electrophoresis, 39, (20), 2581-2589, (2018)
Chemistry of Materials, 14, (12), 5124-5133, (2002)
Journal of Materials Chemistry, 12, (5), 1577-1581, (2002)
In: Analysis, Fate and Removal of Pharmaceuticals in the Water Cycle, Petrovic M (Ed.) Elsevier: Ch. 2.8, 279-334, (2007)
Current Chemical Biology, 12, (2), 114-134, (2018)
Electrochimica Acta, 194, 292-303, (2016)
Biological Trace Element Research, 135, (1), 325-333, (2010)
Khajeh M et al., A pre-concentration procedure employing a new imprinted polymer for the determination of copper in water.
International Journal of Environmental Analytical Chemistry, 91, (13), 1310-1319, (2011)
Khajeh M et al., Synthesis of ion-selective imprinted polymer for manganese removal from environmental water.
Polymer Bulletin, 67, (3), 413-425, (2011)
Khajeh M et al., Imprinted polymer particles for preconcentration of copper from water and biological samples.
Environmental Chemistry Letters, 9, (2), 177-183, (2011)
Khajeh M et al., Synthesis, characterization and removal of lead from water samples using lead-ion imprinted polymer.
Chemical Engineering Journal, 166, (3), 1158-1163, (2011)
Sensors and Actuators B: Chemical, 295, 186-193, (2019)
Analytica Chimica Acta, 526, (2), 147-154, (2004)
Energy & Fuels, 29, (12), 7743-7752, (2015)
Ionics, 16, (6), 529-537, (2010)
Polymer Chemistry, 2, (9), 2052-2061, (2011)
Contact Lens and Anterior Eye, 31, (2), 57-64, (2008)
Journal of Pharmaceutical and Biomedical Analysis, 140, 367-376, (2017)
Chemical Society Reviews, 26, (5), 327-336, (1997)
Immunobiology, 217, (11), 1199-(2012)
Electrophoresis, 20, (15-16), 3027-3065, (1999)
Lara FJ et al., Evaluation of a molecularly imprinted polymer as in-line concentrator in capillary electrophoresis.
Electrophoresis, 29, (18), 3834-3841, (2008)
Biosensors and Bioelectronics, 158, Article112176-(2020)
U. P. B. Science Bulletin, Series B, 73, (4), 3-14, (2015)
Gavrila AM et al., Molecularly Imprinted Polymer Pearls Obtained by Phase Inversion for the Selective Recognition of Hypericin.
Materiale Plastice, 56, (2), 315-320, (2019)
Electrochemistry Communications, 59, 36-39, (2015)
Florea A et al., Anticancer drug detection using a highly sensitive molecularly imprinted electrochemical sensor based on an electropolymerized microporous metal organic framework.
Talanta, 138, 71-76, (2015)
Guo ZZ et al., 1, 3, 5-Trinitrotoluene detection by a molecularly imprinted polymer sensor based on electropolymerization of a microporous-metal-organic framework.
Sensors and Actuators B: Chemical, 207, (Part B), 960-966, (2015)
Sandulescu R et al., Book chapter, New Materials for the Construction of Electrochemical Biosensors,
In: Biosensors - Micro and Nanoscale Applications, Rinken T (Ed.) InTech: Ch. 1, 1-36, (2015)
Bougrini M et al., Development of a novel sensitive molecularly imprinted polymer sensor based on electropolymerization of a microporous-metal-organic framework for tetracycline detection in honey.
Food Control, 59, 424-429, (2016)
Guo ZZ et al., Molecularly Imprinted Polymer/Metal Organic Framework Based Chemical Sensors.
Coatings, 6, (4), ArticleNo42-(2016)
Ciui B et al., Electrochemical Sensor for Dopamine Based on Electropolymerized Molecularly Imprinted Poly-aminothiophenol and Gold Nanoparticles.
Procedia Technology, 27, 118-119, (2017)
Tertis M et al., Detection of Dopamine by a Biomimetic Electrochemical Sensor Based on Polythioaniline-Bridged Gold Nanoparticles.
ChemPlusChem, 82, (4), 561-569, (2017)
Adumitrachioaie A et al., Electrochemical Methods Based on Molecularly Imprinted Polymers for Drug Detection. A Review.
International Journal of Electrochemical Science, 13, 2556-2576, (2018)
TrAC Trends in Analytical Chemistry, 114, 11-28, (2019)
Journal of Food Safety and Quality, 8, (11), 4169-4173, (2017)
Rock and Mineral Analysis, 31, (3), 399-406, (2012)
Du XW et al., Highly Selective Molecular Recognition and Ultrasensitive Detection of 3, 4-dichloroaniline Based on Molecularly Imprinted Sol-Gel Film Combined with Multi-Walled Carbon Nanotubes.
Journal of The Electrochemical Society, 160, (10), H742-H748, (2013)
Analytical Methods, 9, (47), 6682-6688, (2017)
Yu WL et al., Preparation of a carboxylated single-walled carbon-nanotube-chitosan functional layer and its application to a molecularly imprinted electrochemical sensor to quantify semicarbazide.
Food Chemistry, 333, Article127524-(2020)
Electrochimica Acta, 305, 322-328, (2019)
Electrochimica Acta, 305, 322-328, (2019)
Jpc-Journal Of Planar Chromatography-Modern Tlc, 11, 272-276, (1998)
Suedee R et al., Direct enantioseparation of adrenergic drugs via thin-layer chromatography using molecularly imprinted polymers.
Journal of Pharmaceutical and Biomedical Analysis, 19, (3), 519-527, (1999)
Procedia Engineering, 5, 371-374, (2010)
Khadro B et al., Molecularly Imprinted Polymers (MIP) Based Electrochemical Sensor for Detection of Urea and Creatinine.
Sensor Letters, 9, (6), 2261-2264, (2011)
Sanglar C et al., Study of Prepolymerization Complex Formation in the Synthesis of Steroid-Based Molecularly Imprinted Polymers.
Analytical Chemistry, 84, (10), 4481-4488, (2012)
Betatache A et al., Gold Electrodes Modified with Molecular Imprinted Acrylate Polymer for Impedimetric Determination of Testosterone.
Sensors and Transducers, 27, (Special Issue May 2014), 92-99, (2014)
Saadaoui A et al., New biosourced chiral molecularly imprinted polymer: Synthesis, characterization, and evaluation of the recognition capacity of methyltestosterone.
Journal of Molecular Recognition, 30, (4), ArticleNoe2594-(2017)
Analytical and Bioanalytical Chemistry, 400, (8), 2499-2506, (2011)
Wangchareansak T et al., Influenza A virus molecularly imprinted polymers and their application in virus sub-type classification.
Journal of Materials Chemistry B, 1, (16), 2190-2197, (2013)
Wangchareansak T et al., A novel approach to identify molecular binding to the influenza virus H5N1: screening using molecularly imprinted polymers (MIPs).
MedChemComm, 5, (5), 617-621, (2014)
Tancharoen C et al., Proceeding, Molecularly Imprinted Polymer for explosive detection,
171-174, (2015)
Lieberzeit PA et al., Molecularly Imprinted Polymers for Diagnostics: Sensing High Density Lipoprotein and Dengue Virus.
Procedia Engineering, 168, 101-104, (2016)
Sangma C et al., Book chapter, H5N1 Virus Plastic Antibody Based on Molecularly Imprinted Polymers,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 381-388, (2017)
Sukjee W et al., Small-Molecule Dengue Virus Co-imprinting and Its Application as an Electrochemical Sensor.
ChemistryOpen, 6, (3), 340-344, (2017)
Tancharoen C et al., Electrochemical Biosensor Based on Surface Imprinting for Zika Virus Detection in Serum.
ACS Sensors, 4, (1), 69-75, (2019)
Analytica Chimica Acta, 504, (1), 89-100, (2004)
RSC Advances, 8, (1), 206-212, (2018)
Desalination and Water Treatment, 24, (1-3), 176-189, (2010)
Singh KP et al., Selective Recognition and Detoxification of Deltamethrin Using Molecularly Imprinted Polymer (MIP) Matrices.
Analytical Chemistry Letters, 3, (1), 30-39, (2013)
Reactive and Functional Polymers, 133, 103-125, (2018)
Analytical Chemistry, 80, (23), 9375-9376, (2008)
Sankarakumar N et al., Core-shell surface imprinted polymeric nanoparticles for selective protein recognition and separation from complex aqueous media.
Abstracts of Papers of the American Chemical Society, 241, (ANYL), 297-(2011)
Sankarakumar N et al., Preventing viral infections with polymeric virus catchers: a novel nanotechnological approach to anti-viral therapy.
Journal of Materials Chemistry B, 1, (15), 2031-2037, (2013)
Sankarakumar N et al., Protein adsorption behavior in batch and competitive conditions with nanoparticle surface imprinting.
RSC Advances, 3, (5), 1519-1527, (2013)
Xie WY et al., Specific purification of a single protein from a cell broth mixture using molecularly imprinted membranes for the biopharmaceutical industry.
RSC Advances, 9, (41), 23425-23434, (2019)
Jpc-Journal Of Planar Chromatography-Modern Tlc, 11, 272-276, (1998)
Suedee R et al., Direct enantioseparation of adrenergic drugs via thin-layer chromatography using molecularly imprinted polymers.
Journal of Pharmaceutical and Biomedical Analysis, 19, (3), 519-527, (1999)
Desalination and Water Treatment, 57, (45), 21577-21584, (2016)
Analytica Chimica Acta, 802, 40-45, (2013)
Microchemical Journal, 147, 813-817, (2019)
Analytical Chemistry, 81, (24), 10061-10070, (2009)
Huynh TP et al., Cytosine derivatized bis(2, 2'-bithienyl)methane molecularly imprinted polymer for selective recognition of 6-thioguanine, an antitumor drug.
Biosensors and Bioelectronics, 70, 153-160, (2015)
Bartold K et al., Programmed Transfer of Sequence Information into a Molecularly Imprinted Polymer for Hexakis(2, 2'-bithien-5-yl) DNA Analogue Formation toward Single-Nucleotide-Polymorphism Detection.
ACS Applied Materials & Interfaces, 9, (4), 3948-3958, (2017)
Journal of Analytical Chemistry, 74, (1), 11-17, (2019)
Bunseki Kagaku, 56, (5), 279-297, (2007)
Journal of the Chemical Society-Perkin Transactions 2, (9), 2005-2008, (1998)
Kanekiyo Y et al., Molecular-imprinting Kanekiyo Y et al., Molecular-imprinting Kanekiyo Y et al., Novel nucleotide-responsive hydrogels designed from copolymers of boronic acid and cationic units and their applications as a QCM resonator system to nucleotide sensing.
Journal of Polymer Science Part A: Polymer Chemistry, 38, (8), 1302-1310, (2000)
Journal of Chromatography A, 987, (1-2), 389-394, (2003)
Hosoya K et al., A molecular recognition strategy towards tetra-chlorinated dibenzo-p-dioxins, TCDDs.
Biosensors and Bioelectronics, 20, (6), 1185-1189, (2004)
Kubo T et al., Interval immobilization technique for recognition toward a highly hydrophilic cyanobacterium toxin.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 806, (2), 229-235, (2004)
Kubo T et al., Polymer-based adsorption medium prepared using a fragment imprinting technique for homologues of chlorinated bisphenol A produced in the environment.
Journal of Chromatography A, 1029, (1-2), 37-41, (2004)
Kubo T et al., Toxicity recognition of hepatotoxin, homologues of microcystin with artificial trapping devices.
Journal of Environmental Science and Health Part A-Toxic/Hazardous Substances & Environmental Engineering, 39, (10), 2597-2614, (2004)
Kubo T et al., Recognition of hepatotoxic homologues of Microcystin using a combination of selective adsorption media.
Journal of Separation Science, 27, (4), 316-324, (2004)
Kubo T et al., Dependence of the pretreatment efficiency of polymer-based adsorbents for environmental water on their uniformity and size.
Journal of Polymer Science Part A: Polymer Chemistry, 43, (10), 2112-2118, (2005)
Kubo T et al., Selective separation of brominated bisphenol A homologues using a polymer-based medium prepared by the fragment imprinting technique.
Analytica Chimica Acta, 549, (1-2), 45-50, (2005)
Kubo T et al., Chromatographic separation for domoic acid using a fragment imprinted polymer.
Analytica Chimica Acta, 577, (1), 1-7, (2006)
Nemoto K et al., Development of the novel separation media having 3D structural recognition ability for domoic acid.
Chromatography, 27, (Supplement 2), 103-104, (2006)
Nemoto K et al., Development of novel selective separation media for domoic acid using the fragment imprinted polymers.
Nippon Kagakkai Koen Yokoshu, 86, (1), 500-(2006)
Nemoto K et al., Simple and Effective 3D Recognition of Domoic Acid Using a Molecularly Imprinted Polymer.
Journal of the American Chemical Society, 129, (44), 13626-13632, (2007)
Nemoto K et al., Simple and Effective 3D Recognition of Domoic Acid Using a Molecularly Imprinted Polymer [J. Am. Chem. Soc. 2007, 129, 13626-13632].
Journal of the American Chemical Society, 130, (2), 774-774, (2008)
Kubo T et al., Selective adsorption of carbohydrates and glycoproteins via molecularly imprinted hydrogels: application to visible detection by a boronic acid monomer.
Chemical Communications, 53, (53), 7290-7293, (2017)
Kubo T et al., Competitive ELISA-like Label-free Detection of Lysozyme by Using a Fluorescent Monomer-doped Molecularly Imprinted Hydrogel.
Analytical Sciences, 33, (11), 1311-1315, (2017)
Yagishita M et al., Efficient extraction of estrogen receptor-active compounds from environmental surface water via a receptor-mimic adsorbent, a hydrophilic PEG-based molecularly imprinted polymer.
Chemosphere, 217, 204-212, (2019)
Kubo T et al., Fluorescent detection of target proteins via a molecularly imprinted hydrogel.
Analytical Methods, 13, (27), 3086-3091, (2021)
Journal of Nanoscience and Nanotechnology, 13, (4), 3054-3061, (2013)
Electrochimica Acta, 305, 322-328, (2019)
Journal of Pharmacy and Pharmacology, 62, (5), 633-637, (2010)
Sensors and Actuators B: Chemical, 344, Article130171-(2021)
Analytica Chimica Acta, 704, (1-2), 33-46, (2011)
Guedes-Alonso R et al., Molecularly imprinted solid-phase extraction coupled with ultra high performance liquid chromatography and fluorescence detection for the determination of estrogens and their metabolites in wastewater.
Journal of Separation Science, 38, (22), 3961-3968, (2015)
Journal of Separation Science, 38, (22), 3961-3968, (2015)
Analytica Chimica Acta, 695, (1-2), 44-50, (2011)
Santos WdJR et al., Electrochemical sensor based on imprinted sol-gel and nanomaterial for determination of caffeine.
Sensors and Actuators B: Chemical, 166-167, (1), 739-745, (2012)
Journal of Biotechnology & Biomaterials, 7, ArticleNo260-(2017)
Abstracts of Papers of the American Chemical Society, 216, (INOR), 216-216, (1998)
Santora BP et al., Toward the molecular imprinting of titanium Lewis acids: Demonstration of Diels-Alder catalysis.
Organometallics, 17, (15), 3138-3140, (1998)
Gagné MR et al., Molecular imprinting of transition metal catalysts.
Abstracts of Papers of the American Chemical Society, 218, (INOR), 164-164, (1999)
Microchemical Journal, 168, Article106367-(2021)
Sensors and Actuators B: Chemical, 344, Article130171-(2021)
Analytica Chimica Acta, 1143, 53-64, (2021)
Talanta, 224, Article121804-(2021)
Biosensors, 8, (1), ArticleNo8-(2018)
LWT - Food Science and Technology, 64, (2), 632-638, (2015)
Electrochimica Acta, 132, 142-150, (2014)
Piloto AM et al., Plastic antibodies tailored on quantum dots for an optical detection of myoglobin down to the femtomolar range.
Scientific Reports, 8, (1), ArticleNo4944-(2018)
Journal of Membrane Science, 383, (1-2), 60-69, (2011)
Ribeiro A et al., Bioinspired Imprinted PHEMA-Hydrogels for Ocular Delivery of Carbonic Anhydrase Inhibitor Drugs.
Biomacromolecules, 12, (3), 701-709, (2011)
Applied Spectroscopy Reviews, 43, (4), 303-334, (2008)
Materials Science and Engineering: C, 59, 1069-1078, (2016)
Santos H et al., Molecularly imprinted polymers for miniaturized sample preparation techniques: strategies for chromatographic and mass spectrometry methods.
Analytical Methods, 12, (7), 894-911, (2020)
Sensors and Actuators B: Chemical, 222, 391-396, (2016)
In: Food Biosensors, Lim SA, Ahmed MU (Eds.) The Royal Society of Chemistry: Ch. 11, 264-281, (2017)
Scientific Reports, 8, (1), ArticleNo4944-(2018)
Piloto AM et al., Label-free quantum dot conjugates for human protein IL-2 based on molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 304, Article127343-(2020)
Advances in Polymer Technology, 34, (4), ArticleNo21506-(2015)
Figueiredo L et al., Applications of molecularly imprinted polymers to the analysis and removal of personal care products: A review.
Talanta, 146, 754-765, (2016)
Cardoso AR et al., Molecularly-imprinted chloramphenicol sensor with laser-induced graphene electrodes.
Biosensors and Bioelectronics, 124-125, 167-175, (2019)
Applied Spectroscopy Reviews, 43, (4), 303-334, (2008)
Analyst, 136, (18), 3753-3757, (2011)
Santos MG et al., Molecularly imprinted solid phase extraction of urinary diethyl thiophosphate and diethyl dithiophosphate and their analysis by gas chromatography-mass spectrometry.
Journal of Chromatography B, 909, 70-76, (2012)
Franqui LS et al., Synthesis and characterization of a magnetic molecularly imprinted polymer for the selective extraction of nicotine and cotinine from urine samples followed by GC-MS analysis.
Analytical Methods, 7, (21), 9237-9244, (2015)
Santos MG et al., Restricted access molecularly imprinted polymers obtained by bovine serum albumin and/or hydrophilic monomers' external layers: a comparison related to physical and chemical properties.
Analyst, 140, (22), 7768-7775, (2015)
Santos MG et al., Direct doping analysis of beta-blocker drugs from urinary samples by on-line molecularly imprinted solid-phase extraction coupled to liquid chromatography/mass spectrometry.
Analyst, 140, (8), 2696-2703, (2015)
de Faria HD et al., New advances in restricted access materials for sample preparation: A review.
Analytica Chimica Acta, 959, 43-65, (2017)
Santos MG et al., Analysis of tricyclic antidepressants in human plasma using online-restricted access molecularly imprinted solid phase extraction followed by direct mass spectrometry identification/quantification.
Talanta, 163, 8-16, (2017)
Journal of Environmental Chemical Engineering, 7, (2), Article103037-(2019)
Brazilian Journal of Chemical Engineering, 33, (2), 361-372, (2016)
TrAC Trends in Analytical Chemistry, 68, 2-17, (2015)
Reactive and Functional Polymers, 70, (6), 325-333, (2010)
Quimica Nova, 37, (1), 63-68, (2014)
Analytical and Bioanalytical Chemistry, 389, (6), 1919-1929, (2007)
Leite FRF et al., Selective determination of caffeic acid in wines with electrochemical sensor based on molecularly imprinted siloxanes.
Sensors and Actuators B: Chemical, 193, 238-246, (2014)
Journal of the Brazilian Chemical Society, 20, (5), 820-825, (2009)
Ribeiro CM et al., Application of a nanostructured platform and imprinted sol-gel film for determination of chlorogenic acid in food samples.
Talanta, 156-157, 119-125, (2016)
Analytica Chimica Acta, 631, (2), 170-176, (2009)
Neto JdRM et al., A hemin-based molecularly imprinted polymer (MIP) grafted onto a glassy carbon electrode as a selective sensor for 4-aminophenol amperometric.
Sensors and Actuators B: Chemical, 152, (2), 220-225, (2011)
Santos WdJR et al., Novel electrochemical sensor for the selective recognition of chlorogenic acid.
Analytica Chimica Acta, 695, (1-2), 44-50, (2011)
Sartori LR et al., Flow-based method for epinephrine determination using a solid reactor based on molecularly imprinted poly(FePP-MAA-EGDMA).
Materials Science and Engineering: C, 31, (2), 114-119, (2011)
Santos WdJR et al., Electrochemical sensor based on imprinted sol-gel and nanomaterial for determination of caffeine.
Sensors and Actuators B: Chemical, 166-167, (1), 739-745, (2012)
Industrial & Engineering Chemistry Research, 52, (25), 8550-8557, (2013)
In: Natural Products Isolation, Sarker SD, Nahar L (Eds.) Humana Press: Ch. 17, 427-464, (2012)
Analytical Methods, 8, (5), 1181-1186, (2016)
Journal of Separation Science, 37, (21), 3150-3156, (2014)
Sartore DM et al., Automated microextraction by packed sorbent of cannabinoids from human urine using a lab-made device packed with molecularly imprinted polymer.
Talanta, 219, Article121185-(2020)
In: Chemical, Biological and Environmental Engineering, Li K (Ed.) World Scientific: 231-234, (2009)
Shofiyani A et al., Cadmium adsorption on chitosan/chlorella biomass sorbent prepared by ionic-imprinting technique.
Indonesian Journal of Chemistry, 15, (2), 163-171, (2015)
Journal of Separation Science, 38, (8), 1402-1410, (2015)
Analyst, 135, (4), 726-730, (2010)
Figueiredo EC et al., Quantitation of drugs via molecularly imprinted polymer solid phase extraction and electrospray ionization mass spectrometry: benzodiazepines in human plasma.
Analyst, 136, (18), 3753-3757, (2011)
Journal of Chromatography A, 1153, (1-2), 114-129, (2007)
Journal of Chromatography A, 1153, (1-2), 114-129, (2007)
Journal of Chromatography A, 1153, (1-2), 74-89, (2007)
Chemical Communications, (25), 3224-3226, (2005)
Sánchez-Barragán I et al., Molecularly imprinted polymers based on iodinated monomers for selective room-temperature phosphorescence optosensing of fluoranthene in water.
Analytical Chemistry, 77, (21), 7005-7011, (2005)
Sánchez-Barragán I et al., Room-temperature phosphorescence (RTP) for optical sensing.
TrAC Trends in Analytical Chemistry, 25, (10), 958-967, (2006)
Sánchez-Barragán I et al., A molecularly imprinted polymer for carbaryl determination in water.
Sensors and Actuators B: Chemical, 123, (2), 798-804, (2007)
Traviesa-Alvarez JM et al., Room temperature phosphorescence optosensing of benzo[a]pyrene in water using halogenated molecularly imprinted polymers.
Analyst, 132, (3), 218-223, (2007)
Alvarez-Diaz A et al., Halogenated molecularly imprinted polymers for selective determination of carbaryl by phosphorescence measurements.
Analytical and Bioanalytical Chemistry, 394, (6), 1569-1576, (2009)
Álvarez A et al., Reusable phosphorescent probes based on molecularly imprinted polymers for the determination of propranolol in urine.
Sensors and Actuators B: Chemical, 168, (1), 370-375, (2012)
Chemistry of Materials, 28, (21), 7947-7954, (2016)
Talanta, 194, 997-1004, (2019)
Indonesian Journal of Chemistry, 17, (3), 516-522, (2017)
Radiochimica Acta, 101, (11), 725-731, (2013)
Sarabadani P et al., Synthesis and characterization of a novel nanostructured ion-imprinted polymer for pre-concentration of Y(III) ions.
Analytical Methods, 6, (3), 741-749, (2014)
Sarabadani P et al., Solid phase extraction of radioyttrium from irradiated strontium target using nanostructure ion imprinted polymer formed with 1-hydroxy-4-(prop-2-enyloxy)-9, 10-anthraquinone.
Applied Radiation and Isotopes, 90, 8-14, (2014)
Masoumi F et al., Synthesis, characterization and application of a new nano-structured samarium(III) ion-imprinted polymer.
Polymer Bulletin, 76, (11), 5499-5516, (2019)
Microchemical Journal, 168, Article106388-(2021)
Korean Journal of Chemical Engineering, 33, (11), 3289-3297, (2016)
Bulletin of Environmental Contamination and Toxicology, 101, (5), 657-663, (2018)
Journal of Chromatography A, 1229, (1), 24-29, (2012)
Sarafraz-Yazdi A et al., Application of molecularly-imprinted polymers in solid-phase microextraction techniques.
TrAC Trends in Analytical Chemistry, 73, 81-90, (2015)
Journal of Hazardous Materials, 167, (1-3), 1152-1157, (2009)
Saraji M et al., Preparation and evaluation of an ion imprinted sol-gel material for selective solid-phase extraction of Ni(II).
International Journal of Environmental Analytical Chemistry, 89, (5), 305-317, (2009)
Saraji M et al., A simple approach for the preparation of simazine molecularly imprinted nanofibers via self-polycondensation for selective solid-phase microextraction.
Analytica Chimica Acta, 936, 108-115, (2016)
Mohammadi V et al., Direct molecular imprinting technique to synthesize coated electrospun nanofibers for selective solid-phase microextraction of chlorpyrifos.
Microchimica Acta, 186, (8), Article524-(2019)
Dowlatshah S et al., A silica-based three-dimensional molecularly imprinted coating for the selective solid-phase microextraction of difenoconazole from wheat and fruits samples.
Analytica Chimica Acta, 1098, 37-46, (2020)
Journal of Colloid and Interface Science, 470, 14-21, (2016)
In: Filtering Media by Electrospinning: Next Generation Membranes for Separation Applications, Focarete ML, Gualandi C, Ramakrishna S (Eds.) Springer International Publishing: Cham, 175-195, (2018)
Enzyme and Microbial Technology, 6, (3), 98-100, (1984)
Saraswathi S et al., A systematic-approach to induce new enzyme-activities in proteins.
Abstracts of Papers of the American Chemical Society, 188, (MSE), 42-42, (1984)
Keyes MH et al., Enzyme semisynthesis by conformational modification of proteins.
Annals of the New York Academy of Sciences, 501, 201-204, (1987)
International Journal of Electrochemical Science, 15, 5477-5486, (2020)
Journal of Industrial and Engineering Chemistry, 20, (5), 2657-2662, (2014)
Acta Chemica Iasi, 26, (1), 123-152, (2018)
Polymer, 78, 31-36, (2015)
391-396, (2008)
Dima SO et al., Molecularly Imprinted Membranes for Selective Separations.
Materiale Plastice, 46, (4), 372-378, (2009)
Dima SO et al., Mass transfer in a special type of nanomaterials: MIPs.
Journal of Optoelectronics and Advanced Materials, 14, (7-8), 619-623, (2012)
Nicolescu TV et al., Tailor-made polymer beads for gallic acid recognition and separation.
Journal of Polymer Research, 19, (12), Article No. 2-(2012)
Dima SO et al., Diosgenin-selective molecularly imprinted pearls prepared by wet phase inversion.
Reactive and Functional Polymers, 73, (9), 1188-1197, (2013)
Nicolescu TV et al., Molecularly imprinted ''bulk'' copolymers as selective sorbents for gallic acid.
Journal of Applied Polymer Science, 127, (1), 366-374, (2013)
Nicolescu TV et al., A new microemulsion approach for producing molecularly imprinted polymers with selective recognition cavities for gallic acid.
Polymer International, 62, (6), 949-956, (2013)
Dima SO et al., Molecularly imprinted poly(acrylonitrile-co-acrylic acid) matrix with sclareol.
Polymer Engineering & Science, 54, (7), 1484-1494, (2014)
Iordache TV et al., Selecting the nature of imprinted molecular organosilica sieves with gallic acid via thermal analyses.
Journal of Thermal Analysis and Calorimetry, 118, (2), 1039-1048, (2014)
Florea AM et al., Operational parameters for the preparation of precursor polymer matrix used in molecular imprinting.
U. P. B. Science Bulletin, Series B, 73, (4), 3-14, (2015)
Florea AM et al., The structure effect upon gallic acid re-binding in molecularly imprinted organosilica.
Journal of Sol-Gel Science and Technology, 76, (3), 529-541, (2015)
Lazau C et al., Towards developing an efficient sensitive element for trinitrotoluene detection: TiO2 thin films functionalized with molecularly imprinted copolymer films.
Applied Surface Science, 384, 449-458, (2016)
Florea AM et al., Evaluation of molecularly imprinted polymer pearls for selective isolation of hypericins.
Revista De Materiale Plastice, 54, (3), 495-501, (2017)
Ekomo VM et al., Detection of Bisphenol A in aqueous medium by screen printed carbon electrodes incorporating electrochemical molecularly imprinted polymers.
Biosensors and Bioelectronics, 112, 156-161, (2018)
Georgescu BE et al., Application of unusual on/off electrochemical properties of a molecularly imprinted polymer based on an EDOT-thiophene precursor for the detection of ephedrine.
Electrochemistry Communications, 94, 45-48, (2018)
Gavrila AM et al., Molecularly Imprinted Polymer Pearls Obtained by Phase Inversion for the Selective Recognition of Hypericin.
Materiale Plastice, 56, (2), 315-320, (2019)
SCIENCE CHINA Chemistry, 57, (12), 1751-1759, (2014)
International Journal of Biological Macromolecules, 145, 311-324, (2020)
Sardaremelli S et al., Chemical binding of horseradish peroxidase enzyme with poly beta-cyclodextrin and its application as molecularly imprinted polymer for the monitoring of H2O2 in human plasma samples.
Journal of Molecular Recognition, 34, (5), Article_e2884-(2021)
Food and Agricultural Immunology, 25, (3), 411-422, (2014)
Chemical Reviews, 116, (16), 9001-9090, (2016)
Angewandte Chemie International Edition, 11, (4), 341-341, (1972)
Wulff G et al., Über die Anwendung von enzymanalog gebauten Polymeren zur Racemattrennung.
Angewandte Chemie, 84, (8), 364-364, (1972)
Wulff G et al., Enzyme-analogue built polymers and their use for the resolution of racemates.
Tetrahedron Letters, 14, (44), 4329-4332, (1973)
Wulff G et al., Über enzymanalog gebaute Polymere, III) Zur Synthese von polymerisierbaren D-Glycerinsäurenderivaten.
Chemische Berichte, 107, 3364-3376, (1974)
Wulff G et al., Studies on synthesis of polymers with enzyme analog structure.
Chemiker-Zeitung, 100, (6), 288-288, (1976)
Wulff G et al., Enzyme-analogue built polymers, 4. On the synthesis of polymers containing chiral cavities and their use for the resolution of racemates.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 178, (10), 2799-2816, (1977)
Wulff G et al., Enzyme-analogue built polymers, 5. On the specificity distribution of chiral cavities prepared in synthetic polymers.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 178, (10), 2817-2825, (1977)
Sarhan A, Racemic separation of amygdalinic acid on polymers with chiral spaces .1. The synthesis of suitable polymers with phenylboronic acid as a bound group.
Makromolekulare Chemie-Rapid Communications, 3, (7), 489-493, (1982)
Sarhan A et al., On polymers with enzyme-analogous structure .14. Stereospecific binding by amide bonding or electrostatic interaction.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 183, (7), 1603-1614, (1982)
Sarhan A et al., Enzyme-analog built polymers .13. On the introduction of amino and boronic acid groups into chiral polymer cavities.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 183, (1), 85-92, (1982)
Wulff G et al., Book chapter, Chemical Approaches to Understanding Enzyme Catalysis: Biomimetic Chemistry and Transition-State Analogs, Green BS, Ashani Y, Chipman D (Eds.) Elsevier: Amsterdam, 106-118, (1982)
Sarhan A et al., Racemic-resolution of mandelic-acid on polymers with chiral cavities .2. Enzyme-analog stereospecific conversion of configuration.
Makromolekulare Chemie-Rapid Communications, 8, (11), 555-561, (1987)
Sarhan A et al., Effect of N-bases on reactions of macroporous polymer-supported phenylboronic acid with mandelic-acid.
Reactive Polymers, Ion Exchangers, Sorbents, 9, (1), 129-130, (1988)
Sarhan A, Racemic-resolution of mandelic-acid on polymers with chiral cavities .4.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 190, (9), 2031-2039, (1989)
Sarhan A et al., Racemic-resolution of mandelic-acid on polymers with chiral cavities .3. Co-operative binding over phenylboronic acid groups and N-bases.
Reactive Polymers, 11, (1), 57-70, (1989)
Biochemical Engineering Journal, 51, (3), 140-146, (2010)
Journal of Chemical and Pharmaceutical Research, 6, (11), 305-311, (2014)
Electrophoresis, 38, (22-23), 3003-3012, (2017)
Talanta, 150, 607-614, (2016)
Okan M et al., Molecularly imprinted polymer based micromechanical cantilever sensor system for the selective determination of ciprofloxacin.
Biosensors and Bioelectronics, 88, 258-264, (2017)
Sari E et al., Detection of ciprofloxacin through surface plasmon resonance nanosensor with specific recognition sites.
Journal of Biomaterials Science-Polymer Edition, 29, (11), 1302-1318, (2018)
Sari E et al., Prism coupler-based sensor system for simultaneous screening of synthetic glucocorticosteroid as doping control agent.
Sensors and Actuators B: Chemical, 260, 432-444, (2018)
Sari E et al., Paper Based Photoluminescent Sensing Platform with Recognition Sites for Tributyltin.
ACS Sensors, 4, (3), 645-653, (2019)
Üzek R et al., A nitrocellulose paper strip for fluorometric determination of bisphenol A using molecularly imprinted nanoparticles.
Microchimica Acta, 186, (4), 218-(2019)
Rayasan Journal of Chemistry, 10, (2), 450-453, (2017)
Khasanah M et al., Development of electrode carbon paste modified by molecularly imprinted polymer as sensor for analysis of creatinine by potentiometric.
Results in Physics, 7, 1808-1817, (2017)
International Journal of Chemical Science, 12, (3), 863-870, (2014)
Proceedings of the National Academy of Sciences of the United States of America, 108, (27), 11081-11086, (2011)
Saridakis E et al., Protein crystallization facilitated by molecularly imprinted polymers (vol 108, pg 11081, 2011).
Proceedings of the National Academy of Sciences of the United States of America, 108, (45), 18566-18566, (2011)
Saridakis E et al., Imprinted polymers assisting protein crystallization.
Trends In Biotechnology, 31, (9), 515-520, (2013)
Khurshid S et al., Porous nucleating agents for protein crystallization.
Nature Protocols, 9, (7), 1621-1633, (2014)
International Journal of Molecular Sciences, 15, (4), 6111-6136, (2014)
International Journal of Molecular Sciences, 16, (2), 3656-3676, (2015)
Asman S et al., Effects of RAFT Agent on the Selective Approach of Molecularly Imprinted Polymers.
Polymers, 7, (3), 484-503, (2015)
Asman S et al., Influence of polymer morphology on the adsorption behaviors of molecularly imprinted polymer-methacrylic acid functionalized [beta]-cyclodextrin.
Journal of Applied Polymer Science, 132, (43), ArticleNo42720-(2015)
Surikumaran H et al., [beta]-Cyclodextrin Based Molecularly Imprinted Solid Phase Extraction for Class Selective Extraction of Priority Phenols in Water Samples.
Separation Science and Technology, 50, (15), 2342-2351, (2015)
Asman S et al., Study of the morphology and the adsorption behavior of molecularly imprinted polymers prepared by reversible addition-fragmentation chain transfer (RAFT) polymerization process based on two functionalized [beta]-cyclodextrin as monomers.
Journal of Molecular Liquids, 214, 59-69, (2016)
Surikumaran H et al., Synthesis and evaluation of methacrylic acid functionalized [beta]-cyclodextrin based molecular imprinted polymer for 2, 4-dichlorophenol in water samples.
Desalination and Water Treatment, 57, (1), 254-267, (2016)
Sensors and Actuators B: Chemical, 251, 763-772, (2017)
Materials Science and Engineering: C, 29, (4), 1404-1408, (2009)
Gültekin A et al., Gold nanoparticles having dipicolinic acid imprinted nanoshell for Bacillus cereus spores recognition.
Applied Surface Science, 256, (1), 142-148, (2009)
Gültekin A et al., Gold-silver nanoclusters having dipicolinic acid imprinted nanoshell for Bacillus cereus spores recognition.
Talanta, 78, (4-5), 1332-1338, (2009)
Gültekin A et al., Nanosensors having dipicolinic acid imprinted nanoshell for Bacillus cereus spores detection.
Journal of Nanoparticle Research, 12, (6), 2069-2079, (2010)
Journal of Rare Earths, 35, (2), 177-186, (2017)
Rahman ML et al., Ion-Imprinted Polymer for Selective Separation of Cerium(III) Ions from Rare Earth Mixture.
Journal of Nanoscience and Nanotechnology, 19, (9), 5796-5802, (2019)
Journal of Electroanalytical Chemistry, 897, Article115549-(2021)
Journal of Rare Earths, 35, (2), 177-186, (2017)
Sensors and Actuators B: Chemical, 246, 96-107, (2017)
Journal of Nanoscience and Nanotechnology, 19, (9), 5796-5802, (2019)
Microchemical Journal, 171, Article106730-(2021)
Electrophoresis, 38, (22-23), 3003-3012, (2017)
Sarkaya K et al., The comparative investigation on synthesis, characterizations of silver ion-imprinting and non-imprinting cryogels, their impedance spectroscopies and relaxation mechanisms.
Polymer Bulletin, 76, (11), 5701-5716, (2019)
Sarkaya K et al., Ag+ ions imprinted cryogels for selective removal of silver ions from aqueous solutions.
Separation Science and Technology, 54, (18), 2993-3004, (2019)
Analytica Chimica Acta, 789, 17-32, (2013)
Water Research, 205, Article117675-(2021)
Journal of Chemical Physics, 123, (16), (2005)
Sarkisov L et al., Integral Equation Theory of Adsorption in Templated Materials: Influence of Molecular Attraction.
Journal of Physical Chemistry C, 111, (43), 15726-15735, (2007)
Sarkisov L, Theory of pair connectedness in templated quenched-annealed systems.
Journal of Chemical Physics, 128, (4), Art. No. 044707-(2008)
Dourado EMA et al., Emergence of molecular recognition phenomena in a simple model of imprinted porous materials.
Journal of Chemical Physics, 130, (21), 214701-214709, (2009)
Herdes C et al., Computer Simulation of Volatile Organic Compound Adsorption in Atomistic Models of Molecularly Imprinted Polymers.
Langmuir, 25, (9), 5352-5359, (2009)
Dourado EMA et al., Molecular Recognition Effects in Atomistic Models of Imprinted Polymers.
International Journal of Molecular Sciences, 12, (8), 4781-4804, (2011)
Microchemical Journal, 154, Article104526-(2020)
Zhang YY et al., Computer-aided design and synthesis of molecular imprinting polymers based on doubly oriented functional multiwalled carbon nanotubes for electrochemically sensing bisphenol A.
Reactive and Functional Polymers, 157, Article104767-(2020)
Chemosphere, 240, Article124772-(2020)
Talanta, 219, Article121185-(2020)
Materials Science and Engineering: C, 31, (2), 114-119, (2011)
Marestoni LD et al., Ion imprinted polymers: fundamentals, preparation strategies and applications in analytical chemistry.
Quimica Nova, 36, (8), 1194-1207, (2013)
In: Scanning Probe Microscopy in Nanoscience and Nanotechnology, Volume 2, Bhushan B (Ed.) Springer: Heidelberg, Ch. 22, 645-689, (2011)
Asian Journal of Chemistry, 29, (6), 1229-1234, (2017)
Nippon Kagakkai Koen Yokoshu, 75, 179-(1998)
Chem Sens, 20, (Supplement B), 384-385, (2004)
Hattori K et al., Chiral-selectivity on gate effect of phenylalanine-imprinted polymers grafted onto cellulosic membrane.
Chem Sens, 20, (Supplement B), 384-385, (2011)
Macromolecules, 22, (11), 4303-4308, (1989)
Shea KJ et al., Fluorescence probes for evaluating chain solvation in network polymers - An analysis of the solvatochromic shift of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.
Macromolecules, 22, (4), 1722-1730, (1989)
Shea KJ et al., On the control of microenvironment shape of functionalized network polymers prepared by template polymerization.
Journal of the American Chemical Society, 111, (9), 3442-3444, (1989)
Shea KJ et al., An analysis of small-molecule binding to functionalized synthetic polymers by 13C CP/MAS NMR and FT-IR spectroscopy.
Journal of the American Chemical Society, 113, (11), 4109-4120, (1991)
Shnek DR et al., Specific protein attachment to artificial membranes via coordination to lipid-bound copper(II).
Langmuir, 10, (7), 2382-2388, (1994)
Daitch CE et al., Phosphate and phosphonate receptors in silicate materials.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 132-132, (1997)
Sasaki DY et al., Book chapter, Molecular imprinted receptors in sol-gel materials for aqueous phase recognition of phosphates and phosphonates,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 22, 314-323, (1998)
Sasaki DY et al., Molecular imprinting in guanidine functionalized sol-gel materials.
Abstracts of Papers of the American Chemical Society, 217, (HYS), 211-211, (1999)
Sasaki DY et al., Solid-state 31P NMR study of phosphonate binding sites in guanidine-functionalized, molecular imprinted silica xerogels.
Chemistry of Materials, 12, (5), 1400-1407, (2000)
Sasaki DY, Book chapter, Molecular imprinting approaches using inorganic matrices,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 8, 213-244, (2001)
Journal of Chromatography A, 828, (1-2), 91-94, (1998)
Hosoya K et al., Improvement in performance of polymer-based packing materials for HPLC-based molecular imprinting technique.
Chromatography, 19, (4), 360-361, (1998)
Hosoya K et al., Development of novel recognition and evaluation procedures for structurally similar compounds based on spatial multi-points interactions.
Chromatography, 20, (4), 332-333, (1999)
Hosoya K et al., Preparation of polymer-based adsorbents for solid-phase extraction-adsorption properties and addition of selectivity.
Chromatography, 20, (2), 178-179, (1999)
Chem Sens, 22, (Supplement B), 37-39, (2006)
Fuchiwaki Y et al., Development of an electrochemical sensing system for 6-chloro-N, N-diethyl-1, 3, 5-triazine-2, 4-diamine (CAT) utilizing an amalgamated gold electrode and artificial sensor receptor.
Electrochemistry, 75, (9), 709-714, (2007)
Fuchiwaki Y et al., Electrochemical Sensing System Utilizing Simazine-Imprinted Polymer Receptor for the Detection of Simazine in Tap Water.
Journal of Sensors, 2009, Article No. 503464-(2009)
Angewandte Chemie International Edition, 58, (6), 1612-1615, (2018)
Yoshida A et al., Gold Nanoparticle-Incorporated Molecularly Imprinted Microgels as Radiation Sensitizers in Pancreatic Cancer.
ACS Applied Bio Materials, 2, (3), 1177-1183, (2019)
Polymer Chemistry, 1, (10), 1684-1688, (2010)
Sasaki S et al., Molecularly imprinted protein recognition thin films constructed by controlled/living radical polymerization.
Journal of Bioscience and Bioengineering, 119, (2), 200-205, (2015)
Kobunshi Ronbunshu, 37, (10), 647-650, (1980)
Kato M et al., Complexation of metal-ion with poly(1-vinylimidazole) resin prepared by radiation-induced polymerization with template metal-ion.
Journal of Polymer Science, Polymer Chemistry Edition, 19, (7), 1803-1809, (1981)
Tahmassebi DC et al., Molecular imprinting - synthesis of 3-helix bundle proteins on modified silica-gel.
Abstracts of Papers of the American Chemical Society, 204, (ORGN), 314-314, (1992)
Tahmassebi D et al., Molecular imprinting: Synthesis of 3-helix bundle proteins on modified silica gel.
Synth. Meth., 196-198, (1994)
Tahmassebi DC et al., Synthesis of a new trialdehyde template for molecular imprinting.
Journal of Organic Chemistry, 59, (3), 679-681, (1994)
Hwang KO et al., Template-assisted assembly of metal binding sites on a silica surface.
Materials Science & Engineering C-Biomimetic Materials Sensors And Systems, 3, (2), 137-141, (1995)
Boeckl MS et al., Template-assisted nano-patterning of solid surfaces.
Biopolymers, 47, (2), 185-193, (1998)
Hwang KO et al., Imprinting for the assembly of artificial receptors on a silica surface.
Journal of Materials Chemistry, 8, (9), 2153-2156, (1998)
Suzuki A et al., Design of catalytic sites at oxide surfaces by metal-complex attaching and molecular imprinting techniques.
Journal of Molecular Catalysis A: Chemical, 182-183, (1), 125-136, (2002)
Tada M et al., Novel SiO2-attached molecular-imprinting Rh-monomer catalysts for shape-selective hydrogenation of alkenes; preparation, characterization and performance.
Physical Chemistry Chemical Physics, 4, (18), 4561-4574, (2002)
Tada M et al., Design, characterization and performance of a molecular imprinting Rh-dimer hydrogenation catalyst on a SiO2 surface.
Physical Chemistry Chemical Physics, 4, (23), 5899-5909, (2002)
Tada M et al., Performance and kinetic behavior of a new SiO2-attached molecular-imprinting Rh-dimer catalyst in size- and shape-selective hydrogenation of alkenes.
Journal of Catalysis, 211, (2), 496-510, (2002)
Tada M et al., Molecular-imprinted metal complexes for design of catalytic structures.
Abstracts of Papers of the American Chemical Society, 226, (INOR), 447-447, (2003)
Tada M et al., Design of a novel molecular-imprinted Rh-amine complex on SiO2 and its shape-selective catalysis for a-methylstyrene hydrogenation.
Journal of Physical Chemistry B, 108, (9), 2918-2930, (2004)
Bunseki Kagaku, 52, (2), 147-150, (2003)
Sasaki Y et al., Polymer-Stabilized Micropixelated Liquid Crystals with Tunable Optical Properties Fabricated by Double Templating.
Advanced Materials, 29, (37), ArticleNo1703054-(2017)
Chromatography, 37, (2), 43-64, (2016)
Takeuchi T et al., Molecularly Imprinted Nanogels Acquire Stealth In Situ by Cloaking Themselves with Native Dysopsonic Proteins.
Angewandte Chemie International Edition, 56, (25), 7088-7092, (2017)
1-3, (2016)
Shinohara S et al., Molecularly Imprinted Filtering Adsorbents for Odor Sensing.
Sensors, 16, (11), ArticleNo1974-(2016)
Shinohara S et al., Proceeding, Gas selective chemiresistor composed of molecularly imprinted polymer composite ink,
1-3, (2016)
Nakanishi K et al., Proceeding, Photo-tunable molecular recognizing smart material for gas sensing,
1376-1379, (2017)
Shuanghong W et al., Proceeding, An Odor Visualization Film Based on Multi Colors Fluorescent Microbeads and Single Color Fluorescent Multi Microbeads,
1-4, (2018)
Ying XG et al., Molecular imprinting technique in putrescine visualized detection.
Sensors and Actuators B: Chemical, 258, 870-880, (2018)
Ge LP et al., Proceeding, Flexible Gas Sensor Array Based on Matrix of Molecularly Imprinted Materials and Full Printing Process,
765-768, (2019)
American Journal of Analytical Chemistry, 3, (3), 210-232, (2012)
Bioconjugate Chemistry, 26, (1), 90-100, (2015)
ACS Applied Materials & Interfaces, 6, (15), 13280-13292, (2014)
Journal of Applied Polymer Science, 101, (5), 3520-3528, (2006)
Food Science, 29, (5), 109-111, (2008)
Forensic Toxicology, 28, (2), 61-68, (2010)
Kumazawa T et al., Molecularly imprinted solid-phase extraction for the selective determination of methamphetamine, amphetamine, and methylenedioxyphenylalkylamine designer drugs in human whole blood by gas chromatography-mass spectrometry.
Journal of Separation Science, 35, (5-6), 726-733, (2012)
Yoshimi Y et al., Application of the 'gate effect' of a molecularly imprinted polymer grafted on an electrode for the real-time sensing of heparin in blood.
Analyst, 138, (17), 5121-5128, (2013)
Sato K et al., Pyridoxine-selective Fluorescence Quenching by Graphite Oxide-containing Molecularly Imprinted Polymers.
Bunseki Kagaku, 63, (4), 311-315, (2014)
(2009)
Macromolecules, 39, (20), 6882-6886, (2006)
Macromolecules, 34, (8), 2405-2407, (2001)
1708, (2002)
Satonaka T et al., Proceeding, Synthesis of polymer gel by molecular imprinting method using helical polymethacrylate as template,
1508, (2002)
Habaue S et al., Synthesis of polymer gel with chiral helical cavity by molecular imprinting using bifunctional vinyl monomers.
Polymer, 45, (15), 5095-5100, (2004)
Journal of the American Chemical Society, 135, (14), 5336-5339, (2013)
Journal of Materials Chemistry B, 2, (38), 6619-6625, (2014)
Food Chemistry, 199, 870-875, (2016)
Journal of Separation Science, 40, (23), 4599-4609, (2017)
Machynáková A et al., On-line coupling of molecularly imprinted solid phase extraction with liquid chromatography for the fast determination of coumarins from complex samples.
Journal of Pharmaceutical and Biomedical Analysis, 145, 144-150, (2017)
Lhotská I et al., Molecularly imprinted vs. reversed-phase extraction for the determination of zearalenone: a method development and critical comparison of sample clean-up efficiency achieved in an on-line coupled SPE chromatography system.
Analytical and Bioanalytical Chemistry, 410, (14), 3265-3273, (2018)
Lhotská I et al., Preparation of citrinin-selective molecularly imprinted polymer and its use for on-line solid-phase extraction coupled to liquid chromatography.
Analytical and Bioanalytical Chemistry, 411, (11), 2395-2404, (2019)
Kholová A et al., Comparison study of nanofibers, composite nano/microfiber materials, molecularly imprinted polymers, and core-shell sorbents used for on-line extraction-liquid chromatography of ochratoxins in Tokaj wines.
Microchemical Journal, 170, Article106680-(2021)
1-4, (2015)
Microchimica Acta, 188, (11), Article368-(2021)
Talanta, 85, (2), 1056-1062, (2011)
Saumya V et al., Mechanistic aspects of tyrosine sensing on an in situ copper oxide modified molecularly imprinted polypyrrole coated glassy carbon electrode.
Journal of Electroanalytical Chemistry, 663, (2), 53-58, (2011)
Chemical Communications, (4), 273-274, (2000)
Journal of the American Chemical Society, 114, (15), 5986-5994, (1992)
Journal of Separation Science, 32, (19), 3301-3309, (2009)
ACS Applied Nano Materials, 4, (10), 10819-10827, (2021)
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 181, (1), 89-104, (1980)
Belokon YN et al., Biomimetic approach to the design of a pyridoxal enzyme model 1. Hydrophilic polyacrylamide gel with stereochemically defined arrangements of salicaldehyde and lysine fragments.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 181, (10), 2183-2197, (1980)
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 183, (8), 1921-1934, (1982)
Belokon YN et al., Memory of a polymeric matrix, stabilizing the initial conformation of potassium bis[N-(5-methacryloylamino)-salicylidene-(S)-norvalinato]-cobaltate(III) in the deuterium-exchange.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 184, (11), 2213-2223, (1983)
Advances in Colloid and Interface Science, 187-188, 1-46, (2013)
Food Additives & Contaminants: Part A, 35, (4), 674-685, (2018)
Journal of Oil Palm Research, 27, (1), 90-96, (2015)
Chemical Communications, 54, (40), 5114-5117, (2018)
Journal of Molecular Catalysis A: Chemical, 165, (1-2), 1-7, (2001)
Ohkubo K et al., Influence of cross-linking monomer and hydrophobic styrene comonomer on stereoselective esterase activities of polymer catalyst imprinted with a transition-state analogue for hydrolysis of amino acid esters.
Polymer, 42, (5), 2263-2266, (2001)
Chemistry Letters, 43, (11), 1690-1692, (2014)
Biosensors and Bioelectronics, 180, Article113089-(2021)
In: Nanoporous Materials III, Sayari A, Jaroniec M (Eds.) Elsevier: Amsterdam, 53-60, (2002)
Talanta, 225, Article122077-(2021)
Bioanalysis, 5, (7), 847-858, (2013)
Mudiam MKR et al., Molecularly imprinted polymer coupled with dispersive liquid-liquid microextraction and injector port silylation: A novel approach for the determination of 3-phenoxybenzoic acid in complex biological samples using gas chromatography-tandem mass spectrometry.
Journal of Chromatography B, 945-946, 23-30, (2014)
Chauhan A et al., Application of nano-sized multi-template imprinted polymer for simultaneous extraction of polycyclic aromatic hydrocarbon metabolites in urine samples followed by ultra-high performance liquid chromatographic analysis.
Journal of Chromatography B, 985, 110-118, (2015)
Chauhan A et al., Imprinted nanospheres based on precipitation polymerization for the simultaneous extraction of six urinary benzene metabolites from urine followed by injector port silylation and gas chromatography-tandem mass spectrometric analysis.
Journal of Chromatography B, 1001, 66-74, (2015)
Bhatia T et al., Sol-gel approach for extracting highly versatile aspirin and its metabolites using MISPE followed by GC-MS/MS analysis.
Bioanalysis, 8, (8), 795-805, (2016)
Khan S et al., Selective solid-phase extraction using molecularly imprinted polymer as a sorbent for the analysis of fenarimol in food samples.
Food Chemistry, 199, 870-875, (2016)
Analytica Chimica Acta, 480, (2), 251-258, (2003)
Say R et al., Selective separation of uranium containing glutamic acid molecular-imprinted polymeric microbeads.
Separation Science and Technology, 38, (14), 3431-3447, (2003)
Andaç M et al., Molecular recognition based cadmium removal from human plasma.
Journal of Chromatography B, 811, (2), 119-126, (2004)
Ersöz A et al., Ni(II) ion-imprinted solid-phase extraction and preconcentration in aqueous solutions by packed-bed columns.
Analytica Chimica Acta, 502, (1), 91-97, (2004)
Ersöz A et al., Removal of phenolic compounds with nitrophenol-imprinted polymer based on p-p and hydrogen-bonding interactions.
Separation and Purification Technology, 38, (2), 173-179, (2004)
Say R et al., Selective separation and preconcentration of cyanide by a column packed with cyanide-imprinted polymeric microbeads.
Separation and Purification Technology, 40, (1), 9-14, (2004)
Say R et al., Comparison of adsorption and selectivity characteristics for 4-nitrophenol imprinted polymers prepared via bulk and suspension polymerization.
Separation Science and Technology, 39, (15), 3471-3484, (2004)
Asir S et al., Ion-selective imprinted superporous monolith for cadmium removal from human plasma.
Separation Science and Technology, 40, (15), 3167-3185, (2005)
Andaç M et al., Ion-selective imprinted beads for aluminum removal from aqueous solutions.
Industrial & Engineering Chemistry Research, 45, (5), 1780-1786, (2006)
Birlik E et al., Selective separation of thorium using ion imprinted chitosan-phthalate particles via solid phase extraction.
Separation Science and Technology, 41, (14), 3109-3121, (2006)
Özcan AA et al., L-Histidine Imprinted Synthetic Receptor for Biochromatography Applications.
Analytical Chemistry, 78, (20), 7253-7258, (2006)
Saatçilar Ö et al., Binding behavior of Fe3+ ions on ion-imprinted polymeric beads for analytical applications.
Journal of Applied Polymer Science, 101, (5), 3520-3528, (2006)
Say R, Creation of recognition sites for organophosphate esters based on charge transfer and ligand exchange imprinting methods.
Analytica Chimica Acta, 579, (1), 74-80, (2006)
Yavuz H et al., Molecular recognition based iron removal from human plasma with imprinted membranes.
International Journal of Artificial Organs, 29, (9), 900-911, (2006)
Andaç M et al., Ion-imprinted beads for molecular recognition based mercury removal from human serum.
International Journal of Biological Macromolecules, 40, (2), 159-166, (2007)
Baydemir G et al., Selective Removal of Bilirubin from Human Plasma with Bilirubin-Imprinted Particles.
Industrial & Engineering Chemistry Research, 46, (9), 2843-2852, (2007)
Birlik E et al., Cr(III)-imprinted polymeric beads: Sorption and preconcentration studies.
Journal of Hazardous Materials, 140, (1-2), 110-116, (2007)
Büyüktiryaki S et al., Mimicking receptor for methylmercury preconcentration based on ion-imprinting.
Talanta, 71, (2), 699-705, (2007)
Demirel M et al., Propranolol HCl Imprinted Polymeric Microspheres: Development, Characterization and Dissolution.
FABAD Journal of Pharmaceutical Sciences, 32, (4), 147-157, (2007)
Hur D et al., N-acylbenzotriazole mediated synthesis of some methacrylamido amino acids.
Letters In Organic Chemistry, 4, (8), 585-587, (2007)
Karabörk M et al., Preconcentration of Fe(III) Using Fe(III)-Ion Imprinted Polymeric Traps and Its Analytical Performance for FAAS.
Hacettepe Journal of Biology and Chemistry, 35, (2), 135-142, (2007)
Odabasi M et al., Molecular imprinted particles for lysozyme purification.
Materials Science and Engineering: C, 27, (1), 90-99, (2007)
Yavuz H et al., Synthesis of cholesterol imprinted polymeric particles.
International Journal of Biological Macromolecules, 41, (1), 8-15, (2007)
Bereli N et al., Protein recognition via ion-coordinated molecularly imprinted supermacroporous cryogels.
Journal of Chromatography A, 1190, (1-2), 18-26, (2008)
Karabörk M et al., Polymer-Clay Nanocomposite Iron Traps Based on Intersurface Ion-Imprinting.
Industrial & Engineering Chemistry Research, 47, (7), 2258-2264, (2008)
Özkara S et al., An Ion-Imprinted Monolith for in Vitro Removal of Iron out of Human Plasma with Beta Thalassemia.
Industrial & Engineering Chemistry Research, 47, (20), 7849-7856, (2008)
Utku S et al., Ion-Imprinted Thermosensitive Polymers for Fe3+ Removal from Human Plasma.
Hacettepe Journal of Biology and Chemistry, 36, (4), 291-304, (2008)
Baydemir G et al., Bilirubin recognition via molecularly imprinted supermacroporous cryogels.
Colloids and Surfaces B: Biointerfaces, 68, (1), 33-38, (2009)
Baydemir G et al., Supermacroporous poly(hydroxyethyl methacrylate) based cryogel with embedded bilirubin imprinted particles.
Reactive and Functional Polymers, 69, (1), 36-42, (2009)
Demircelik AH et al., Molecular Recognition-Based Detoxification of Aluminum in Human Plasma.
Journal of Biomaterials Science-Polymer Edition, 20, (9), 1235-1258, (2009)
Diltemiz SE et al., Designing of MIP based QCM sensor having thymine recognition sites based on biomimicking DNA approach.
Biosensors and Bioelectronics, 25, (3), 599-603, (2009)
Ersöz A et al., 8-OHdG sensing with MIP based solid phase extraction and QCM technique.
Sensors and Actuators B: Chemical, 137, (1), 7-11, (2009)
Uzun L et al., Hepatitis B surface antibody purification with hepatitis B surface antibody imprinted poly(hydroxyethyl methacrylate-N-methacryloyl-l-tyrosine methyl ester) particles.
Journal of Chromatography B, 877, (3), 181-188, (2009)
Demiralay EÇ et al., Nickel(II)-imprinted monolithic columns for selective nickel recognition.
Journal of Applied Polymer Science, 117, (6), 3704-3714, (2010)
Karabörk M et al., Selective Preconcentration of Fe3+ Using Ion-Imprinted Thermosensitive Particles.
Hacettepe Journal of Biology and Chemistry, 38, (1), 27-39, (2010)
Özkütük EB et al., Thiocyanate separation by imprinted polymeric systems.
Microchimica Acta, 169, (1), 129-135, (2010)
Keçili R et al., Superparamagnetic nanotraps containing MIP based mimic lipase for biotransformations uses.
Journal of Nanoparticle Research, 13, (5), 2073-2079, (2011)
Özkara S et al., Ion-imprinted PHEMA based monolith for the removal of Fe3+ ions from aqueous solutions.
Journal of Applied Polymer Science, 120, (3), 1829-1836, (2011)
Asliyuce S et al., Molecular imprinting based composite cryogel membranes for purification of anti-hepatitis B surface antibody by fast protein liquid chromatography.
Journal of Chromatography B, 889-890, (1), 95-102, (2012)
Aydogan C et al., Molecularly imprinted cryogel for L-glutamic acid separation.
Biotechnology Progress, 28, (2), 459-466, (2012)
Gültekin A et al., Gold-silver-nanoclusters having cholic acid imprinted nanoshell.
Talanta, 93, (1), 364-370, (2012)
Gültekin A et al., Preparation of new molecularly imprinted nanosensor for cholic acid determination.
Sensors and Actuators B: Chemical, 162, (1), 153-158, (2012)
Kecili R et al., Investigation of synthetic lipase and its use in transesterification reactions.
Polymer, 53, (10), 1981-1984, (2012)
Asliyuce S et al., Immunoglobulin G recognition with Fab fragments imprinted monolithic cryogels: Evaluation of the effects of metal-ion assisted-coordination of template molecule.
Reactive and Functional Polymers, 73, (6), 813-820, (2013)
Bereli N et al., Oriented immobilized anti-hIgG via Fc fragment-imprinted PHEMA cryogel for IgG purification.
Biomedical Chromatography, 27, (5), 599-607, (2013)
Diltemiz SE et al., New synthesis method for 4-MAPBA monomer and using for the recognition of IgM and mannose with MIP-based QCM sensors.
Analyst, 138, (5), 1558-1563, (2013)
Ertürk G et al., Molecularly imprinted cryogels for human interferon-alpha purification from human gingival fibroblast culture.
Journal of Molecular Recognition, 26, (12), 633-642, (2013)
Özgür E et al., A new molecular imprinting-based mass-sensitive sensor for real-time detection of 17[beta]-estradiol from aqueous solution.
Environmental Progress & Sustainable Energy, 32, (4), 1164-1169, (2013)
Özkütük EB et al., Ligand exchange based paraoxon imprinted QCM sensor.
Materials Science and Engineering: C, 33, (2), 938-942, (2013)
Özkütük EB et al., Silan based paraoxon memories onto QCM electrodes.
Journal of Industrial and Engineering Chemistry, 19, (6), 1788-1792, (2013)
Sener G et al., Microcontact imprinted surface plasmon resonance biosensor for rapid procalcitonin detection.
Abstracts of Papers of the American Chemical Society, 246, (ANYL), 68-(2013)
Sener G et al., Rapid real-time detection of procalcitonin using a microcontact imprinted surface plasmon resonance biosensor.
Analyst, 138, (21), 6422-6428, (2013)
Uzun L et al., Chiral recognition of proteins having L-histidine residues on the surface with lanthanide ion complex incorporated-molecularly imprinted fluorescent nanoparticles.
Materials Science and Engineering: C, 33, (6), 3432-3439, (2013)
Ünlüer Ö et al., Separation and purification of hyaluronic acid by embedded glucuronic acid imprinted polymers into cryogel.
Journal of Chromatography B, 934, 46-52, (2013)
Bektasoglu E et al., Development of New Molecular Imprinted Solid Phase Extraction Material for Dimethoate.
Spectroscopy Letters, 47, (3), 168-176, (2014)
Çorman ME et al., Self-oriented nanoparticles for site-selective immunoglobulin G recognition via epitope imprinting approach.
Colloids and Surfaces B: Biointerfaces, 123, 831-837, (2014)
Gültekin A et al., Development of a highly sensitive MIP based-QCM nanosensor for selective determination of cholic acid level in body fluids.
Materials Science and Engineering: C, 42, 436-442, (2014)
Gültekin A et al., Preparation of MIP-based QCM nanosensor for detection of caffeic acid.
Talanta, 119, 533-537, (2014)
Bektasoglu E et al., Double-imprinted potentiometric sensors based on ligand exchange for the determination of dimethoate.
Korean Journal of Chemical Engineering, 32, (8), 1613-1617, (2015)
Dolak I et al., Ion-Imprinted Polymers for Selective Recognition of Neodymium(III) in Environmental Samples.
Industrial & Engineering Chemistry Research, 54, (19), 5328-5335, (2015)
Cankara S et al., Biopolymer based ion imprinting cryogel traps for the removal of Tl(I).
Separation Science and Technology, 51, (6), 901-908, (2016)
Çorman ME et al., Reversible and easy post-crosslinking method for developing a surface ion-imprinted hypercrosslinked monolith for specific Cd(II) ion removal from aqueous solutions.
RSC Advances, 6, (91), 88777-88787, (2016)
Erol K et al., Polyethyleneimine assisted-two-step polymerization to develop surface imprinted cryogels for lysozyme purification.
Colloids and Surfaces B: Biointerfaces, 146, 567-576, (2016)
Özkütük EB et al., Determination of Clenbuterol by Multiwalled Carbon Nanotube Potentiometric Sensors.
Analytical Letters, 49, (6), 778-789, (2016)
Özkütük EB et al., Potentiometric sensor fabrication having 2D sarcosine memories and analytical features.
Materials Science and Engineering: C, 69, 231-235, (2016)
Say R et al., Book chapter, Biomimetic Imprinted Polymers: Theory, Design Methods, and Catalytic Applications,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 6, 103-120, (2016)
Bayram E et al., Multiclonal plastic antibodies for selective aflatoxin extraction from food samples.
Food Chemistry, 221, 829-837, (2017)
Birlik Özkütük E et al., Synergistic thallium and iodine memory-based cryogel traps for removing thallium and iodine ions.
Journal of Radioanalytical and Nuclear Chemistry, 314, (3), 2229-2236, (2017)
Büyüktiryaki S et al., Phosphoserine imprinted nanosensor for detection of Cancer Antigen 125.
Talanta, 167, 172-180, (2017)
Diltemiz SE et al., Molecular Imprinting Technology in Quartz Crystal Microbalance (QCM) Sensors.
Sensors, 17, (3), ArticleNo454-(2017)
Dolak I et al., Molecularly imprinted affinity cryogels for the selective recognition of myoglobin in blood serum.
Journal of Molecular Structure, 1174, 171-176, (2018)
Gültekin A et al., Gadolinium chelate monomer based memories onto QCM electrodes for folic acid detection in commercial follow-on baby milk.
Journal of Food Measurement and Characterization, 12, (4), 2892-2898, (2018)
Keçili R et al., Ion imprinted cryogel-based supermacroporous traps for selective separation of cerium(III) in real samples.
Journal of Rare Earths, 36, (8), 857-862, (2018)
Sümbelli Y et al., Molecularly imprinted polymer embedded-cryogels as selective genotoxic impurity scavengers.
Separation Science and Technology, 56, (18), 3066-3078, (2021)
Talanta, 67, (3), 640-645, (2005)
Ersöz A et al., Molecularly imprinted ligand-exchange recognition assay of glucose by quartz crystal microbalance.
Biosensors and Bioelectronics, 20, (11), 2197-2202, (2005)
Say RI et al., Biomimetic catalysis of an organophosphate by molecularly surface imprinted polymers.
Applied Catalysis A: General, 286, (2), 221-225, (2005)
Yavuz H et al., Iron removal from human plasma based on molecular recognition using imprinted beads.
Materials Science and Engineering: C, 25, (4), 521-528, (2005)
Birlik E et al., Preconcentration of copper using double-imprinted polymer via solid phase extraction.
Analytica Chimica Acta, 565, (2), 145-151, (2006)
Diltemiz SE et al., Quantum dot nanocrystals having guanosine imprinted nanoshell for DNA recognition.
Talanta, 75, (4), 890-896, (2008)
Diltemiz SE et al., Molecularly imprinted ligand-exchange recognition assay of DNA by SPR system using guanosine and guanine recognition sites of DNA.
Sensors and Actuators B: Chemical, 133, (2), 484-488, (2008)
Ersöz A et al., Synergie between molecular imprinted polymer based on solid-phase extraction and quartz crystal microbalance technique for 8-OHdG sensing.
Biosensors and Bioelectronics, 24, (4), 742-747, (2008)
Özkütük EB et al., Preconcentration of phosphate ion onto ion-imprinted polymer.
Journal of Hazardous Materials, 157, (1), 130-136, (2008)
Akdamar HA et al., Separation and purification of hyaluronic acid by glucuronic acid imprinted microbeads.
Materials Science and Engineering: C, 29, (4), 1404-1408, (2009)
Candan N et al., Cadmium removal out of human plasma using ion-imprinted beads in a magnetic column.
Materials Science and Engineering: C, 29, (1), 144-152, (2009)
Esen C et al., Highly selective ion-imprinted particles for solid-phase extraction of Pb2+ ions.
Materials Science and Engineering: C, 29, (8), 2464-2470, (2009)
Gültekin A et al., Gold nanoparticles having dipicolinic acid imprinted nanoshell for Bacillus cereus spores recognition.
Applied Surface Science, 256, (1), 142-148, (2009)
Gültekin A et al., Gold-silver nanoclusters having dipicolinic acid imprinted nanoshell for Bacillus cereus spores recognition.
Talanta, 78, (4-5), 1332-1338, (2009)
Say RI et al., Preparation of new molecularly imprinted quartz crystal microbalance hybride sensor system for 8-hydroxy-2'-deoxyguanosine determination.
Analytica Chimica Acta, 640, (1-2), 82-86, (2009)
Uzun L et al., Production of surface plasmon resonance based assay kit for hepatitis diagnosis.
Biosensors and Bioelectronics, 24, (9), 2878-2884, (2009)
Asliyüce S et al., Ion-imprinted supermacroporous cryogel, for in vitro removal of iron out of human plasma with beta thalassemia.
Separation and Purification Technology, 73, (2), 243-249, (2010)
Derazshamshir A et al., Molecularly Imprinted PHEMA-Based Cryogel for Depletion of Hemoglobin from Human Blood.
Macromolecular Chemistry And Physics, 211, (6), 657-668, (2010)
Erdem M et al., Imprinted polymer/organo-smectite nanocomposites for paraoxon hydrolysis.
Applied Clay Science, 47, (3-4), 223-228, (2010)
Erdem M et al., Biomimicking, metal-chelating and surface-imprinted polymers for the degradation of pesticides.
Reactive and Functional Polymers, 70, (4), 238-243, (2010)
Gültekin A et al., Nanosensors having dipicolinic acid imprinted nanoshell for Bacillus cereus spores detection.
Journal of Nanoparticle Research, 12, (6), 2069-2079, (2010)
Sener G et al., Quartz crystal microbalance based nanosensor for lysozyme detection with lysozyme imprinted nanoparticles.
Biosensors and Bioelectronics, 26, (2), 815-821, (2010)
Bereli N et al., l-Histidine imprinted supermacroporous cryogels for protein recognition.
Separation and Purification Technology, 82, (1), 28-35, (2011)
Ertürk G et al., Fab fragments imprinted SPR biosensor for real-time human immunoglobulin G detection.
Biosensors and Bioelectronics, 28, (1), 97-104, (2011)
Sener G et al., Use of molecular imprinted nanoparticles as biorecognition element on surface plasmon resonance sensor.
Sensors and Actuators B: Chemical, 160, (1), 791-799, (2011)
Tamahkar E et al., Molecularly imprinted supermacroporous cryogels for cytochrome c recognition.
Journal of Separation Science, 34, (23), 3433-3440, (2011)
Özcan AA et al., Semi-synthetic biotin imprinting onto avidin crosslinked gold-silver nanoparticles.
Journal of Nanoparticle Research, 14, (6), Art No 945-(2012)
4475-4478, (2012)
Journal of Industrial and Engineering Chemistry, 20, (5), 2657-2662, (2014)
Indonesian Journal of Chemistry, 15, (2), 163-171, (2015)
Sensors and Actuators B: Chemical, 328, Article128986-(2021)
Separation and Purification Technology, 82, (1), 28-35, (2011)
Saylan Y et al., Surface imprinting approach for preparing specific adsorbent for IgG separation.
Journal of Biomaterials Science-Polymer Edition, 25, (9), 881-894, (2014)
Dibekkaya H et al., Surface plasmon resonance sensors for real-time detection of cyclic citrullinated peptide antibodies.
Journal of Macromolecular Science, Part A, 53, (9), 585-594, (2016)
Saylan Y, Proceeding, Molecularly imprinted plasmonic biosensors for hemoglobin detection,
1-3, (2016)
Saylan Y et al., Molecular Imprinting of Macromolecules for Sensor Applications.
Sensors, 17, (4), ArticleNo898-(2017)
Saylan Y et al., Recognition of lysozyme using surface imprinted bacterial cellulose nanofibers.
Journal of Biomaterials Science-Polymer Edition, 28, (16), 1950-1965, (2017)
Saylan Y et al., Development of surface plasmon resonance sensors based on molecularly imprinted nanofilms for sensitive and selective detection of pesticides.
Sensors and Actuators B: Chemical, 241, 446-454, (2017)
Yilmaz F et al., Book chapter, Surface plasmon resonance based nanosensors for detection of triazinic pesticides in agricultural foods,
In: New Pesticides and Soil Sensors, Grumezescu AM (Ed.) Academic Press: Ch. 18, 679-718, (2017)
Erdem O et al., Molecularly Imprinted Polymers for Removal of Metal Ions: An Alternative Treatment Method.
Biomimetics, 3, (4), Article38-(2018)
Saylan Y et al., Molecular Fingerprints of Hemoglobin on a Nanofilm Chip.
Sensors, 18, (9), ArticleNo3016-(2018)
Erdem Ö et al., Molecularly imprinted nanoparticles based plasmonic sensors for real-time Enterococcus faecalis detection.
Biosensors and Bioelectronics, 126, 608-614, (2019)
Saylan Y et al., Molecularly Imprinted Polymer Based Sensors for Medical Applications.
Sensors, 19, (6), ArticleNo1279-(2019)
Saylan Y et al., Detecting Fingerprints of Waterborne Bacteria on a Sensor.
Chemosensors, 7, (3), ArticleNo33-(2019)
Yilmaz F et al., Book chapter, Molecularly Imprinted Sensors for Detecting Controlled Release of Pesticides,
In: Controlled Release of Pesticides for Sustainable Agriculture, Rakhimol KR, Thomas S, Volova T, Jayachandran K (Eds.) Springer International Publishing: Cham, 207-235, (2020)
Journal of Dispersion Science and Technology, 37, (9), 1241-1251, (2016)
International Journal of Food Engineering, 15, (1-2), Article20170024-(2019)
Electroanalysis, 21, (24), 2701-2708, (2009)
Sayour HEM et al., Proceeding, Novel biomimetic sensor based on a molecularly imprinted polymer for rapid imidocarb determination,
404-419, (2012)
Sensors and Actuators B: Chemical, 243, 927-939, (2017)
Current Pharmaceutical Design, 23, (18), 2685-2694, (2017)
Bakhshizadeh M et al., Utilizing photosensitizing and radiosensitizing properties of TiO2-based mitoxantrone imprinted nanopolymer in fibrosarcoma and melanoma cells.
Photodiagnosis and Photodynamic Therapy, 25, 472-479, (2019)
Nanotechnologies in Russia, 7, (1), 15-21, (2012)
Men’shikova AYu et al., Crosslinked monodisperse particles containing luminophore groups in shells for molecular recognition of lower alcohols (Original Russian Text Š A.Yu. Men'shikova, N.N. Shevchenko, T.G. Evseeva, A.V. Koshkin, G.A. Pankova, B.M. Shabsel's, V.V. Faraonova, M.Ya. Goikhman, A.V. Yakimanskii, V.A. Sazhnikov, M.V. Alfimov, 2012, published in Russian in Vysokomolekulyarnye Soedineniya, Ser. B, 2012, Vol. 54, No. 1, pp. 93 - 101.).
Polymer Science Series B, 54, (1), 21-29, (2012)
Analytica Chimica Acta, 974, 1-26, (2017)
Chemical Engineering Journal, 379, Article122309-(2020)
Journal of Food Science and Technology (Iran), 18, (120), 317-334, (2021)
Abstracts of Papers of the American Chemical Society, 245, (AGFD), 5-(2013)
Biosensors and Bioelectronics, 106, 93-98, (2018)
Palladino P et al., Polydopamine: surface coating, molecular imprinting, and electrochemistry - successful applications and future perspectives in (bio)analysis.
Analytical and Bioanalytical Chemistry, 411, (19), 4327-4338, (2019)
Palladino P et al., Corrigendum to "Cardiac Troponin T capture and detection in real-time via epitope-imprinted polymer and optical biosensing" [Biosensors and Bioelectronics 106 (2018) 93-98].
Biosensors and Bioelectronics, 130, 427-427, (2019)
Baldoneschi V et al., Norepinephrine as new functional monomer for molecular imprinting: An applicative study for the optical sensing of cardiac biomarkers.
Biosensors and Bioelectronics, 157, Article112161-(2020)
Journal of Porphyrins and Phthalocyanines, 10, (8), 1061-1065, (2006)
del Sole R et al., Molecularly imprinted polymer for solid phase extraction of nicotinamide in pork liver samples.
Journal of Applied Polymer Science, 120, (3), 1634-1641, (2011)
Vasapollo G et al., Molecularly Imprinted Polymers: Present and Future Prospective.
International Journal of Molecular Sciences, 12, (9), 5908-5945, (2011)
del Sole R et al., A molecularly imprinted polymer for the determination of neopterin.
Microchimica Acta, 180, (15-16), 1401-1409, (2013)
Environmental Engineering and Management Journal, 10, (2), 175-179, (2011)
Abstracts of Papers of the American Chemical Society, 220, (INOR), 151-151, (2000)
Annals of the New York Academy of Sciences, 51, 660-672, (1949)
Electrochimica Acta, 56, (20), 7149-7154, (2011)
Analytica Chimica Acta, 435, (1), 49-55, (2001)
Analytica Chimica Acta, 504, (1), 73-79, (2004)
Food Additives & Contaminants: Part A: Chemistry, Analysis, Control, Exposure & Risk Assessment, 26, (6), 874-884, (2009)
De Smet D et al., Synthesis and application of a T-2 toxin imprinted polymer.
Journal of Chromatography A, 1217, (17), 2879-2886, (2010)
De Smet D et al., Design of an imprinted clean-up method for mycophenolic acid in maize.
Journal of Chromatography A, 1218, (8), 1122-1130, (2011)
Sensors, 16, (3), ArticleNo272-(2016)
Abstracts of Papers of the American Chemical Society, 221, (AGRO), 61-61, (2001)
RSC Advances, 8, (57), 32387-32394, (2018)
Analytical Chemistry, 78, (2), 580-584, (2006)
Skogsberg U et al., A solid-state and suspended-state magic angle spinning nuclear magnetic resonance spectroscopic investigation of a 9-ethyladenine molecularly imprinted polymer.
Polymer, 48, (1), 229-238, (2007)
GIT Labor-Fachzeitschrift, 35, 10-17, (1991)
Wulff G et al., Enzyme-analog-built polymers .27. Racemic-resolution of free sugars with macroporous polymers prepared by molecular imprinting - selectivity dependence on the arrangement of functional-groups versus requirements.
Journal of Organic Chemistry, 56, (1), 395-400, (1991)
The Journal of Physical Chemistry B, 119, (2), 563-571, (2015)
Abstracts of Papers of the American Chemical Society, 236, (AGFD), 192-(2008)
Abstracts of Papers of the American Chemical Society, 221, (AGRO), 61-61, (2001)
Macromolecules, 33, (8), 3092-3098, (2000)
Sergeyeva TA et al., Molecularly imprinted polymer membranes for substance-selective solid-phase extraction from water by surface photo-grafting polymerization.
Journal of Chromatography A, 907, (1-2), 89-99, (2001)
Sergeyeva TA et al., Development of molecularly imprinted polymer membranes with specificity to triazine herbicides, prepared by the "surface photografting" technique.
Biopolymers and Cell, 20, (4), 307-315, (2004)
Electrochimica Acta, 212, 322-332, (2016)
de Oliveira LLG et al., Synthesis and application of restricted access material-ion imprinted poly(allylthiourea) for selective separation of Cd2+ and humic acid exclusion.
Reactive and Functional Polymers, 134, 93-103, (2019)
Biological Chemistry Hoppe-Seyler, 372, (9), 698-698, (1991)
Kriegel T et al., Yeast phosphofructokinase - kinetic characterization of a substrate-imprinted enzyme conformation.
Biomedica Biochimica Acta, 50, (12), 1159-1165, (1991)
Tissue Engineering, 13, (4), 889-890, (2007)
Yarman A et al., The First Electrochemical MIP Sensor for Tamoxifen.
Sensors, 14, (5), 7647-7654, (2014)
Dechtrirat D et al., Book chapter, Catalytically Active MIP Architectures,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 2, 19-34, (2016)
Menger M et al., MIPs and Aptamers for Recognition of Proteins in Biomimetic Sensing.
Biosensors, 6, (3), ArticleNo35-(2016)
In: Enzyme Engineering XIV, Laskin AI, Li GX, Yu YT (Eds.) New York Academy of Sciences: New York, 37-45, (1998)
Scheller FW et al., Research and development in biosensors.
Current Opinion in Biotechnology, 12, (1), 35-40, (2001)
Lettau K et al., An esterolytic imprinted polymer prepared via a silica-supported transition state analogue.
Chemistry of Materials, 16, 2745-2749, (2004)
Lettau K et al., A Bifunctional Molecularly Imprinted Polymer (MIP): Analysis of Binding and Catalysis by a Thermistor.
Angewandte Chemie International Edition, 45, (42), 6986-6990, (2006)
Rajkumar R et al., Development of fructosyl valine binding polymers by covalent imprinting.
Biosensors and Bioelectronics, 22, (12), 3318-3325, (2007)
Lettau K et al., Sequential conversion by catalytically active MIP and immobilized tyrosinase in a thermistor.
Biosensors and Bioelectronics, 23, (7), 1216-1219, (2008)
Rajkumar R et al., Thermometric MIP sensor for fructosyl valine.
Biosensors and Bioelectronics, 23, (7), 1195-1199, (2008)
Rajkumar R et al., Label-free analyte detection using molecular imprints.
Abstracts of Papers of the American Chemical Society, 235, (ANYL), 16-(2008)
Rajkumar R et al., Analysis of recognition of fructose by imprinted polymers.
Talanta, 76, (5), 1119-1123, (2008)
Athikomrattanakul U et al., Development of molecularly imprinted polymers for the binding of nitrofurantoin.
Biosensors and Bioelectronics, 25, (1), 82-87, (2009)
Athikomrattanakul U et al., Thermometric Sensing of Nitrofurantoin by Noncovalently Imprinted Polymers Containing Two Complementary Functional Monomers.
Analytical Chemistry, 83, (20), 7704-7711, (2011)
Athikomrattanakul U et al., Preparation and characterization of novel molecularly imprinted polymers based on thiourea receptors for nitrocompounds recognition.
Talanta, 84, (2), 274-279, (2011)
Schumacher S et al., Molecular imprinting of fructose using a polymerizable benzoboroxole: Effective complexation at pH 7.4.
Polymer, 52, (12), 2485-2491, (2011)
Dechtrirat D et al., Protein Rebinding to a Surface-Confined Imprint.
Advanced Functional Materials, 22, (24), 5231-5237, (2012)
Bosserdt M et al., Modulation of direct electron transfer of cytochrome c by use of a molecularly imprinted thin film.
Analytical and Bioanalytical Chemistry, 405, (20), 6437-6444, (2013)
Gajovic-Eichelmann N et al., Book chapter, Molecular Imprinting Technique for Biosensing and Diagnostics,
In: Applications of Nanomaterials in Sensors and Diagnostics, Tuantranont A (Ed.) Springer: Berlin Heidelberg, 143-170, (2013)
Rajkumar R et al., Book chapter, MIP Thermistor,
In: Handbook of Molecular Imprinting - Advanced Sensor Applications, Lee SW, Kunitake T (Eds.) Pan Stanford Publishing Pte. Ltd.: Singapore, Ch. 5, 181-216, (2013)
Yarman A et al., Coupling Biocatalysis with Molecular Imprinting in a Biomimetic Sensor.
Angewandte Chemie International Edition, 52, (44), 11521-11525, (2013)
Yarman A et al., Sensors based on cytochrome P450 and CYP mimicking systems.
Electrochimica Acta, 110, 63-72, (2013)
Dechtrirat D et al., Hybrid Material for Protein Sensing Based on Electrosynthesized MIP on a Mannose Terminated Self-Assembled Monolayer.
Advanced Functional Materials, 24, (15), 2233-2239, (2014)
Scheller FW et al., Book chapter, Future of Biosensors: A Personal View,
In: Biosensors Based on Aptamers and Enzymes, Gu MB, Kim HS (Eds.) Springer: Berlin, Heidelberg, 1-28, (2014)
Yarman A et al., Book chapter, Electropolymers for (nano-)imprinted biomimetic biosensors,
In: Nanosensors for Chemical and Biological Applications: Sensing with Nanotubes, Nanowires and Nanoparticles, Honeychurch KC (Ed.) Woodhead Publishing: Amsterdam, Ch. 6, 125-149, (2014)
Bosserdt M et al., Microelectrospotting as a new method for electrosynthesis of surface-imprinted polymer microarrays for protein recognition.
Biosensors and Bioelectronics, 73, 123-129, (2015)
Jetzschmann KJ et al., Vectorially Imprinted Hybrid Nanofilm for Acetylcholinesterase Recognition.
Advanced Functional Materials, 25, (32), 5178-5183, (2015)
Scheller FW et al., Bio vs. Mimetics in Bioanalysis: An Editorial.
Biochemistry & Analytical Biochemistry, 4, (2), e154-(2015)
Scheller FW et al., Book chapter, Electrochemical Approaches for Molecular Surface Imprinting of Polymers Toward Fully Synthetic Receptors for Selective Recognition of Proteins,
In: Design of Polymeric Platforms for Selective Biorecognition, Rodríguez-Hernández J, Cortajarena AL (Eds.) Springer: Ch. 13, 347-356, (2015)
Yarman A et al., Cytochrome c-Derived Hybrid Systems Based on Moleculary Imprinted Polymers.
Electroanalysis, 27, (3), 573-586, (2015)
Erdőssy J et al., Electrosynthesized molecularly imprinted polymers for protein recognition.
TrAC Trends in Analytical Chemistry, 79, 179-190, (2016)
Peng L et al., Molecularly Imprinted Electropolymer for a Hexameric Heme Protein with Direct Electron Transfer and Peroxide Electrocatalysis.
Sensors, 16, (3), ArticleNo272-(2016)
Yarman A et al., MIP-esterase/Tyrosinase Combinations for Paracetamol and Phenacetin.
Electroanalysis, 28, (9), 2222-2227, (2016)
Stojanovic Z et al., Electrosynthesized molecularly imprinted polyscopoletin nanofilms for human serum albumin detection.
Analytica Chimica Acta, 977, 1-9, (2017)
Yarman A et al., Enzymes as Tools in MIP-Sensors.
Chemosensors, 5, (2), ArticleNo11-(2017)
Jetzschmann KJ et al., Book chapter, Label-Free MIP Sensors for Protein Biomarkers,
In: Label-Free Biosensing: Advanced Materials, Devices and Applications, Schöning MJ, Poghossian A (Eds.) Springer International Publishing: Cham, 291-321, (2018)
Jetzschmann KJ et al., Molecular LEGO by domain-imprinting of cytochrome P450 BM3.
Colloids and Surfaces B: Biointerfaces, 164, 240-246, (2018)
Waffo AFT et al., Fully electrochemical MIP sensor for artemisinin.
Sensors and Actuators B: Chemical, 275, 163-173, (2018)
Zhang XR et al., Electrosynthesized MIPs for transferrin: Plastibodies or nano-filters?
Biosensors and Bioelectronics, 105, 29-35, (2018)
Altintas Z et al., Integrated Approaches Toward High-Affinity Artificial Protein Binders Obtained via Computationally Simulated Epitopes for Protein Recognition.
Advanced Functional Materials, 29, (15), Article1807332-(2019)
Jetzschmann KJ et al., Bio-Electrosynthesis of Vectorially Imprinted Polymer Nanofilms for Cytochrome P450cam.
ChemElectroChem, 6, (6), 1818-1823, (2019)
Scheller FW et al., Molecularly imprinted polymer-based electrochemical sensors for biopolymers.
Current Opinion in Electrochemistry, 14, 53-59, (2019)
Ozcelikay G et al., Au-Pt nanoparticles based molecularly imprinted nanosensor for electrochemical detection of the lipopeptide antibiotic drug Daptomycin.
Sensors and Actuators B: Chemical, 320, Article128285-(2020)
Caserta G et al., Insights in electrosynthesis, target binding, and stability of peptide-imprinted polymer nanofilms.
Electrochimica Acta, 381, Article138236-(2021)
Yarman A et al., Simple and robust: The claims of protein sensing by molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 330, Article129369-(2021)
Zhang XR et al., Out of Pocket
Journal of the American Chemical Society, 131, (41), 14699-14702, (2009)
Journal of Environmental Chemical Engineering, 4, (Part A), 4083-4090, (2016)
Journal of the American Chemical Society, 132, (47), 16753-16755, (2010)
Moirangthem M et al., An Optical Sensor Based on a Photonic Polymer Film to Detect Calcium in Serum.
Advanced Functional Materials, 26, (8), 1154-1160, (2016)
Abstracts of Papers of the American Chemical Society, 235, (ORGN), 436-(2008)
Journal of Separation Science, 40, (16), 3358-3367, (2017)
Nanomedicine, 1, (4), 437-447, (2006)
Verheyen E et al., Challenges for the effective molecular imprinting of proteins.
Biomaterials, 32, (11), 3008-3020, (2011)
Inorganic Chemistry, 44, (18), 6482-6492, (2005)
Schiller A et al., Enhanced hydrolytic activity of Cu(II) and Zn(II) complexes in highly cross-linked polymers.
Dalton Transactions, (32), 3858-3867, (2006)
Journal of Hazardous Materials, 170, (2-3), 722-728, (2009)
Science, 296, (5575), 1997-1997, (2002)
Journal of the American Chemical Society, 125, (49), 15101-15109, (2003)
Dirion B et al., Book chapter, Development of a high throughput synthesis technique for the optimization of MIPs for 17[beta]-estradiol,
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 9, 53-60, (2004)
Oxelbark J et al., Chromatographic comparison of bupivacaine imprinted polymers prepared in crushed monolith, microsphere, silica-based composite and capillary monolith formats.
Journal of Chromatography A, 1160, (1-2), 215-226, (2007)
Sellergren B et al., Book chapter, Experimental Combinatorial Methods in Molecular Imprinting,
In: Combinatorial Methods for Chemical and Biological Sensors, Potyrailo RA, Mirsky VM (Eds.) Springer: New York, Ch. 7, 173-198, (2009)
Prieto A et al., Selective determination of estrogenic compounds in water by microextraction by packed sorbents and a molecularly imprinted polymer coupled with large volume injection-in-port-derivatization gas chromatography-mass spectrometry.
Analytica Chimica Acta, 703, (1), 41-51, (2011)
Urraca JL et al., Polymeric Complements to the Alzheimer's Disease Biomarker [beta]-Amyloid Isoforms A[beta]1-40 and A[beta]1-42 for Blood Serum Analysis under Denaturing Conditions.
Journal of the American Chemical Society, 133, (24), 9220-9223, (2011)
Halhalli MR et al., An improved grafting technique for producing imprinted thin film composite beads.
Polymer Chemistry, 3, (4), 1033-1042, (2012)
Halhalli MR et al., Thin Walled Imprinted Polymer Beads Featuring Both Uniform and Accessible Binding Sites.
Chemistry of Materials, 24, (15), 2909-2919, (2012)
Schillinger E et al., An Artificial Estrogen Receptor through Combinatorial Imprinting.
Chemistry - A European Journal, 18, (46), 14773-14783, (2012)
Azenha M et al., Vapor-phase testing of the memory-effects in benzene- and toluene-imprinted polymers conditioned at elevated temperature.
Analytica Chimica Acta, 802, 40-45, (2013)
Kadhirvel P et al., Imidazolium-based functional monomers for the imprinting of the anti-inflammatory drug naproxen: Comparison of acrylic and sol-gel approaches.
Journal of Chromatography A, 1314, 115-123, (2013)
Olsson GD et al., Theoretical Studies of 17-[beta]-Estradiol-Imprinted Prepolymerization Mixtures: Insights Concerning the Roles of Cross-Linking and Functional Monomers in Template Complexation and Polymerization.
Industrial & Engineering Chemistry Research, 52, (39), 13965-13970, (2013)
Kadhirvel P et al., Recognitive nano-thin-film composite beads for the enantiomeric resolution of the metastatic breast cancer drug aminoglutethimide.
Journal of Chromatography A, 1358, 93-101, (2014)
Journal of Molecular Recognition, 24, (4), 619-630, (2011)
Engineering in Life Sciences, 11, (6), 559-565, (2011)
VDI Berichte, 2011, 43-52, (2008)
Birnbaumer GM et al., Detection of viruses with molecularly imprinted polymers integrated on a microfluidic biochip using contact-less dielectric microsensors.
Lab on a Chip, 9, (24), 3549-3556, (2009)
Dickert FL et al., Proceeding, Sensors for Healthcare Monitoring - Proteins, Viruses and Blood-Group-Typing,
Dössel O, Schlegel WC (Eds.), 325-328, (2009)
Jenik M et al., Sensing Picornaviruses Using Molecular Imprinting Techniques on a Quartz Crystal Microbalance.
Analytical Chemistry, 81, (13), 5320-5326, (2009)
Schirhagl R et al., Chemosensors for Viruses Based on Artificial Immunoglobulin Copies.
Advanced Materials, 22, (18), 2078-2081, (2010)
Schirhagl R et al., Comparing biomimetic and biological receptors for insulin sensing.
Chemical Communications, (46), 3128-3130, (2010)
Schirhagl R et al., Antibodies and Their Replicae in Microfluidic Sensor Systems-Labelfree Quality Assessment in Food Chemistry and Medicine.
Sensor Letters, 8, (3), 399-404, (2010)
Schirhagl R et al., Atrazine detection based on antibody replicas.
Journal of Materials Chemistry, 21, (38), 14594-14598, (2011)
Schirhagl R et al., Separation of bacteria with imprinted polymeric films.
Analyst, 137, (6), 1495-1499, (2012)
Schirhagl R et al., Natural and Biomimetic Materials for the Detection of Insulin.
Analytical Chemistry, 84, (9), 3908-3913, (2012)
Schirhagl R et al., Immunosensing with artificial antibodies in organic solvents or complex matrices.
Sensors and Actuators B: Chemical, 173, 585-590, (2012)
Schirhagl R et al., Surface-imprinted polymers in microfluidic devices.
SCIENCE CHINA Chemistry, 55, (4), 469-483, (2012)
Afzal A et al., Advanced vapor recognition materials for selective and fast responsive surface acoustic wave sensors: A review.
Analytica Chimica Acta, 787, 36-49, (2013)
Schirhagl R, Bioapplications for Molecularly Imprinted Polymers.
Analytical Chemistry, 86, (1), 250-261, (2014)
van Rijn P et al., Viruses, Artificial Viruses and Virus-Based Structures for Biomedical Applications.
Advanced Healthcare Materials, 5, (12), 1386-1400, (2016)
Wackerlig J et al., Applications of Molecularly Imprinted Polymer Nanoparticles and Their Advances toward Industrial Use: A Review.
Analytical Chemistry, 88, (1), 250-261, (2016)
Afzal A et al., Gravimetric Viral Diagnostics: QCM Based Biosensors for Early Detection of Viruses.
Chemosensors, 5, (1), ArticleNo7-(2017)
Schirhagl R, Book chapter, Transferring the Selectivity of a Natural Antibody into a Molecularly Imprinted Polymer,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 325-340, (2017)
VDI Berichte, 1829, 611-616, (2004)
Dickert FL et al., Book chapter, Molecular imprinting - a universal strategy for the development of chemosensors,
In: Sensors And Measuring Systems 2004, 611-615, (2004)
Lieberzeit PA et al., From nanopatterning to functionality - surface and bulk imprinting for analytical purposes.
Supperlattices and Microstructures, 36, (1-3), 133-142, (2004)
Lieberzeit PA et al., Imprinting as a versatile platform for sensitive materials - nanopatterning of the polymer bulk and surfaces.
Sensors and Actuators B: Chemical, 111-112, 259-263, (2005)
Jenik M et al., Sensing Picornaviruses Using Molecular Imprinting Techniques on a Quartz Crystal Microbalance.
Analytical Chemistry, 81, (13), 5320-5326, (2009)
Journal of Chromatography A, 1132, (1-2), 325-328, (2006)
Schirmer C et al., Molecularly imprinted polymers for the selective solid-phase extraction of chloramphenicol.
Analytical and Bioanalytical Chemistry, 392, (1), 223-229, (2008)
Schirmer C et al., Synthesis and Evaluation of Molecularly Imprinted Polymers (MIP) with Affinity for the Polypeptide Nisin.
Food Analytical Methods, 2, (4), 257-263, (2009)
Schirmer C et al., Chromatographic evaluation of polymers imprinted with analogs of chloramphenicol and application to selective solid-phase extraction.
Analytical and Bioanalytical Chemistry, 394, (8), 2249-2255, (2009)
Analytical Chemistry, 77, (8), 2569-2574, (2005)
Advanced Functional Materials, 29, (15), Article1807332-(2019)
Tchinda R et al., Recognition of protein biomarkers using epitope-mediated molecularly imprinted films: Histidine or cysteine modified epitopes?
Biosensors and Bioelectronics, 123, 260-268, (2019)
Drzazgowska J et al., Self-Assembled Monolayer Epitope Bridges for Molecular Imprinting and Cancer Biomarker Sensing.
Analytical Chemistry, 92, (7), 4798-4806, (2020)
Analyst, 129, (5), 432-437, (2004)
Natural Product Reports, 30, (4), 525-545, (2013)
Enantiomer, 5, 5-11, (2000)
Gübitz G et al., Recent progress in chiral separation principles in capillary electrophoresis.
Electrophoresis, 21, (18), 4112-4135, (2000)
Gübitz G et al., Chiral separation by chromatographic and electromigration techniques. A review.
Biopharmaceutics & Drug Disposition, 22, (7-8), 291-336, (2001)
Gübitz G et al., Book chapter, Chiral Separation Principles,
In: Chiral Separations, Gübitz G, Schmid MG (Eds.) 1-28, (2003)
Gübitz G et al., Recent advances in chiral separation principles in capillary electrophoresis and capillary electrochromatography.
Electrophoresis, 25, (23-24), 3981-3996, (2004)
Gübitz G et al., Chiral separation principles in chromatographic and electromigration techniques.
Molecular Biotechnology, 32, (2), 159-179, (2006)
Gübitz G et al., Chiral separation by capillary electromigration techniques.
Journal of Chromatography A, 1204, (2), 140-156, (2008)
Journal of Biomaterials Science-Polymer Edition, 22, (1-3), 343-362, (2011)
Angewandte Chemie International Edition, 33, (2), 188-191, (1994)
Journal of Molecular Recognition, 31, (3), ArticleNoe2629-(2018)
Analytical Chemistry, 89, (21), 11484-11490, (2017)
Advanced Materials, 16, (8), 719-722, (2004)
Schmidt RH et al., Molecularly imprinted polymer films with binding properties enhanced by the reaction-induced phase separation of a sacrificial polymeric porogen.
Chemistry of Materials, 17, (5), 1007-1016, (2005)
Schmidt RH et al., Porogen formulations for obtaining molecularly imprinted polymers with optimized binding properties.
Analytica Chimica Acta, 542, (1), 118-124, (2005)
Yilmaz E et al., Book chapter, The noncovalent approach,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 3, 25-57, (2005)
Abstracts of Papers of the American Chemical Society, 225, (ANYL), 098-098, (2003)
1-4, (2015)
Journal of Environmental Science and Health, Part B, 53, (11), 738-745, (2018)
Journal of Organic Chemistry, 71, (8), 3121-3125, (2006)
Gomy C et al., Synthesis and Photoresponsive Properties of a Molecularly Imprinted Polymer.
Organic Letters, 9, (20), 3865-3868, (2007)
In: Synthetic Receptors for Biomolecules: Design Principles and Applications, Smith BD (Ed.) The Royal Society of Chemistry: Cambridge, Ch. 8, 326-368, (2015)
Abstracts of Papers of the American Chemical Society, 236, (AGFD), 193-(2008)
Analytical Chemistry, 83, (5), 1862-1865, (2011)
Applied Surface Science, 300, 22-28, (2014)
Kamra T et al., Implementation of Molecularly Imprinted Polymer Beads for Surface Enhanced Raman Detection.
Analytical Chemistry, 87, (10), 5056-5061, (2015)
Kamra T et al., Photoconjugation of Molecularly Imprinted Polymer Nanoparticles for Surface-Enhanced Raman Detection of Propranolol.
ACS Applied Materials & Interfaces, 7, (49), 27479-27485, (2015)
Kamra T et al., Covalent immobilization of molecularly imprinted polymer nanoparticles using an epoxy silane.
Journal of Colloid and Interface Science, 445, 277-284, (2015)
Kamra T et al., Covalent immobilization of molecularly imprinted polymer nanoparticles on a gold surface using carbodiimide coupling for chemical sensing.
Journal of Colloid and Interface Science, 461, 1-8, (2016)
Kamra T et al., Corrigendum to "Covalent immobilization of molecularly imprinted polymer nanoparticles on a gold surface using carbodiimide coupling for chemical sensing" [J. Colloid Interface Sci. 461 (2016) 1-8].
Journal of Colloid and Interface Science, 461, 444-445, (2016)
Abstracts of Papers of the American Chemical Society, 241, (CHED), 230-(2011)
Tom LA et al., Improving the imprinting effect by optimizing template:monomer:cross-linker ratios in a molecularly imprinted polymer for sulfadimethoxine.
Journal of Chromatography B, 909, 61-64, (2012)
Desalination, 149, (1-3), 293-295, (2002)
Schneider F et al., Comparison of thin-layer and bulk MlPs synthesized by photoinitiated in situ crosslinking polymerization from the same reaction mixtures.
Journal of Applied Polymer Science, 98, (1), 362-372, (2005)
Accounts of Chemical Research, 42, (10), 1489-1500, (2009)
Nanomaterials, 9, (5), ArticleNo693-(2019)
Macromolecules, 30, (8), 2454-2459, (1997)
Analytical Chemistry, 70, (17), 3717-3719, (1998)
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 745, (1), 83-102, (2000)
Procedia Engineering, 168, 557-560, (2016)
Abstracts of Papers of the American Chemical Society, 215, (COLL), 179-179, (1998)
Markowitz MA et al., Catalytic silica particles via template-directed molecular imprinting.
Langmuir, 16, (4), 1759-1765, (2000)
In: Interfacial design & chemical sensing, Mallouk TE, Harrison DJ (Eds.) ACS: Washington DC, Ch. 10, 104-122, (1994)
Izv. Akad. Nauk SSSR, Otd. Khim. Nauk, 6, 1031-1035, (1963)
Patrikeev VV et al., The preparation and properties of specifically formed silica gels and their use in the separation of complex mixtures of organic compounds.
Molekul. Khromatogr., 66-72, (1964)
331-334, (2002)
Greibl W et al., Proceeding, Surface phenomena with organic coatings for chemical sensing,
Vo-Dinh T, Buettgenbach S (Eds.), 160-168, (2002)
Dickert F et al., Borderline applications of QCM-devices: synthetic antibodies for analytes in both nm- and mm-dimensions.
Sensors and Actuators B: Chemical, 95, (1-3), 20-24, (2003)
Catalysis Communications, 7, (2), 114-114, (2006)
Polymer Bulletin, 55, (4), 287-297, (2005)
Visnjevski A et al., Catalysis of a Diels-Alder cycloaddition with differently fabricated molecularly imprinted polymers.
Catalysis Communications, 6, (9), 601-606, (2005)
Analytica Chimica Acta, 744, 68-74, (2012)
Analytica Chimica Acta, 685, (2), 146-152, (2011)
Prieto A et al., Selective determination of estrogenic compounds in water by microextraction by packed sorbents and a molecularly imprinted polymer coupled with large volume injection-in-port-derivatization gas chromatography-mass spectrometry.
Analytica Chimica Acta, 703, (1), 41-51, (2011)
Zarejousheghani M et al., Ion-exchange molecularly imprinted polymer for the extraction of negatively charged acesulfame from wastewater samples.
Journal of Chromatography A, 1411, 23-33, (2015)
Zarejousheghani M et al., Negative electrospray ionization ion mobility spectrometry combined with paper-based molecular imprinted polymer disks: A novel approach for rapid target screening of trace organic compounds in water samples.
Talanta, 190, 47-54, (2018)
Zarejousheghani M et al., A new strategy for accelerated extraction of target compounds using molecularly imprinted polymer particles embedded in a paper-based disk.
Journal of Molecular Recognition, 31, (3), ArticleNoe2629-(2018)
Chemical Communications, (17), 2089-2090, (1996)
Wulff G et al., Book chapter, Molecular imprinting for the preparation of enzyme-analogous polymers,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 2, 10-28, (1998)
Herm M et al., Towards synthetic adrenaline receptors.
Chemistry - A European Journal, 6, (1), 47-53, (2000)
Schrader T et al., Artificial protein sensors.
Molecular BioSystems, 3, (4), 241-248, (2007)
Ertürk G et al., Bisphosphonate ligand mediated ultrasensitive capacitive protein sensor: complementary match of supramolecular and dynamic chemistry.
New Journal of Chemistry, 43, (2), 847-852, (2019)
Journal of the American Chemical Society, 119, (50), 12061-12068, (1997)
Angewandte Chemie International Edition, 27, (12), 1695-1697, (1988)
Procedia Engineering, 87, 236-239, (2014)
In: Cellular and Biomolecular Recognition: Synthetic and Non-Biological Molecules, Jelinek R (Ed.) Wiley-VCH: Weinheim, Ch. 2, 31-67, (2009)
Schreiber T et al., Proceeding, Water treatment by molecularly imprinted polymer nanoparticles,
ArticleNo1169-Q04-07, (2009)
Schreiber T et al., Proceeding, NANOCYTES-technology - Biomimetic nanoparticles for molecular recognition by molecular imprinting,
242-245, (2010)
Schubert H, Rimski-Korsakov A (Eds.), 17-27, (2006)
Bulletin Of The International Dairy Federation No 375/2002 - Fresh Perspectives On Bioactive Dairy Foods, 47-53, (2002)
Analytical and Bioanalytical Chemistry, 409, (13), 3393-3405, (2017)
Guc M et al., The Molecularly Imprinted Polymers. Influence of Monomers on The Properties of Polymers - A Review.
World Journal of Research and Review, 5, (6), 36-47, (2017)
Kurczewska J et al., Molecularly imprinted polymer as drug delivery carrier in alginate dressing.
Materials Letters, 201, 46-49, (2017)
Ceglowski M et al., Application of paclitaxel-imprinted microparticles obtained using two different cross-linkers for prolonged drug delivery.
European Polymer Journal, 118, 328-336, (2019)
Ceglowski M et al., The influence of cross-linking agent onto adsorption properties, release behavior and cytotoxicity of doxorubicin-imprinted microparticles.
Colloids and Surfaces B: Biointerfaces, 182, Article110379-(2019)
Guc M et al., The Application of the Microwave Plasma Ionization Source in Ambient Mass Spectrometry.
Plasma Chemistry and Plasma Processing, 39, (4), 1001-1017, (2019)
Pawlaczyk M et al., Adsorption and selectivity studies of direct and magnetite-cored molecularly imprinted polymers (MIPs and magMIPs) towards chosen chalcones investigated with various analytical methods.
RSC Advances, 11, (41), 25334-25347, (2021)
Biosensors and Bioelectronics, 35, (1), 27-32, (2012)
Journal of Polymer Science Part A: Polymer Chemistry, 41, (16), 2425-2434, (2003)
Hoogenboom R et al., Combinatorial methods, automated synthesis and high-throughput screening in polymer research: Past and present.
Macromolecular Rapid Communications, 24, (1), 16-32, (2003)
Zhang HQ et al., Application of a parallel synthetic approach in atom-transfer radical polymerization: Set-up and feasibility demonstration.
Macromolecular Rapid Communications, 24, (1), 81-86, (2003)
Meier MAR et al., Combinatorial methods, automated synthesis and high-throughput screening in polymer research: The evolution continues.
Macromolecular Rapid Communications, 25, (1), 21-33, (2004)
Abstracts of Papers of the American Chemical Society, 223, (ANYL), 074-074, (2002)
Biochemistry, 20, (10), 2864-2874, (1981)
Journal of Separation Science, 36, (17), 2922-2938, (2013)
Abstracts of Papers of the American Chemical Society, 219, (COLL), 74-74, (2000)
Angewandte Chemie International Edition, 40, (10), 1962-1966, (2001)
Zimmerman SC et al., Monomolecular imprinting: synthetic hosts via molecular imprinting inside of dendrimers.
Polymer Preprints, 44, (2), 466-467, (2003)
Zimmerman SC et al., Monomolecular imprinting: Synthetic hosts via molecular imprinting inside of dendrimers.
Abstracts of Papers of the American Chemical Society, 226, (POLY), 479-479, (2003)
Advanced Functional Materials, 25, (32), 5178-5183, (2015)
ECS Meeting Abstracts, MA2017-01, (42), 1919-1919, (2017)
Angewandte Chemie International Edition, 17, (7), 537-538, (1978)
Wulff G et al., Enzyme-analogue built polymers. IX. Polymers with mercapto groups of definite cooperativity.
Israel Journal of Chemistry, 17, 291-297, (1978)
Wulff G et al., Über enzymanalog gebaute Polymere, 11) Bindungsstellen im Polymer mit unterschiedlicher Zahl der Haftgruppen.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 181, (3), 531-544, (1980)
Polymer, 52, (12), 2485-2491, (2011)
Schumacher S, Book chapter, Molecularly Imprinted Polymers: Science Goes Market? A Market Analysis Based on the Patent Situation,
In: Handbook of Molecular Imprinting - Advanced Sensor Applications, Lee SW, Kunitake T (Eds.) Pan Stanford Publishing Pte. Ltd.: Singapore, Ch. 17, 571-598, (2013)
Scheller FW et al., Book chapter, Future of Biosensors: A Personal View,
In: Biosensors Based on Aptamers and Enzymes, Gu MB, Kim HS (Eds.) Springer: Berlin, Heidelberg, 1-28, (2014)
In: Bioinspiration and Biomimicry in Chemistry: Reverse-Engineering Nature, Swiegers GF (Ed.) Wiley: Ch. 11, 323-366, (2012)
Nutrients, 10, (6), ArticleNo751-(2018)
Electrophoresis, 21, (18), 4136-4158, (2000)
Wistuba D et al., Enantiomer separation of chiral pharmaceuticals by capillary electrochromatography.
Journal of Chromatography A, 875, (1-2), 255-276, (2000)
Kang JW et al., Recent progress in enantiomeric separation by capillary electrochromatography.
Electrophoresis, 23, (22-23), 4005-4021, (2002)
ACS Applied Polymer Materials, 3, (9), 4523-4533, (2021)
Enzyme and Microbial Technology, 26, (7), 550-558, (2000)
Biosensors and Bioelectronics, 175, Article112852-(2021)
Lee MH et al., Transition metal dichalcogenides to optimize the performance of peptide-imprinted conductive polymers as electrochemical sensors.
Microchimica Acta, 188, (6), Article203-(2021)
RSC Advances, 6, (58), 53162-53169, (2016)
Advanced Materials, 15, (18), 1541-1544, (2003)
Australian Journal of Chemistry, 57, (8), 759-764, (2004)
Schwarz L et al., Synthesis and evaluation of a molecularly imprinted polymer selective to 2, 4, 6-trichloroanisole.
Australian Journal of Chemistry, 59, (2), 129-134, (2006)
Journal of Chromatography A, 1218, (16), 2189-2195, (2011)
Schwarz LJ et al., Enrichment of (E)-Resveratrol from Peanut Byproduct with Molecularly Imprinted Polymers.
Journal of Agricultural and Food Chemistry, 59, (8), 3539-3543, (2011)
Boysen RI et al., Selectivity optimisation of biomimetic molecularly imprinted polymer thin films.
Microelectronic Engineering, 97, 81-84, (2012)
Hashim SNNS et al., Rapid solid-phase extraction and analysis of resveratrol and other polyphenols in red wine.
Journal of Chromatography A, 1313, 284-290, (2013)
Boysen RI et al., Photo-lithographic patterning of biomimetic molecularly imprinted polymer thin films onto silicon wafers.
Microsystem Technologies, 20, (10-11), 2037-2043, (2014)
Hashim SNNS et al., A comparison of covalent and non-covalent imprinting strategies for the synthesis of stigmasterol imprinted polymers.
Journal of Chromatography A, 1359, 35-43, (2014)
Danylec B et al., The Application of Template Selectophores for the Preparation of Molecularly Imprinted Polymers.
Molecules, 20, (9), 17601-17613, (2015)
Schwarz LJ et al., Microwave-assisted synthesis of resveratrol imprinted polymers with enhanced selectivity.
Analytical Methods, 7, (1), 150-154, (2015)
Hashim SNNS et al., Selectivity mapping of the binding sites of (E)-resveratrol imprinted polymers using structurally diverse polyphenolic compounds present in Pinot noir grape skins.
Talanta, 161, 425-436, (2016)
Hashim SNNS et al., Recovery of ergosterol from the medicinal mushroom, Ganoderma tsugae var. Janniae, with a molecularly imprinted polymer derived from a cleavable monomer-template composite.
Journal of Chromatography A, 1468, 1-9, (2016)
Schwarz LJ et al., Sequential molecularly imprinted solid-phase extraction methods for the analysis of resveratrol and other polyphenols.
Journal of Chromatography A, 1438, 22-30, (2016)
Boysen RI et al., Molecularly imprinted polymer membranes and thin films for the separation and sensing of biomacromolecules.
Journal of Separation Science, 40, (1), 314-335, (2017)
Schwarz LJ et al., Phytosterol Recognition via Rationally Designed Molecularly Imprinted Polymers.
C, 4, (1), ArticleNo13-(2018)
Hashim SNNS et al., Parallel enrichment of polyphenols and phytosterols from Pinot noir grape seeds with molecularly imprinted polymers and analysis by capillary high-performance liquid chromatography electrospray ionisation tandem mass spectrometry.
Talanta, 208, Article120397-(2020)
Sensors, 15, (3), 4870-4889, (2015)
Electrophoresis, 18, (6), 884-890, (1997)
Schweitz L et al., Capillary electrochromatography with predetermined selectivity obtained through molecular imprinting.
Analytical Chemistry, 69, (6), 1179-1183, (1997)
Schweitz L et al., Capillary electrochromatography with molecular imprint-based selectivity for enantiomer separation of local anaesthetics.
Journal of Chromatography A, 792, (1-2), 401-409, (1997)
Schweitz L et al., Molecular imprint-based stationary phases for capillary electrochromatography.
Journal of Chromatography A, 817, (1-2), 5-13, (1998)
Schweitz L et al., Molecular imprinting for chiral separations and drug screening purposes using monolithic stationary phases in CEC.
Chromatographia, 49, (Supplement 1), S93-S94, (1999)
Nilsson S et al., Capillary electrochromatography plus molecular imprinting equals drug analysis?
Chromatographia, 52, S24-S24, (2000)
Schweitz L et al., Molecularly imprinted microparticles for capillary electrochromatographic enantiomer separation of propranolol.
Analyst, 125, (11), 1899-1901, (2000)
Schweitz L et al., Alternative methods providing enhanced sensitivity and selectivity in capillary electroseparation experiments.
Journal of Chromatography A, 892, (1-2), 203-217, (2000)
Schweitz L et al., Rapid electrochromatographic enantiomer separations on short molecularly imprinted polymer monoliths.
Analytica Chimica Acta, 435, (1), 43-47, (2001)
Schweitz L et al., Approaches to molecular imprinting based selectivity in capillary electrochromatography.
Electrophoresis, 22, (19), 4053-4063, (2001)
Schweitz L et al., Book chapter, Capillary electrochromatography based on molecular imprinting,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 16, 379-393, (2001)
Spégel P et al., Molecularly imprinted microparticles for capillary electrochromatography: Studies on microparticle synthesis and electrolyte composition.
Electrophoresis, 22, (17), 3833-3841, (2001)
Andersson LI et al., Towards molecular-imprint based SPE of local anaesthetics.
Chromatographia, 55, (Supplement 1), S65-S69, (2002)
Schweitz L et al., Molecularly imprinted CEC sorbents: investigations into polymer preparation and electrolyte composition.
Analyst, 127, (1), 22-28, (2002)
Schweitz L, Molecularly imprinted polymer coatings for open-tubular capillary electrochromatography prepared by surface initiation.
Analytical Chemistry, 74, (5), 1192-1196, (2002)
Spégel P et al., Molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 372, (1), 37-38, (2002)
Andersson LI et al., Book chapter, Solid-phase extraction on molecularly imprinted polymers,
In: Bioanalytical Separations, Wilson I (Ed.) Elsevier: Amsterdam, Ch. 2, 45-71, (2003)
Spégel P et al., Molecularly imprinted polymers in capillary electrochromatography: Recent developments and future trends.
Electrophoresis, 24, (22-23), 3892-3899, (2003)
Spégel P et al., Selectivity toward multiple predetermined targets in nanoparticle capillary electrochromatography.
Analytical Chemistry, 75, (23), 6608-6613, (2003)
Cacho C et al., Molecularly imprinted capillary electrochromatography for selective determination of thiabendazole in citrus samples.
Journal of Chromatography A, 1179, (2), 216-223, (2008)
Spégel P et al., Novel Vinylpyridine Based Cationic MIP Monoliths for Enantiomer Separation in CEC.
Chromatographia, 69, (3), 277-285, (2009)
Separation Science and Technology, 26, (3), 345-354, (1991)
Journal of Colloid and Interface Science, 364, (1), 18-23, (2011)
Gam-Derouich S et al., Quantum dot-imprinted polymers with size and shell-selective recognition properties.
Chemical Communications, 51, 14933-14936, (2015)
Gam-Derouich S et al., Correction: Quantum dot-imprinted polymers with size and shell-selective recognition properties.
Chemical Communications, (2015)
Gam-Derouich S et al., Imprinted Photonic Hydrogels for the Size- and Shell-Selective Recognition of Nanoparticles.
Angewandte Chemie International Edition, 56, (33), 9710-9714, (2017)
Analyst, 125, (4), 665-667, (2000)
Angewandte Chemie International Edition, 36, (18), 1962-1964, (1997)
Wulff G et al., Polymerizable amidines - Adhesion mediators and binding sites for molecular imprinting.
Advanced Materials, 10, (12), 957-959, (1998)
Wulff G et al., Book chapter, Molecular imprinting for the preparation of enzyme-analogous polymers,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 2, 10-28, (1998)
Langmuir, 26, (12), 10122-10128, (2010)
Liu ZH et al., Surface Molecular Imprinted Layer-by-Layer Film Attached to a Porous Membrane for Selective Filtration.
Langmuir, 27, (19), 11806-11812, (2011)
Zhang JW et al., Bolaform Supramolecular Amphiphiles as a Novel Concept for the Buildup of Surface-Imprinted Films.
Langmuir, 27, (17), 10370-10375, (2011)
Gauczinski J et al., Surface Molecular Imprinting in Layer-by-Layer films on Silica Particles.
Langmuir, 28, (9), 4267-4273, (2012)
Xu HP et al., Unconventional Layer-by-Layer Assembly: Surface Molecular Imprinting and Its Applications.
Small, 8, (4), 517-523, (2012)
Zhang JW et al., Multilayer Films with Nanocontainers: Redox-Controlled Reversible Encapsulation of Guest Molecules.
Chemistry - A European Journal, 18, (47), 14968-14973, (2012)
Nicolas H et al., Cucurbit[8]uril as Nanocontainer in a Polyelectrolyte Multilayer Film: A Quantitative and Kinetic Study of Guest Uptake.
Langmuir, 31, (39), 10734-10742, (2015)
Yuan B et al., Pillar[6]arene Containing Multilayer Films: Reversible Uptake and Release of Guest Molecules with Methyl Viologen Moieties.
ACS Applied Materials & Interfaces, 8, (6), 3679-3685, (2016)
Biosensors and Bioelectronics, 136, 97-105, (2019)
Analytica Chimica Acta, 620, (1-2), 73-81, (2008)
1-4, (2015)
Food Chemistry, 220, 406-412, (2017)
Journal of Materials Chemistry B, 6, (8), 1207-1215, (2018)
Biosensors and Bioelectronics, 74, 1076-1086, (2015)
Journal of the American Chemical Society, 124, (6), 894-895, (2002)
ACS Applied Materials & Interfaces, 8, (35), 23356-23361, (2016)
Chemical Engineering Journal, 198-199, 529-535, (2012)
Inorganic Chemistry, 44, (18), 6482-6492, (2005)
Chauvin AS et al., Use of Dipicolinate-Based Complexes for Producing Ion-Imprinted Polystyrene Resins for the Extraction of Yttrium-90 and Heavy Lanthanide Cations.
Chemistry - A European Journal, 12, (26), 6852-6864, (2006)
Schiller A et al., Enhanced hydrolytic activity of Cu(II) and Zn(II) complexes in highly cross-linked polymers.
Dalton Transactions, (32), 3858-3867, (2006)
Journal of Polymer Research, 17, (5), 683-687, (2010)
Scorrano S et al., Molecularly imprinted polymers for solid-phase extraction of 1-methyladenosine from human urine.
Analytica Chimica Acta, 659, (1-2), 167-171, (2010)
Scorrano S et al., Synthesis of Molecularly Imprinted Polymers for Amino Acid Derivates by Using Different Functional Monomers.
International Journal of Molecular Sciences, 12, (3), 1735-1743, (2011)
Vasapollo G et al., Molecularly Imprinted Polymers: Present and Future Prospective.
International Journal of Molecular Sciences, 12, (9), 5908-5945, (2011)
del Sole R et al., A molecularly imprinted polymer for the determination of neopterin.
Microchimica Acta, 180, (15-16), 1401-1409, (2013)
Mergola L et al., Developments in the synthesis of a water compatible molecularly imprinted polymer as artificial receptor for detection of 3-nitro-l-tyrosine in neurological diseases.
Biosensors and Bioelectronics, 40, (1), 336-341, (2013)
Scorrano S et al., A molecularly imprinted polymer as artificial receptor for the detection of indole-3-carbinol.
Journal of Applied Polymer Science, 131, (19), Article No 40819-(2014)
Scorrano S et al., Molecularly Imprinted Composite Membranes for Selective Detection of 2-Deoxyadenosine in Urine Samples.
International Journal of Molecular Sciences, 16, (6), 13746-13759, (2015)
Mergola L et al., Novel polymeric sorbents based on imprinted Hg(II)-diphenylcarbazone complexes for mercury removal from drinking water.
Polymer Journal, 48, 73-79, (2016)
Di Bello MP et al., Towards a new strategy of a chitosan-based molecularly imprinted membrane for removal of 4-nitrophenol in real water samples.
Polymer International, 66, (7), 1055-1063, (2017)
Di Bello PM et al., A New Ion-Imprinted Chitosan-Based Membrane with an Azo-Derivative Ligand for the Efficient Removal of Pd(II).
Materials, 10, (10), ArticleNo1133-(2017)
Mergola L et al., Urinary l-kynurenine quantification and selective extraction through a molecularly imprinted solid-phase extraction device.
Journal of Separation Science, 41, (16), 3204-3212, (2018)
Abstracts of Papers of the American Chemical Society, 226, (COLL), 115-115, (2003)
Abstracts of Papers of the American Chemical Society, 225, (COLL), 286-286, (2003)
Chromatographia, 75, (15), 815-838, (2012)
Scriba GKE, Chiral recognition in separation science - an update.
Journal of Chromatography A, 1467, 56-78, (2016)
Current Organic Chemistry, 13, (11), 1050-1064, (2009)
Molecules, 23, (1), ArticleNo63-(2018)
Parisi OI et al., Smart Bandage Based on Molecularly Imprinted Polymers (MIPs) for Diclofenac Controlled Release.
Pharmaceuticals, 11, (4), ArticleNo93-(2018)
Scrivano L et al., Molecularly imprinted hydrogels for sustained release of sunitinib in breast cancer therapy.
Polymers for Advanced Technologies, 30, (3), 743-748, (2019)
Macromolecules, 44, (10), 3966-3972, (2011)
Zayats M et al., Protein imprinting in polyacrylamide-based gels.
Biomaterials, 35, (30), 8659-8668, (2014)
Journal of Chromatography A, 887, (1-2), 137-163, (2000)
Journal of Molecular Recognition, 33, (4), Article_e2824-(2020)
Journal of Macromolecular Science, Part A, 55, (6), 455-465, (2018)
Sebastian M et al., Ion imprinting approach for the fabrication of an electrochemical sensor and sorbent for lead ions in real samples using modified multiwalled carbon nanotubes.
Journal of Materials Science, 53, (5), 3557-3572, (2018)
Chemistry of Materials, 23, (5), 1280-1287, (2011)
Science of The Total Environment, 631-632, 1534-1543, (2018)
Langmuir, 28, (16), 6638-6644, (2012)
Talanta, 165, 231-239, (2017)
Journal of Colloid and Interface Science, 503, 47-56, (2017)
Sedghi R et al., Novel magnetic ion-imprinted polymer: an efficient polymeric nanocomposite for selective separation and determination of Pb ions in aqueous media.
Environmental Science and Pollution Research, 25, (26), 26297-26306, (2018)
Sedghi R et al., Thermo-responsive molecularly imprinted polymer containing magnetic nanoparticles: Synthesis, characterization and adsorption properties for curcumin.
Colloids and Surfaces B: Biointerfaces, 162, 154-162, (2018)
Sedghi R et al., Corrigendum to "Novel molecularly imprinted polymer based on [beta]-cyclodextrin@graphene oxide: Synthesis and its application for selective diphenylamine determination" [J. Colloid Interface Sci. 503 (2017) 47-56].
Journal of Colloid and Interface Science, 533, 781-781, (2019)
Shahnazi A et al., Synthesis of surface molecularly imprinted poly-o-phenylenediamine/TiO2/carbon nanodots with a highly enhanced selective photocatalytic degradation of pendimethalin herbicide under visible light.
Reactive and Functional Polymers, 151, Article104580-(2020)
Iranian Journal of Public Health, 43, (5), 645-657, (2014)
Omidi F et al., Application of molecular imprinted polymer nanoparticles as a selective solid phase extraction for preconcentration and trace determination of 2, 4-dichlorophenoxyacetic acid in the human urine and different water samples.
Journal of Environmental Health Science and Engineering, 12, Article No 137-(2014)
Sensors and Actuators B: Chemical, 346, Article130474-(2021)
Russian Journal of Physical Chemistry, 75, (11), 1871-1875, (2001)
Journal of Separation Science, 29, (18), 2810-2815, (2006)
Sedzik J et al., Book chapter, Gels Mimicking Antibodies in Their Selective Recognition of Proteins and Its Potential Use for Protein Crystallization,
In: Molecules: Nucleation, Aggregation And Crystallization, Sedzik J, Riccio P (Eds.) World Scientific: 11-34, (2009)
Journal of Chromatography A, 1217, (11), 1767-1772, (2010)
Analytica Chimica Acta, 591, (1), 57-62, (2007)
Journal of Electroanalytical Chemistry, 710, 22-28, (2013)
Journal of Chromatography A, 1114, (2), 239-249, (2006)
Suedee R et al., Recognition Properties and Competitive Assays of a Dual Dopamine/Serotonin Selective Molecularly Imprinted Polymer.
International Journal of Molecular Sciences, 9, (12), 2333-2356, (2008)
Seechamnanturakit V et al., The Synthesis and Characterisation of Retinol-molecularly Imprinted Polymers as a Selective Sorbent in Solid-phase Extraction.
International Journal of Applied Science and Technology, 2, (7), 81-93, (2012)
European Cells and Materials, 20, (Suppl 3), 86-86, (2010)
Fukazawa K et al., Direct observation of selective protein capturing on molecular imprinting substrates.
Biosensors and Bioelectronics, 40, (1), 96-101, (2013)
Food Chemistry, 334, Article127345-(2021)
Talanta, 69, (1), 259-266, (2006)
de Avila TC et al., Employ of Silica Gel Organically Modified and Ionically Imprinted for Selective On-Line Preconcentration of Copper Ions.
Quimica Nova, 33, (2), 301-308, (2010)
Nacano LR et al., Selective Sorbent Enrichment of Nickel Ions from Aqueous Solutions using a Hierarchically Hybrid Organic-Inorganic Polymer Based on Double Imprinting Concept.
Journal of the Brazilian Chemical Society, 21, (3), 419-430, (2010)
Segatelli MG et al., Cadmium ion-selective sorbent preconcentration method using ion imprinted poly(ethylene glycol dimethacrylate-co-vinylimidazole).
Reactive and Functional Polymers, 70, (6), 325-333, (2010)
Sartori LR et al., Flow-based method for epinephrine determination using a solid reactor based on molecularly imprinted poly(FePP-MAA-EGDMA).
Materials Science and Engineering: C, 31, (2), 114-119, (2011)
Tarley CRT et al., Synthesis and application of imprinted polyvinylimidazole-silica hybrid copolymer for Pb2+ determination by flow-injection thermospray flame furnace atomic absorption spectrometry.
Analytica Chimica Acta, 703, (2), 145-151, (2011)
Tarley CRT et al., Enhanced Selectivity and Sensitivity for Flow Injection Spectrophotometric Determination of Cobalt Using Solid Phase Extraction with a 2D Ion-Imprinted Adsorbent.
Analytical Letters, 44, (1), 216-231, (2011)
Tarley CRT et al., Ion-imprinted polyvinylimidazole-silica hybrid copolymer for selective extraction of Pb(II): Characterization and metal adsorption kinetic and thermodynamic studies.
Reactive and Functional Polymers, 72, (1), 83-91, (2012)
de Oliveira FM et al., Kinetic and Isotherm Studies of Ni2+ Adsorption on Poly(methacrylic acid) Synthesized through a Hierarchical Double-Imprinting Method Using a Ni2+ Ion and Cationic Surfactant as Templates.
Industrial & Engineering Chemistry Research, 52, (25), 8550-8557, (2013)
Marestoni LD et al., Ion imprinted polymers: fundamentals, preparation strategies and applications in analytical chemistry.
Quimica Nova, 36, (8), 1194-1207, (2013)
de Oliveira FM et al., Application of Ni(II)-imprinted cross-linked poly(methacrylic acid) synthesised through double-imprinting method for the on-line preconcentration of Ni(II) ions in aqueous media.
International Journal of Environmental Analytical Chemistry, 94, (10), 1061-1071, (2014)
dos Santos QO et al., Synthesis, characterization and application of ion imprinted poly(vinylimidazole) for zinc ion extraction/preconcentration with FAAS determination.
Quimica Nova, 37, (1), 63-68, (2014)
Germiniano TO et al., Double-Imprinted Cross-Linked Poly(Acrylamide-co-Ethylene Glycol Dimethacrylate) as a Novel Sorbent for the On-Line Preconcentration and Determination of Copper(II) by Flame Atomic Absorption Spectrometry.
Analytical Letters, 48, (1), 61-74, (2014)
Germiniano TO et al., Synthesis of novel copper ion-selective material based on hierarchically imprinted cross-linked poly(acrylamide-co-ethylene glycol dimethacrylate).
Reactive and Functional Polymers, 82, 72-80, (2014)
Tarley CRT et al., Preparation of new ion-selective cross-linked poly(vinylimidazole-co-ethylene glycol dimethacrylate) using a double-imprinting process for the preconcentration of Pb2+ ions.
Journal of Colloid and Interface Science, 450, 254-263, (2015)
de Oliveira FM et al., Hybrid molecularly imprinted poly(methacrylic acid-TRIM)-silica chemically modified with (3-glycidyloxypropyl)trimethoxysilane for the extraction of folic acid in aqueous medium.
Materials Science and Engineering: C, 59, 643-651, (2016)
de Oliveira FM et al., Evaluation of a new water-compatible hybrid molecularly imprinted polymer combined with restricted access for the selective recognition of folic acid in binding assays.
Journal of Applied Polymer Science, 133, (21), ArticleNo43463-(2016)
dos Santos Moretti E et al., Synthesis of Surface Molecularly Imprinted Poly(methacrylic acid-hemin) on Carbon Nanotubes for the Voltammetric Simultaneous Determination of Antioxidants from Lipid Matrices and Biodiesel.
Electrochimica Acta, 212, 322-332, (2016)
Oliveira FM et al., Preparation of a new restricted access molecularly imprinted hybrid adsorbent for the extraction of folic acid from milk powder samples.
Analytical Methods, 8, (3), 656-665, (2016)
Basaglia AM et al., Synthesis of Pb(II)-imprinted poly(methacrylic acid) polymeric particles loaded with 1-(2-pyridylazo)-2-naphthol (PAN) for micro-solid phase preconcentration of Pb2+ on-line coupled to flame atomic absorption spectrometry.
RSC Advances, 7, (52), 33001-33011, (2017)
Tarley CRT et al., Preparation and application of nanocomposite based on imprinted poly(methacrylic acid)-PAN/MWCNT as a new electrochemical selective sensing platform of Pb2+ in water samples.
Journal of Electroanalytical Chemistry, 801, 114-121, (2017)
Tarley CRT et al., On-line micro-solid phase preconcentration of Cd2+ coupled to TS-FF-AAS using a novel ion-selective bifunctional hybrid imprinted adsorbent.
Microchemical Journal, 131, 57-69, (2017)
Casarin J et al., Insight into the performance of molecularly imprinted poly(methacrylic acid) and polyvinylimidazole for extraction of imazethapyr in aqueous medium.
Chemical Engineering Journal, 343, 583-596, (2018)
Kuceki M et al., Selective and sensitive voltammetric determination of folic acid using graphite/restricted access molecularly imprinted poly(methacrylic acid)/SiO2 composite.
Journal of Electroanalytical Chemistry, 818, 223-230, (2018)
de Cássia Mendonça J et al., Design and performance of novel molecularly imprinted biomimetic adsorbent for preconcentration of prostate cancer biomarker coupled to electrochemical determination by using multi-walled carbon nanotubes/NafionŽ/Ni(OH)2-modified screen-printed electrode.
Journal of Electroanalytical Chemistry, 878, Article114582-(2020)
de Oliveira LLG et al., Restricted access material-ion imprinted polymer-based method for on-line flow preconcentration of Cd2+ prior to flame atomic absorption spectrometry determination.
Microchemical Journal, 157, Article105022-(2020)
Procedia Engineering, 168, 497-500, (2016)
Analytical Chemistry, 82, (7), 3052-3060, (2010)
Oliveira HM et al., Exploiting automatic on-line renewable molecularly imprinted solid-phase extraction in lab-on-valve format as front end to liquid chromatography: application to the determination of riboflavin in foodstuffs.
Analytical and Bioanalytical Chemistry, 397, (1), 77-86, (2010)
Miró M et al., Analytical potential of mesofluidic lab-on-a-valve as a front end to column-separation systems.
TrAC Trends in Analytical Chemistry, 30, (1), 153-164, (2011)
Osório MV et al., Fluorometric method based on molecular recognition solid-phase extraction for determination of riboflavin in milk and infant formula.
Journal of Food Composition and Analysis, 45, 141-146, (2016)
Analytical Chemistry, 77, (21), 7005-7011, (2005)
Journal of Pharmaceutical and Biomedical Analysis, 31, (5), 859-865, (2003)
Chemical Communications, (25), 3224-3226, (2005)
Medina-Castillo AL et al., A semi-empirical model to simplify the synthesis of homogeneous and transparent cross-linked polymers and their application in the preparation of optical sensing films.
Biosensors and Bioelectronics, 25, (2), 442-449, (2009)
Valero-Navarro A et al., Chemometric-assisted MIP-optosensing system for the simultaneous determination of monoamine naphthalenes in drinking waters.
Talanta, 78, (1), 57-65, (2009)
Valero-Navarro A et al., The development of a MIP-optosensor for the detection of monoamine naphthalenes in drinking water.
Biosensors and Bioelectronics, 24, (7), 2305-2311, (2009)
Medina-Castillo AL et al., Novel Strategy To Design Magnetic, Molecular Imprinted Polymers with Well-Controlled Structure for the Application in Optical Sensors.
Macromolecules, 43, (1), 55-61, (2010)
Valero-Navarro A et al., Synthesis of caffeic acid molecularly imprinted polymer microspheres and high-performance liquid chromatography evaluation of their sorption properties.
Journal of Chromatography A, 1218, (41), 7289-7296, (2011)
Biosensors and Bioelectronics, 172, Article112719-(2021)
Biosensors and Bioelectronics, 166, Article112464-(2020)
Sehit E et al., Ultrasensitive nonenzymatic electrochemical glucose sensor based on gold nanoparticles and molecularly imprinted polymers.
Biosensors and Bioelectronics, 165, Article112432-(2020)
Chemistry of Materials, 10, (12), 4037-4046, (1998)
Journal of Inclusion Phenomena and Macrocyclic Chemistry, 43, (3-4), 279-283, (2002)
Analytica Chimica Acta, 591, (1), 57-62, (2007)
AIDS & Clinical Research, 5, (5), Article 304-(2014)
Talanta, 132, 339-353, (2015)
Asiabi H et al., Preparation and evaluation of a novel molecularly imprinted polymer coating for selective extraction of indomethacin from biological samples by electrochemically controlled in-tube solid phase microextraction.
Analytica Chimica Acta, 913, 76-85, (2016)
Sensor Letters, 6, (4), 641-645, (2008)
Jenik M et al., Sensors for bioanalytes by imprinting--Polymers mimicking both biological receptors and the corresponding bioparticles.
Biosensors and Bioelectronics, 25, (1), 9-14, (2009)
Seidler K et al., Biomimetic Yeast Cell Typing-Application of QCMs.
Sensors, 9, (10), 8146-8157, (2009)
Seidler K et al., Application of yeast imprinting in biotechnology and process control.
Analyst, 134, (2), 361-366, (2009)
International Journal of Pharmaceutics, 471, (1-2), 37-44, (2014)
Bakhshizadeh M et al., TiO2-based mitoxantrone imprinted poly (methacrylic acid-co-polycaprolctone diacrylate) nanoparticles as a drug delivery system.
Current Pharmaceutical Design, 23, (18), 2685-2694, (2017)
Bakhshizadeh M et al., Utilizing photosensitizing and radiosensitizing properties of TiO2-based mitoxantrone imprinted nanopolymer in fibrosarcoma and melanoma cells.
Photodiagnosis and Photodynamic Therapy, 25, 472-479, (2019)
VDI Berichte, 2011, 43-52, (2008)
Dickert FL et al., Proceeding, Sensors for Healthcare Monitoring - Proteins, Viruses and Blood-Group-Typing,
Dössel O, Schlegel WC (Eds.), 325-328, (2009)
Jenik M et al., Sensors for bioanalytes by imprinting--Polymers mimicking both biological receptors and the corresponding bioparticles.
Biosensors and Bioelectronics, 25, (1), 9-14, (2009)
Jenik M et al., Pollen-imprinted polyurethanes for QCM allergen sensors.
Analytical and Bioanalytical Chemistry, 394, (2), 523-528, (2009)
Seifner A et al., Synthetic receptors for selectively detecting erythrocyte ABO subgroups.
Analytica Chimica Acta, 651, (2), 215-219, (2009)
Schirhagl R et al., Antibodies and Their Replicae in Microfluidic Sensor Systems-Labelfree Quality Assessment in Food Chemistry and Medicine.
Sensor Letters, 8, (3), 399-404, (2010)
Talanta, 99, 816-823, (2012)
Henry N et al., Synthesis of a molecularly imprinted polymer to isolate glucosamine from plant extracts by an ionic - non-covalent dual approach.
International Journal of Cosmetic Science, 37, (2), 196-206, (2015)
Analytica Chimica Acta, 631, (2), 237-244, (2009)
Feás X et al., Use of acrylic acid in the synthesis of molecularly imprinted polymers for the analysis of cyproheptadine.
Materials Science and Engineering: C, 29, (2), 398-404, (2009)
Abstracts of Papers of the American Chemical Society, 227, (IEC), 166-166, (2004)
Grenier CJ et al., Rapid, High Affinity Binding by a Fluorescein Templated Copolymer Combining Covalent, Hydrophobic, and Acid-Base Noncovalent Crosslinks.
Sensors, 18, (5), ArticleNo1330-(2018)
Ahmad HMN et al., Proceeding, Non-Enzymatic Electrochemical Detection Of Glutamate Using Templated Polymer-Based Target Receptors,
613-616, (2019)
Chemical Engineering Journal, 359, 505-517, (2019)
Arabian Journal of Chemistry, 9, (Supplement 2), S1793-S1800, (2016)
Scientific and Technical Journal of Information Technologies, Mechanics and Optics, 15, (4), 568-577, (2015)
Abstracts of Papers of the American Chemical Society, 220, (INOR), 431-431, (2000)
Nickel AML et al., Imprinted poly(acrylic acid) films on cadmium selenide. A composite sensor structure that couples selective amine binding with semiconductor substrate photoluminescence.
Chemistry of Materials, 13, (4), 1391-1397, (2001)
Biosensors and Bioelectronics, 21, (12), 2339-2344, (2006)
Baghel A et al., Synthesis and characterization of metal ion imprinted nano-porous polymer for the selective recognition of copper.
Biosensors and Bioelectronics, 22, (12), 3326-3334, (2007)
Microsystem Technologies, 24, (10), 4225-4235, (2018)
Microchemical Journal, 159, Article105489-(2020)
Sensors and Actuators B: Chemical, 259, 455-462, (2018)
Yoshimi Y et al., Corrigendum to "Blood heparin sensor made from a paste electrode of graphite particles grafted with molecularly imprinted polymer" [Sens. Actuators B: Chem. 259 (2018) 455-462].
Sensors and Actuators B: Chemical, 333, Article129588-(2021)
Chem Sens, 21, (Supplement B), 22-24, (2005)
Yoshimi Y et al., Development of an enzyme-free glucose sensor using the gate effect of a molecularly imprinted polymer.
Journal of Artificial Organs, 12, (4), 264-270, (2009)
Yoshimi Y et al., Chiral-Discriminative Gate Effect in Self-Supporting Phenylalanine-Imprinted Poly(Methacrylic Acid-co-2-Vinylpyridine-co-Triethyleneglycol Dimethacrylate) Membrane.
Journal of Chemical Engineering of Japan, 42, (8), 600-606, (2009)
(2006)
Sekine SI et al., Proceeding, Development of an amperometric sensor for chiral recognition in organic solvent using the gate effect of molecularly imprinted polymer,
(2006)
Yoshimi Y et al., Star shaped molecularly imprinted polymer.
Polymer Preprints, Japan, 55, (2), 5404-5405, (2006)
Sekine SI et al., Influence of solvents on chiral discriminative gate effect of molecularly imprinted poly(ethylene glycol dimethacrylate-co-methacrylic acid).
Sensors and Actuators B: Chemical, 127, (2), 512-517, (2007)
Sensors and Actuators B: Chemical, 124, (2), 398-406, (2007)
Instrumentation Science & Technology, 29, (1), 1-9, (2001)
Takeuchi T et al., Molecularly imprinted polymers with signaling function based on the UV-Vis spectral change by diastereoselective binding events.
Bulletin of the Chemical Society of Japan, 78, (2), 356-360, (2005)
Journal of Separation Science, 36, (3), 578-584, (2013)
Electrochimica Acta, 194, 292-303, (2016)
Chemosensors, 9, (7), ArticleNo151-(2021)
Journal of Environmental Chemical Engineering, 8, (3), Article103737-(2020)
Journal of Analytical Chemistry, 65, (1), 91-93, (2010)
Zyablov AN et al., Monitoring of valine with a modified piezoelectric sensor coupled to ion-exchange isolation.
Journal of Analytical Chemistry, 68, (4), 305-306, (2013)
Cao NL et al., Modeling of palmitic and oleic acids imprinted polymers based on polyamidoacid.
Sorption and Chromatographic Processes, 15, (4), 421-428, (2015)
Duvanova OV et al., Use of Piezoelectric Sensors for the Determination of Oleic and Palmitic Acids in Vegetable Oils.
Inorganic Materials, 54, (14), 1387-1391, (2018)
Lab on a Chip, 13, (9), 1662-1665, (2013)
Langmuir, 25, (10), 5602-5608, (2009)
Tetrahedron Letters, 25, (45), 5211-5214, (1984)
Glad M et al., Use of silane monomers for molecular imprinting and enzyme entrapment in polysiloxane-coated porous silica.
Journal of Chromatography, 347, (1), 11-23, (1985)
Sellergren B et al., Molecular imprinting of amino-acid derivatives in macroporous polymers - demonstration of substrate-selectivity and enantio-selectivity by chromatographic resolution of racemic mixtures of amino-acid derivatives.
Journal of Chromatography, 347, (1), 1-10, (1985)
Sellergren B et al., Highly enantioselective and substrate-selective polymers obtained by molecular imprinting utilizing noncovalent interactions - NMR and chromatographic studies on the nature of recognition.
Journal of the American Chemical Society, 110, (17), 5853-5860, (1988)
Sellergren B et al., Enantio-selective and substrate-selective macroporous polymers by molecular imprinting.
Reactive Polymers, Ion Exchangers, Sorbents, 9, (1), 125-125, (1988)
Lepistö M et al., Discrimination between amino-acid amide conformers by imprinted polymers.
Journal of Organic Chemistry, 54, (26), 6010-6012, (1989)
Sellergren B, Molecular imprinting by noncovalent interactions - tailor-made chiral stationary phases of high selectivity and sample load-capacity.
Chirality, 1, (1), 63-68, (1989)
Sellergren B et al., Molecular imprinting by multiple noncovalent host-guest interactions: synthetic polymers with induced specificity.
Methods in Molecular and Cellular Biology, 59-62, (1989)
Sellergren B, Molecular imprinting by noncovalent interactions - enantioselectivity and binding-capacity of polymers prepared under conditions favoring the formation of template complexes.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 190, (11), 2703-2711, (1989)
Sellergren B et al., Molecular recognition in macroporous polymers prepared by a substrate-analog imprinting strategy.
Journal of Organic Chemistry, 55, (10), 3381-3383, (1990)
Sellergren B, Book chapter, Molecular Imprinting by non-covalent interactions,
In: Innovations and Perspectives in Solid Phase Synthesis. Peptides, Polypeptides and Oligonucleotides, Epton R (Ed.) SPCC (UK): Birmingham, 293-307, (1990)
Sellergren B et al., Influence of polymer morphology on the ability of imprinted network polymers to resolve enantiomers.
Journal of Chromatography, 635, (1), 31-49, (1993)
Sellergren B et al., Chiral ion-exchange chromatography - correlation between solute retention and a theoretical ion-exchange model using imprinted polymers.
Journal of Chromatography A, 654, (1), 17-28, (1993)
Shea KJ et al., Polymer complements to nucleotide bases - selective binding of adenine-derivatives to imprinted polymers.
Journal of the American Chemical Society, 115, (8), 3368-3369, (1993)
Nilsson K et al., Imprinted polymers as antibody mimetics and new affinity gels for selective separations in capillary electrophoresis.
Journal of Chromatography A, 680, (1), 57-61, (1994)
Sellergren B, Book chapter, Enantiomer separation using tailor-made phases prepared by molecular imprinting,
In: A Practical Approach to Chiral Separations by Liquid Chromatography, Subramanian G (Ed.) Wiley-VCH: Weinheim, Ch. 4, 69-93, (1994)
Sellergren B, Direct drug determination by selective sample enrichment on an imprinted polymer.
Analytical Chemistry, 66, (9), 1578-1582, (1994)
Sellergren B et al., Enantioselective ester hydrolysis catalyzed by imprinted polymers.
Tetrahedron: Asymmetry, 5, (8), 1403-1406, (1994)
Sellergren B, Imprinted dispersion polymers - a new class of easily accessible affinity stationary phases.
Journal of Chromatography A, 673, (1), 133-141, (1994)
Sellergren B et al., Origin of peak asymmetry and the effect of temperature on solute retention in enantiomer separations on imprinted chiral stationary phases.
Journal of Chromatography A, 690, (1), 29-39, (1995)
Dauwe C et al., Influence of template basicity and hydrophobicity on the molecular recognition properties of molecularly imprinted polymers.
Journal of Chromatography A, 753, (2), 191-200, (1996)
Sellergren B et al., Solvent dependent specific driving forces in the molecular recognition in imprinted polymers.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 27-27, (1997)
Sellergren B et al., Pressure-induced binding sites in molecularly imprinted network polymers.
Macromolecules, 30, (8), 2454-2459, (1997)
Sellergren B, Noncovalent molecular imprinting: Antibody-like molecular recognition in polymeric network materials.
TrAC Trends in Analytical Chemistry, 16, (6), 310-320, (1997)
Sellergren B, Imprinted Polymers: Stable, reusable antibody-mimics for highly selective separations.
International Laboratory, (July), 10A-10F, (1997)
Sellergren B, Imprinted polymers: Stable, reusable antibody-mimics for highly selective separations.
American Laboratory, 29, 14-14, (1997)
Sellergren B, Important considerations in the ''design'' of receptor sites using noncovalent imprinting.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 97-97, (1997)
Armstrong DW et al., Bubble fractionation of enatiomers from solution using molecularly imprinted polymers as collectors.
Analytical Chemistry, 70, (17), 3717-3719, (1998)
Sajonz P et al., Study of the thermodynamics and mass transfer kinetics of two enantiomers on a polymeric imprinted stationary phase.
Journal of Chromatography A, 810, (1-2), 1-17, (1998)
Sellergren B, Molecular imprinting for selective solid-phase extractions in bioanalysis.
Journal de Pharmacie de Belgique, 53, (3), 121-121, (1998)
Sellergren B, Book chapter, Important considerations in the design of receptor sites using noncovalent imprinting,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 4, 49-80, (1998)
Sellergren B et al., Imprinted polymers for selective adsorption of cholesterol from gastrointestinal fluids.
Chemistry of Materials, 10, (12), 4037-4046, (1998)
Zander A et al., Analysis of nicotine and its oxidation products in nicotine chewing gum by a molecularly imprinted solid phase extraction.
Analytical Chemistry, 70, (15), 3304-3314, (1998)
Chen YB et al., Influence of thermal annealing on the thermodynamic and mass transfer kinetic properties of D- and L-phenylalanine anilide on imprinted polymeric stationary phases.
Analytical Chemistry, 71, (5), 928-938, (1999)
Lanza F et al., Method for synthesis and screening of large groups of molecularly imprinted polymers.
Analytical Chemistry, 71, (11), 2092-2096, (1999)
Mullett WM et al., Determination of nicotine in tobacco by molecularly imprinted solid phase extraction with differential pulsed elution.
Analytical Communications, 36, (6), 217-220, (1999)
Sellergren B, Polymer- and template-related factors influencing the efficiency in molecularly imprinted solid-phase extractions.
TrAC Trends in Analytical Chemistry, 18, (3), 164-174, (1999)
Ellwanger A et al., Application of molecularly imprinted polymers in supercritical fluid chromatography.
Journal of Chromatography A, 897, (1-2), 317-327, (2000)
Ferrer I et al., Selective trace enrichment of chlorotriazine pesticides from natural waters and sediment samples using terbuthylazine molecularly imprinted polymers.
Analytical Chemistry, 72, (16), 3934-3941, (2000)
Sellergren B et al., Enantioselective ester hydrolysis catalyzed by imprinted polymers. 2.
Journal of Organic Chemistry, 65, (13), 4009-4027, (2000)
Sellergren B, Imprinted polymers with memory for small molecules, proteins, or crystals.
Angewandte Chemie International Edition, 39, (6), 1031-1037, (2000)
Sellergren B et al., Application of imprinted synthetic polymers in binding assay development.
Methods-A Companion To Methods In Enzymology, 22, (1), 92-106, (2000)
Bereczki A et al., Determination of phenytoin in plasma by molecularly imprinted solid-phase extraction.
Journal of Chromatography A, 930, (1-2), 31-38, (2001)
Chen YB et al., Influence of the pH on the behavior of an imprinted polymeric stationary phase - supporting evidence for a binding site model.
Journal of Chromatography A, 927, (1-2), 1-17, (2001)
Ellwanger A et al., Evaluation of methods aimed at complete removal of template from molecularly imprinted polymers.
Analyst, 126, (6), 784-792, (2001)
Koeber R et al., Evaluation of a multidimensional solid-phase extraction platform for highly selective on-line cleanup and high- throughput LC-MS analysis of triazines in river water samples using molecularly imprinted polymers.
Analytical Chemistry, 73, (11), 2437-2444, (2001)
Lanza F et al., The application of molecular imprinting technology to solid phase extraction.
Chromatographia, 53, (11-12), 599-611, (2001)
Lanza F et al., Development of a semiautomated procedure for the synthesis and evaluation of molecularly imprinted polymers applied to the search for functional monomers for phenytoin and nifedipine.
Analytica Chimica Acta, 435, (1), 91-106, (2001)
Lanza F et al., Book chapter, Molecularly imprinted extraction materials for highly selective sample cleanup and analyte enrichment,
In: Advances in Chromatography, Brown PR, Grushka E (Eds.) Marcel Dekker: Ch. 4, 137-173, (2001)
Quaglia M et al., Target analogue imprinted polymers with affinity for folic acid and related compounds.
Journal of the American Chemical Society, 123, (10), 2146-2154, (2001)
Quaglia M et al., Surface initiated molecularly imprinted polymer films: a new approach in chiral capillary electrochromatography.
Analyst, 126, (9), 1495-1498, (2001)
Sellergren B et al., Book chapter, Molecularly imprinted polymers in solid phase extractions,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 15, 355-375, (2001)
Sellergren B, Book chapter, The non-covalent approach to molecular imprinting,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 5, 113-184, (2001)
Sellergren B, Book chapter, Enantiomer separations using designed imprinted chiral phases,
In: Chiral Separation Techniques: A Practical Approach, Subramanian G (Ed.) Wiley-VCH Verlag GmbH: Weinheim, Ch. 6, 153-184, (2001)
Sellergren B et al., Book chapter, Fundamentals aspects on the synthesis and characterization of imprinted network polymers,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 2, 21-57, (2001)
Sellergren B, Imprinted chiral stationary phases in high-performance liquid chromatography.
Journal of Chromatography A, 906, (1-2), 227-252, (2001)
Blomgren A et al., Extraction of clenbuterol from calf urine using a molecularly imprinted polymer followed by quantitation by high-performance liquid chromatography with UV detection.
Journal of Chromatography A, 975, (1), 157-164, (2002)
Dirion B et al., Selective solid phase extraction of a drug lead compound using molecularly imprinted polymers prepared by the target analogue approach.
Chromatographia, 56, (3-4), 237-241, (2002)
Pap T et al., Effect of solvents on the selectivity of terbutylazine imprinted polymer sorbents used in solid-phase extraction.
Journal of Chromatography A, 973, (1-2), 1-12, (2002)
Rückert B et al., Molecularly imprinted composite materials via iniferter-modified supports.
Journal of Materials Chemistry, 12, (8), 2275-2280, (2002)
Sellergren B et al., Layer-by-layer grafting of molecularly imprinted polymers via iniferter modified supports (vol 14, pg 1204, 2002).
Advanced Materials, 14, (19), 1335-1335, (2002)
Sellergren B et al., Layer-by-layer grafting of molecularly imprinted polymers via iniferter modified supports.
Advanced Materials, 14, (17), 1204-1208, (2002)
Sulitzky C et al., Grafting of molecularly imprinted polymer films on silica supports containing surface-bound free radical initiators (vol 35, pg 79, 2002).
Macromolecules, 35, (8), 3314-3314, (2002)
Sulitzky C et al., Grafting of molecularly imprinted polymer films on silica supports containing surface-bound free radical initiators.
Macromolecules, 35, (1), 79-91, (2002)
Szabelski P et al., Energetic heterogeneity of the surface of a molecularly imprinted polymer studied by high-performance liquid chromatography.
Journal of Chromatography A, 964, (1-2), 99-111, (2002)
Titirici MM et al., Hierarchically imprinted stationary phases: Mesoporous polymer beads containing surface-confined binding sites for adenine.
Chemistry of Materials, 14, (1), 21-23, (2002)
Chapuis F et al., Optimization of the class-selective extraction of triazines from aqueous samples using a molecularly imprinted polymer by a comprehensive approach of the retention mechanism.
Journal of Chromatography A, 999, (1-2), 23-33, (2003)
Dirion B et al., Water-compatible molecularly imprinted polymers obtained via high-throughput synthesis and experimental design.
Journal of the American Chemical Society, 125, (49), 15101-15109, (2003)
Hall AJ et al., A substructure approach toward polymeric receptors targeting dihydrofolate reductase inhibitors. 2. Molecularly imprinted polymers against Z-L-glutamic acid showing affinity for larger molecules.
Journal of Organic Chemistry, 68, (23), 9132-9135, (2003)
Quaglia M et al., Molecularly imprinted polymer films grafted from porous or nonporous silica: Novel affinity stationary phases in capillary electrochromatography.
Electrophoresis, 24, (6), 952-957, (2003)
Sellergren B, Book chapter, Imprinted Monoliths,
In: Monolithic Materials - Preparation, Properties and Applications, Svec F, Tennikova TB, Deyl Z (Eds.) Elsevier: Ch. 13, 277-300, (2003)
Sellergren B, Making the most of MIPs: Report on MIP 2002 (the Second International Workshop on Molecularly Imprinted Polymers and Related Technologies), held at La Grande Motte, France, 16-19 September 2002.
TrAC Trends in Analytical Chemistry, 22, (2), xii-xxii, (2003)
Stanley BJ et al., Affinity distributions of a molecularly imprinted polymer calculated numerically by the expectation-maximization method.
Langmuir, 19, (3), 772-778, (2003)
Titirici MM et al., Hierarchical imprinting using crude solid phase peptide synthesis products as templates.
Chemistry of Materials, 15, (4), 822-824, (2003)
Chapuis F et al., Retention mechanism of analytes in the solid-phase extraction process using molecularly imprinted polymers - Application to the extraction of triazines from complex matrices.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 93-101, (2004)
Chassaing C et al., Molecularly imprinted polymers for the determination of a pharmaceutical development compound in plasma using 96-well MISPE technology.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 71-81, (2004)
Dirion B et al., Book chapter, Development of a high throughput synthesis technique for the optimization of MIPs for 17[beta]-estradiol,
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 9, 53-60, (2004)
Lanza F et al., Molecularly imprinted polymers via high-throughput and combinatorial techniques.
Macromolecular Rapid Communications, 25, (1), 59-68, (2004)
Machtejevas E et al., Screening of oxazepine indole enantiomers by means of high performance liquid chromatography with imprinted polymer stationary phase.
Journal of Separation Science, 27, (7-8), 547-551, (2004)
Manesiotis P et al., An enantioselective imprinted receptor for Z-glutamate exhibiting a binding induced color change.
Chemical Communications, (20), 2278-2279, (2004)
Quaglia M et al., Approaches to imprinted stationary phases for affinity capillary electrochromatography.
Journal of Chromatography A, 1044, (1-2), 53-66, (2004)
Titirici MM et al., Peptide recognition via hierarchical imprinting.
Analytical and Bioanalytical Chemistry, 378, (8), 1913-1921, (2004)
Hall AJ et al., Book chapter, Imprinted polymers,
In: Templates in Chemistry II, Schalley CA, Vögtle F, Dötz KH (Eds.) Springer Verlag: Berlin, Ch. 7, 317-349, (2005)
Hall AJ et al., Urea host monomers for stoichiometric molecular imprinting of oxyanions.
Journal of Organic Chemistry, 70, (5), 1732-1736, (2005)
Hall AJ et al., Non-covalent imprinting of phosphorous esters.
Analytica Chimica Acta, 538, (1-2), 9-14, (2005)
Hall AJ et al., Erratum to "Non-covalent imprinting of phosphorous esters": [Analytica Chimica Acta 538 (2005) 9-14].
Analytica Chimica Acta, 540, (2), 417-417, (2005)
Lanza F et al., Book chapter, Combinatorial approaches to molecular imprinting,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 8, 225-248, (2005)
Manesiotis P et al., Improved imide receptors by imprinting using pyrimidine-based fluorescent reporter monomers.
Journal of Organic Chemistry, 70, (7), 2729-2738, (2005)
Manesiotis P et al., An artificial riboflavin receptor prepared by a template analogue imprinting strategy.
Angewandte Chemie International Edition, 44, (25), 3902-3906, (2005)
Sellergren B et al., Molecularly imprinted polymers: A bridge to advanced drug delivery.
Advanced Drug Delivery Reviews, 57, (12), 1733-1741, (2005)
Tamayo FG et al., Synthesis and evaluation of new propazine-imprinted polymer formats for use as stationary phases in liquid chromatography.
Analytica Chimica Acta, 542, (1), 38-46, (2005)
Xia Y et al., Analysis of the Tobacco-Specific Nitrosamine 4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanol in Urine by Extraction on a Molecularly Imprinted Polymer Column and Liquid Chromatography/Atmospheric Pressure Ionization Tandem Mass Spectrometry.
Analytical Chemistry, 77, (23), 7639-7645, (2005)
Courtois J et al., Molecularly imprinted polymers grafted to flow through poly(trimethylolpropane trimethacrylate) monoliths for capillary-based solid-phase extraction.
Journal of Chromatography A, 1109, (1), 92-99, (2006)
Hall AJ et al., Polymeric Receptors for the Recognition of Folic Acid and Related Compounds via Substructure Imprinting.
Analytical Chemistry, 78, (24), 8362-8367, (2006)
Sellergren B, Ionization State Selective Modification of Carboxyl Groups in Molecularly Imprinted Polymers: Supporting Evidence for a Binding Site Model.
Macromolecules, 39, (18), 6306-6309, (2006)
Sellergren B, Book chapter, Recognition of enantiomers using molecularly imprinted polymers,
In: Molecular imprinting of polymers, Piletsky S, Turner A (Eds.) Landes Bioscience: Georgetown, Texas, Ch. 8, 95-121, (2006)
Titirici MM et al., Thin molecularly imprinted polymer films via reversible addition-fragmentation chain transfer polymerization.
Chemistry of Materials, 18, (7), 1773-1779, (2006)
Urraca JL et al., A Stoichiometric Molecularly Imprinted Polymer for the Class-Selective Recognition of Antibiotics in Aqueous Media.
Angewandte Chemie International Edition, 45, (31), 5158-5161, (2006)
Cobb Z et al., Water-compatible molecularly imprinted polymers for efficient direct injection on-line solid-phase extraction of ropivacaine and bupivacaine from human plasma.
Analyst, 132, (12), 1262-1271, (2007)
Oxelbark J et al., Chromatographic comparison of bupivacaine imprinted polymers prepared in crushed monolith, microsphere, silica-based composite and capillary monolith formats.
Journal of Chromatography A, 1160, (1-2), 215-226, (2007)
Sellergren B, Book chapter, Separation of Enantiomers Using Molecularly Imprinted Polymers,
In: Chiral Separation Techniques, Subramanian G (Ed.) WILEY-VCH Verlag GmbH & Co.: Weinheim, Ch. 12, 399-431, (2007)
Skogsberg U et al., A solid-state and suspended-state magic angle spinning nuclear magnetic resonance spectroscopic investigation of a 9-ethyladenine molecularly imprinted polymer.
Polymer, 48, (1), 229-238, (2007)
Urraca JL et al., Direct Extraction of Penicillin G and Derivatives from Aqueous Samples Using a Stoichiometrically Imprinted Polymer.
Analytical Chemistry, 79, (2), 695-701, (2007)
Urraca JL et al., Molecularly Imprinted Polymers as Antibody Mimics in Automated On-Line Fluorescent Competitive Assays.
Analytical Chemistry, 79, (13), 4915-4923, (2007)
Benito-Peńa E et al., Solid-phase extraction of fluoroquinolones from aqueous samples using a water-compatible stochiometrically imprinted polymer.
Journal of Chromatography A, 1208, (1-2), 62-70, (2008)
Emgenbroich M et al., A Phosphotyrosine-Imprinted Polymer Receptor for the Recognition of Tyrosine Phosphorylated Peptides.
Chemistry - A European Journal, 14, (31), 9516-9529, (2008)
Bhaskarapillai A et al., Synthesis and Characterization of Imprinted Polymers for Radioactive Waste Reduction.
Industrial & Engineering Chemistry Research, 48, (8), 3730-3737, (2009)
Bhaskarapillai A et al., Theoretical investigations of the experimentally observed selectivity of a cobalt imprinted polymer.
Biosensors and Bioelectronics, 25, (3), 558-562, (2009)
Greibrokk T et al., Molecular imprinting in Separation Science (Editorial).
Journal of Separation Science, 32, (19), 3263-3264, (2009)
Krupadam RJ et al., Fluorescence Spectrophotometer Analysis of Polycyclic Aromatic Hydrocarbons in Environmental Samples Based on Solid Phase Extraction Using Molecularly Imprinted Polymer.
Environmental Science & Technology, 43, (8), 2871-2877, (2009)
Manesiotis P et al., Water-compatible imprinted polymers for selective depletion of riboflavine from beverages.
Journal of Materials Chemistry, 19, (33), 6185-6193, (2009)
Sellergren B et al., Book chapter, Experimental Combinatorial Methods in Molecular Imprinting,
In: Combinatorial Methods for Chemical and Biological Sensors, Potyrailo RA, Mirsky VM (Eds.) Springer: New York, Ch. 7, 173-198, (2009)
Bhaskarapillai A et al., One in a billion.
Nuclear Engineering International, 55, (672), 22-24, (2010)
Sellergren B, Molecularly imprinted polymers: Shaping enzyme inhibitors.
Nature Chemistry, 2, (1), 7-8, (2010)
Sellergren B et al., Book chapter, The Use of Molecularly Imprinted Polymers for Sampling and Sample Preparation,
In: Handbook of Sample Preparation, Pawliszyn J, Lord HL (Eds.) John Wiley & Sons: Hoboken, New Jersey, Ch. 23, 445-474, (2010)
Ambrosini S et al., Synthesis and chromatographic evaluation of molecularly imprinted polymers prepared by the substructure approach for the class-selective recognition of glucuronides.
Journal of Chromatography A, 1218, (39), 6961-6969, (2011)
Borrelli C et al., Selective Depletion of Riboflavine from Beer Using Membranes Incorporating Imprinted Polymer Particles.
Journal of Food Processing and Preservation, 35, (1), 112-128, (2011)
Helling S et al., Ultratrace Enrichment of Tyrosine Phosphorylated Peptides on an Imprinted Polymer.
Analytical Chemistry, 83, (5), 1862-1865, (2011)
Nematollahzadeh A et al., High-Capacity Hierarchically Imprinted Polymer Beads for Protein Recognition and Capture.
Angewandte Chemie International Edition, 50, (2), 495-498, (2011)
Prieto A et al., Selective determination of estrogenic compounds in water by microextraction by packed sorbents and a molecularly imprinted polymer coupled with large volume injection-in-port-derivatization gas chromatography-mass spectrometry.
Analytica Chimica Acta, 703, (1), 41-51, (2011)
Urraca JL et al., Polymeric Complements to the Alzheimer's Disease Biomarker [beta]-Amyloid Isoforms A[beta]1-40 and A[beta]1-42 for Blood Serum Analysis under Denaturing Conditions.
Journal of the American Chemical Society, 133, (24), 9220-9223, (2011)
Ambrosini S et al., Glucuronide directed molecularly imprinted solid-phase extraction: isolation of testosterone glucuronide from its parent drug in urine.
Analyst, 137, (1), 249-254, (2012)
Halhalli MR et al., An improved grafting technique for producing imprinted thin film composite beads.
Polymer Chemistry, 3, (4), 1033-1042, (2012)
Halhalli MR et al., Thin Walled Imprinted Polymer Beads Featuring Both Uniform and Accessible Binding Sites.
Chemistry of Materials, 24, (15), 2909-2919, (2012)
Martín-Esteban A et al., Book chapter, 2.17 - Molecularly Imprinted Polymers,
In: Comprehensive Sampling and Sample Preparation, Pawliszyn J (Ed.) Academic Press: Oxford, Ch. 17, 331-344, (2012)
Schillinger E et al., An Artificial Estrogen Receptor through Combinatorial Imprinting.
Chemistry - A European Journal, 18, (46), 14773-14783, (2012)
Sellergren B et al., Book chapter, Molecularly Imprinted Polymers,
In: Supramolecular Chemistry, Gale P, Steed J (Eds.) John Wiley & Sons, Ltd: 3255-3282, (2012)
Shinde S et al., Imprinted Polymers Displaying High Affinity for Sulfated Protein Fragments.
Angewandte Chemie International Edition, 51, (33), 8326-8329, (2012)
Székely G et al., A hybrid approach to reach stringent low genotoxic impurity contents in active pharmaceutical ingredients: Combining molecularly imprinted polymers and organic solvent nanofiltration for removal of 1, 3-diisopropylurea.
Separation and Purification Technology, 86, (1), 79-87, (2012)
Székely G et al., Design, preparation and characterization of novel molecularly imprinted polymers for removal of potentially genotoxic 1, 3-diisopropylurea from API solutions.
Separation and Purification Technology, 86, (1), 190-198, (2012)
Székely G et al., Removal of potentially genotoxic acetamide and arylsulfonate impurities from crude drugs by molecular imprinting.
Journal of Chromatography A, 1240, (1), 52-58, (2012)
Azenha M et al., Vapor-phase testing of the memory-effects in benzene- and toluene-imprinted polymers conditioned at elevated temperature.
Analytica Chimica Acta, 802, 40-45, (2013)
Halhalli MR et al., Cover and uncover: chiral switching exploiting templating and layer-by-layer grafting.
Chemical Communications, 49, (64), 7111-7113, (2013)
Kadhirvel P et al., Imidazolium-based functional monomers for the imprinting of the anti-inflammatory drug naproxen: Comparison of acrylic and sol-gel approaches.
Journal of Chromatography A, 1314, 115-123, (2013)
Nematollahzadeh A et al., Molecularly imprinted polydopamine nano-layer on the pore surface of porous particles for protein capture in HPLC column.
Journal of Colloid and Interface Science, 404, 117-126, (2013)
Olsson GD et al., Theoretical Studies of 17-[beta]-Estradiol-Imprinted Prepolymerization Mixtures: Insights Concerning the Roles of Cross-Linking and Functional Monomers in Template Complexation and Polymerization.
Industrial & Engineering Chemistry Research, 52, (39), 13965-13970, (2013)
Ramezany F et al., Application of Molecularly Imprinted Polymers in Analysis and Detoxification of Colocynth: Resurgence of an Obscure Ancient Botanical.
Planta Medica, 79, (5), 67-(2013)
Sellergren B et al., Book chapter, Synthetic Chemistry in Molecular Imprinting,
In: Molecular Imprinting: Principles and Applications of Micro- and Nanostructure Polymers, Ye L (Ed.) Taylor and Francis Group, LLC: Boca Raton, Fl, Ch. 2, 25-70, (2013)
Wagner R et al., Synthesis, Spectroscopic, and Analyte-Responsive Behavior of a Polymerizable Naphthalimide-Based Carboxylate Probe and Molecularly Imprinted Polymers Prepared Thereof.
Journal of Organic Chemistry, 78, (4), 1377-1389, (2013)
Wan W et al., Proceeding, Enantioselective Fluorescence Response of Molecularly Imprinted Polymers (MIPs) toward Carbobenzyloxy- (Cbz) protected Amino Acids,
53-58, (2013)
Wan W et al., Fluorescent Sensory Microparticles that "Light-up" Consisting of a Silica Core and a Molecularly Imprinted Polymer (MIP) Shell.
Angewandte Chemie International Edition, 52, (27), 7023-7027, (2013)
Berghaus M et al., Productive encounter: molecularly imprinted nanoparticles prepared using magnetic templates.
Chemical Communications, 50, (64), 8993-8996, (2014)
Kadhirvel P et al., Chromatographycally efficient microspherical composites of molecularly imprinted xerogels deposited inside mesoporous silica.
Journal of Chromatography A, 1355, 158-163, (2014)
Kadhirvel P et al., Recognitive nano-thin-film composite beads for the enantiomeric resolution of the metastatic breast cancer drug aminoglutethimide.
Journal of Chromatography A, 1358, 93-101, (2014)
Kecili R et al., Fast identification of selective resins for removal of genotoxic aminopyridine impurities via screening of molecularly imprinted polymer libraries.
Journal of Chromatography A, 1339, 65-72, (2014)
Nematollahzadeh A et al., Robust and selective nano cavities for protein separation: An interpenetrating polymer network modified hierarchically protein imprinted hydrogel.
Journal of Chromatography A, 1345, 154-163, (2014)
Picca RA et al., Book chapter, Novel Format of Molecularly Imprinted Polymers for the Development of Electrochemical Sensors,
In: Sensors, Baldini F, D'Amico A, Di Natale C, Siciliano P, Seeber R, De Stefano L, Bizzarri R, Andň B (Eds.) Springer: New York, 165-169, (2014)
Qader AA et al., Peptide imprinted receptors for the determination of the small cell lung cancer associated biomarker progastrin releasing peptide.
Journal of Chromatography A, 1370, 56-62, (2014)
Rossetti C et al., Antibody-Free Biomarker Determination: Exploring Molecularly Imprinted Polymers for Pro-Gastrin Releasing Peptide.
Analytical Chemistry, 86, (24), 12291-12298, (2014)
Chen J et al., Low-bias phosphopeptide enrichment from scarce samples using plastic antibodies.
Scientific Reports, 5, ArticleNo11438-(2015)
Chen W et al., Molecularly Imprinted Polymers with Stimuli-Responsive Affinity: Progress and Perspectives.
Polymers, 7, (9), 1689-1715, (2015)
Halhalli MR et al., Insights into the formation, structural properties and performance of RAFT polymerized l-phenylalanine anilide molecularly imprinted polymers.
Polymer Chemistry, 6, (41), 7320-7332, (2015)
Kadhirvel P et al., Aminoglutethimide-imprinted xerogels in bulk and spherical formats, based on a multifunctional organo-alkoxysilane precursor.
Journal of Chromatography A, 1424, 59-68, (2015)
Shinde S et al., Sialic Acid-Imprinted Fluorescent Core-Shell Particles for Selective Labeling of Cell Surface Glycans.
Journal of the American Chemical Society, 137, (43), 13908-13912, (2015)
Shirangi M et al., Methyleneation of Peptides by N, N, N, N-Tetramethylethylenediamine (TEMED) under Conditions Used for Free Radical Polymerization: A Mechanistic Study.
Bioconjugate Chemistry, 26, (1), 90-100, (2015)
Chen J et al., Validation of molecularly imprinted polymers for side chain selective phosphopeptide enrichment.
Journal of Chromatography A, 1471, 45-50, (2016)
El-Schich Z et al., Different expression levels of glycans on leukemic cells - a novel screening method with molecularly imprinted polymers (MIP) targeting sialic acid.
Tumor Biology, 37, (10), 13763-13768, (2016)
Gutiérrez-Climente R et al., Iniferter-mediated grafting of molecularly imprinted polymers on porous silica beads for the enantiomeric resolution of drugs.
Journal of Molecular Recognition, 29, (3), 106-114, (2016)
Jagadeesan KK et al., Multiplexed MALDI-MS arrays for screening of MIP solid phase extraction materials.
Journal of Chromatography B, 1021, 213-220, (2016)
Schwark S et al., Monoclonal antibody capture from cell culture supernatants using epitope imprinted macroporous membranes.
RSC Advances, 6, (58), 53162-53169, (2016)
Shen XT et al., Reflux precipitation polymerization: a new synthetic insight in molecular imprinting at high temperature.
RSC Advances, 6, (85), 81491-81499, (2016)
Shen XT et al., Catalytic Formation of Disulfide Bonds in Peptides by Molecularly Imprinted Microgels at Oil/Water Interfaces.
ACS Applied Materials & Interfaces, 8, (44), 30484-30491, (2016)
Wang JX et al., Molecularly imprinted fluorescent hollow nanoparticles as sensors for rapid and efficient detection [lambda]-cyhalothrin in environmental water.
Biosensors and Bioelectronics, 85, 387-394, (2016)
Bllaci L et al., Phosphotyrosine Biased Enrichment of Tryptic Peptides from Cancer Cells by Combining pY-MIP and TiO2 Affinity Resins.
Analytical Chemistry, 89, (21), 11332-11340, (2017)
Chen ZL et al., Synergistic Catalysis by "Polymeric Microzymes and Inorganic Nanozymes": The 1+1>2 Effect for Intramolecular Cyclization of Peptides.
Frontiers in Chemistry, 5, ArticleNo60-(2017)
Jagadeesan KK et al., Filter Plate-Based Screening of MIP SPE Materials for Capture of the Biomarker Pro-Gastrin-Releasing Peptide.
SLAS DISCOVERY: Advancing Life Sciences R&D, 22, (10), 1253-1261, (2017)
Liu MQ et al., Molecularly Imprinted Porous Monolithic Materials from Melamine-Formaldehyde for Selective Trapping of Phosphopeptides.
Analytical Chemistry, 89, (17), 9491-9501, (2017)
Pan GQ et al., An Epitope-Imprinted Biointerface with Dynamic Bioactivity for Modulating Cell-Biomaterial Interactions.
Angewandte Chemie International Edition, 56, (50), 15959-15963, (2017)
Ramezani F et al., Molecularly Imprinted Polymer of Colocynthin, An Effective Tool for Quality Control of Citrullus colocynthis Extracts.
Current Drug Discovery Technologies, 14, (3), 169-180, (2017)
Rossetti C et al., Exploring the peptide retention mechanism in molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 409, (24), 5631-5643, (2017)
Rossetti C et al., Automated Protein Biomarker Analysis: on-line extraction of clinical samples by Molecularly Imprinted Polymers.
Scientific Reports, 7, ArticleNo44298-(2017)
Sulc R et al., Phospholipid imprinted polymers as selective endotoxin scavengers.
Scientific Reports, 7, ArticleNo44299-(2017)
Wan W et al., Ratiometric Fluorescence Detection of Phosphorylated Amino Acids Through Excited-State Proton Transfer by Using Molecularly Imprinted Polymer (MIP) Recognition Nanolayers.
Chemistry - A European Journal, 23, (63), 15974-15983, (2017)
Wierzbicka C et al., Hierarchically templated beads with tailored pore structure for phosphopeptide capture and phosphoproteomics.
RSC Advances, 7, (28), 17154-17163, (2017)
Wierzbicka C et al., Cationic pTyr/pSer imprinted polymers based on a bis-imidazolium host monomer: phosphopeptide recognition in aqueous buffers demonstrated by [mu]-liquid chromatography and monolithic columns.
Journal of Materials Chemistry B, 5, (5), 953-960, (2017)
Bakkour R et al., Molecularly Imprinted Polymers for Compound-Specific Isotope Analysis of Polar Organic Micropollutants in Aquatic Environments.
Analytical Chemistry, 90, (12), 7292-7301, (2018)
Rossetti C et al., Correction to: Exploring the peptide retention mechanism in molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 410, (5), 1607-1608, (2018)
Ertürk G et al., Bisphosphonate ligand mediated ultrasensitive capacitive protein sensor: complementary match of supramolecular and dynamic chemistry.
New Journal of Chemistry, 43, (2), 847-852, (2019)
Liu MQ et al., Selective Enrichment of Phosphorylated Peptides by Monolithic Polymers Surface Imprinted with bis-Imidazolium Moieties by UV-Initiated Cryopolymerization.
Analytical Chemistry, 91, (15), 10188-10196, (2019)
Mahajan R et al., Highly Efficient Synthesis and Assay of Protein-Imprinted Nanogels by Using Magnetic Templates.
Angewandte Chemie International Edition, 58, (3), 727-730, (2019)
Moczko E et al., Epitope approach in molecular imprinting of antibodies.
Journal of Chromatography B, 1124, 1-6, (2019)
Wang JX et al., Molecularly Imprinted Fluorescent Test Strip for Direct, Rapid, and Visual Dopamine Detection in Tiny Amount of Biofluid.
Small, 15, (1), Article1803913-(2019)
Zhang YC et al., Determination of cytokine regulated glycan expression by using molecularly imprinted polymers targeting sialic acid.
Journal of Cancer Metastasis and Treatment, 5, Article56-(2019)
Ambaw YA et al., Tailored Polymer-Based Selective Extraction of Lipid Mediators from Biological Samples.
Metabolites, 11, (8), ArticleNo539-(2021)
Incel A et al., Selective Enrichment of Histidine Phosphorylated Peptides Using Molecularly Imprinted Polymers.
Analytical Chemistry, 93, (8), 3857-3866, (2021)
Mavliutova L et al., Discrimination between sialic acid linkage modes using sialyllactose-imprinted polymers.
RSC Advances, 11, (36), 22409-22418, (2021)
Microchemical Journal, 108, 215-223, (2013)
Nanoscale, 13, (40), 16885-16899, (2021)
Chemical Society Reviews, 44, (22), 7997-8018, (2015)
Metabolites, 11, (8), ArticleNo539-(2021)
Biosensors and Bioelectronics, 187, Article113302-(2021)
Sensors, 17, (4), ArticleNo718-(2017)
Analytica Chimica Acta, 694, (1-2), 142-150, (2011)
Araki K et al., Self-assembly and imprinting of macrocyclic molecules in layer-by-layered TiO2 ultrathin films.
Analytica Chimica Acta, 779, 72-81, (2013)
Lee SW et al., Book chapter, Fundamentals and Perspectives of Molecular Imprinting in Sensor Applications,
In: Handbook of Molecular Imprinting - Advanced Sensor Applications, Lee SW, Kunitake T (Eds.) Pan Stanford Publishing Pte. Ltd.: Singapore, Ch. 1, 3-64, (2013)
Selyanchyn R et al., Molecularly imprinted polystyrene-titania hybrids with both ionic and [pi]-[pi] interactions: a case study with pyrenebutyric acid.
Microchimica Acta, 180, (15-16), 1443-1452, (2013)
Journal of Molecular Modeling, 22, (7), ArticleNo148-(2016)
Talanta, 199, 522-531, (2019)
Analyst, 144, (15), 4596-4612, (2019)
Molecular Imprinting, 5, (1), 1-15, (2017)
Soft Matter, 9, (3), 805-810, (2013)
Chemistry Central Journal, 12, (1), ArticleNo19-(2018)
Journal of Chromatography A, 1566, 13-22, (2018)
Combinatorial Chemistry & High Throughput Screening, 16, (7), 503-510, (2013)
Bulletin of the Chemical Society of Japan, 69, (1), 125-130, (1996)
Journal of Agricultural and Food Chemistry, 62, (46), 11215-11221, (2014)
In: Solid-Phase Synthesis and Combinatorial Technologies, John Wiley & Sons, Inc.: New York, Ch. 11, 579-620, (2000)
Industrial & Engineering Chemistry Research, 45, (5), 1780-1786, (2006)
Andaç M et al., Ion-imprinted beads for molecular recognition based mercury removal from human serum.
International Journal of Biological Macromolecules, 40, (2), 159-166, (2007)
Uzun L et al., Chiral recognition of proteins having L-histidine residues on the surface with lanthanide ion complex incorporated-molecularly imprinted fluorescent nanoparticles.
Materials Science and Engineering: C, 33, (6), 3432-3439, (2013)
Çulha S et al., Synthesis of l-lysine imprinted cryogels for immunoglobulin G adsorption.
Materials Science and Engineering: C, 52, 315-324, (2015)
Dursun EM et al., Synthesis of novel monolithic cartridges with specific recognition sites for extraction of melamine.
Reactive and Functional Polymers, 109, 33-41, (2016)
Jalilzadeh M et al., Specific heavy metal ion recovery with ion-imprinted cryogels.
Journal of Applied Polymer Science, 133, (10), ArticleNo43095-(2016)
Jalilzadeh M et al., Removal of Cu(II) ions from water by ion-imprinted magnetic and non-magnetic cryogels: A comparison of their selective Cu(II) removal performances.
Journal of Water Process Engineering, 13, 143-152, (2016)
Üzek R et al., A nitrocellulose paper strip for fluorometric determination of bisphenol A using molecularly imprinted nanoparticles.
Microchimica Acta, 186, (4), 218-(2019)
Biosensors and Bioelectronics, 26, (2), 815-821, (2010)
Sener G et al., Use of molecular imprinted nanoparticles as biorecognition element on surface plasmon resonance sensor.
Sensors and Actuators B: Chemical, 160, (1), 791-799, (2011)
Özgür E et al., A new molecular imprinting-based mass-sensitive sensor for real-time detection of 17[beta]-estradiol from aqueous solution.
Environmental Progress & Sustainable Energy, 32, (4), 1164-1169, (2013)
Sener G et al., Microcontact imprinted surface plasmon resonance biosensor for rapid procalcitonin detection.
Abstracts of Papers of the American Chemical Society, 246, (ANYL), 68-(2013)
Sener G et al., Rapid real-time detection of procalcitonin using a microcontact imprinted surface plasmon resonance biosensor.
Analyst, 138, (21), 6422-6428, (2013)
Shaikh H et al., Molecularly imprinted surface plasmon resonance (SPR) based sensing of bisphenol A for its selective detection in aqueous systems.
Analytical Methods, 7, (11), 4661-4670, (2015)
Separation and Purification Technology, 38, (2), 173-179, (2004)
Say R et al., Comparison of adsorption and selectivity characteristics for 4-nitrophenol imprinted polymers prepared via bulk and suspension polymerization.
Separation Science and Technology, 39, (15), 3471-3484, (2004)
Sener I et al., Methacryloyloxycalix[4]arene based ion imprinted polymer as Ag(I) potentiometric sensor.
Indian Journal of Chemistry Section A, 57A, (3), 444-448, (2018)
Analytica Chimica Acta, 620, (1-2), 73-81, (2008)
Analytical Letters, 30, (10), 1809-1821, (1997)
Optics Express, 23, (5), 6763-6772, (2015)
Journal of Separation Science, 35, (5-6), 726-733, (2012)
Talanta, 146, 525-532, (2016)
Korean Journal of Chemical Engineering, 19, (6), 940-948, (2002)
Biosensors and Bioelectronics, 57, 310-316, (2014)
Journal of Biomaterials Science-Polymer Edition, 13, (6), 637-649, (2002)
Seong H et al., Preparation of liposomes with glucose binding sites: liposomes containing di-branched amino acid derivatives.
Biomaterials, 24, (24), 4487-4493, (2003)
Analytica Chimica Acta, 399, (3), 201-212, (1999)
Journal of The Electrochemical Society, 163, (8), B422-B427, (2016)
ArticleNo99161I, (2016)
Cennamo N et al., Proceeding, An optical fiber intensity-based sensor configuration for the detection of PFOA in water,
Article_ThE37, (2018)
Cennamo N et al., A Simple and Low-Cost Optical Fiber Intensity-Based Configuration for Perfluorinated Compounds in Water Solution.
Sensors, 18, (9), ArticleNo3009-(2018)
Cennamo N et al., Proceeding, Water monitoring in smart cities exploiting plastic optical fibers and molecularly imprinted polymers. The case of PFBS detection,
1-6, (2019)
Reactive and Functional Polymers, 147, Article104462-(2020)
ACS Applied Materials & Interfaces, 7, (51), 28197-28206, (2015)
Analyst, 124, (3), 331-334, (1999)
Sergeyeva TA et al., Selective recognition of atrazine by molecularly imprinted polymer membranes. Development of conductometric sensor for herbicides detection.
Analytica Chimica Acta, 392, (2-3), 105-111, (1999)
Sergeyeva TA et al., Synthesis of matrix polymeric membranes for the solid-phase extraction of triazine herbicides from aqueous solutions and their study.
Reports of National Academy of Sciences of Ukraine, 6, 170-175, (2003)
Sergeyeva TA et al., In situ formation of porous molecularly imprinted polymer membranes.
Macromolecules, 36, (19), 7352-7357, (2003)
Sergeyeva TA et al., Data on the structure and recognition properties of the template-selective binding sites in semi-IPN-based molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 28, (8), 1472-1479, (2008)
Sergeyeva TA et al., Towards development of colorimetric test-systems for phenols detection based on computationally-designed molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 30, (3), 431-436, (2010)
Sergeyeva TA et al., Catalytic molecularly imprinted polymer membranes: Development of the biomimetic sensor for phenols detection.
Analytica Chimica Acta, 659, (1-2), 274-279, (2010)
Sergeyeva TA et al., Colorimetric test-systems for creatinine detection based on composite molecularly imprinted polymer membranes.
Analytica Chimica Acta, 770, 161-168, (2013)
Sergeyeva TA et al., Colorimetric biomimetic sensor systems based on molecularly imprinted polymer membranes for highly-selective detection of phenol in environmental samples.
Biopolymers and Cell, 30, (3), 209-215, (2014)
Analytica Chimica Acta, 582, (2), 311-319, (2007)
Journal of the Chinese Advanced Materials Society, 1, (3), 229-244, (2013)
Sergeyeva T et al., Fluorescent sensor systems based on nanostructured polymeric membranes for selective recognition of Aflatoxin B1.
Talanta, 175, 101-107, (2017)
Sergeyeva T et al., Development of a smartphone-based biomimetic sensor for aflatoxin B1 detection using molecularly imprinted polymer membranes.
Talanta, 201, 204-210, (2019)
Sensors and Actuators B: Chemical, 60, (2-3), 216-220, (1999)
Sergeyeva TA et al., Conductimetric sensor for atrazine detection based on molecularly imprinted polymer membranes.
Analyst, 124, (3), 331-334, (1999)
Sergeyeva TA et al., Selective recognition of atrazine by molecularly imprinted polymer membranes. Development of conductometric sensor for herbicides detection.
Analytica Chimica Acta, 392, (2-3), 105-111, (1999)
Matuschewski H et al., Proceeding, Surface engineering: Molecularly imprinted affinity membranes by photograft polymerization,
Vo-Dinh T, Buettgenbach S (Eds.), 65-74, (2001)
Sergeyeva TA et al., Molecularly imprinted polymer membranes for substance-selective solid-phase extraction from water by surface photo-grafting polymerization.
Journal of Chromatography A, 907, (1-2), 89-99, (2001)
Sergeyeva TA et al., Synthesis of matrix polymeric membranes for the solid-phase extraction of triazine herbicides from aqueous solutions and their study.
Reports of National Academy of Sciences of Ukraine, 6, 170-175, (2003)
Sergeyeva TA et al., In situ formation of porous molecularly imprinted polymer membranes.
Macromolecules, 36, (19), 7352-7357, (2003)
Sergeyeva TA et al., Development of molecularly imprinted polymer membranes with specificity to triazine herbicides, prepared by the "surface photografting" technique.
Biopolymers and Cell, 20, (4), 307-315, (2004)
Piletsky SA et al., Molecularly imprinted polymers - Tyrosinase mimics.
Ukrainskii Biokhimicheskii Zhurnal, 77, (6), 63-67, (2005)
Piletsky SA et al., Synthesis of Biologically Active Molecules by Imprinting Polymerisation.
Biopolymers and Cell, 22, (1), 63-68, (2006)
Sergeyeva TA et al., Capacitive sensor for environmental monitoring based on thin films of molecularly imprinted polymers. Computational modeling for optimization of the polymers-biomimics composition.
Ukrainskii Biokhimicheskii Zhurnal, 78, (2), 121-130, (2006)
Sergeyeva TA et al., Porous molecularly imprinted polymer membranes and polymeric particles.
Analytica Chimica Acta, 582, (2), 311-319, (2007)
Sergeyeva TA et al., Aflatoxin-selective molecularly-imprinted polymer membranes based on acrylate-polyurethane semi-interpenetrating polymer networks.
Ukrainskii Biokhimicheskii Zhurnal, 79, (5), 109-115, (2007)
Sergeyeva TA et al., Data on the structure and recognition properties of the template-selective binding sites in semi-IPN-based molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 28, (8), 1472-1479, (2008)
Sergeyeva TA et al., Sensor system based on molecularly-imprinted polymer membranes for the selective recognition of aflatoxin B1.
Ukrainskii Biokhimicheskii Zhurnal, 80, (3), 84-93, (2008)
Sergeyeva TA et al., A portable sensor system for phenols detection based on molecularly-imprinted polymers with catalytic properties.
Ukrainskii Biokhimicheskii Zhurnal, 81, (1), 41-51, (2009)
Sergeyeva TA, Molecularly imprinted polymers as synthetic mimics of bioreceptors. 1. General principles of molecular imprinting.
Biopolymers and Cell, 25, (4), 253-265, (2009)
Sergeyeva TA, Molecularly-imprinted polymers as synythetic mimics of bioreceptors. 2. Applications in modern biotechnology.
Biopolymers and Cell, 25, (6), 431-444, (2009)
Sergeyeva TA et al., Towards development of colorimetric test-systems for phenols detection based on computationally-designed molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 30, (3), 431-436, (2010)
Sergeyeva TA et al., Catalytic molecularly imprinted polymer membranes: Development of the biomimetic sensor for phenols detection.
Analytica Chimica Acta, 659, (1-2), 274-279, (2010)
Sergeyeva TA et al., Colorimetric test-systems for creatinine detection based on composite molecularly imprinted polymer membranes.
Analytica Chimica Acta, 770, 161-168, (2013)
Soldatkin AP et al., Biosensors. A quarter of a century of R&D experience.
Biopolymers and Cell, 29, (3), 188-206, (2013)
Sergeyeva TA et al., Colorimetric biomimetic sensor systems based on molecularly imprinted polymer membranes for highly-selective detection of phenol in environmental samples.
Biopolymers and Cell, 30, (3), 209-215, (2014)
Sergeyeva TA et al., Sensor System for Sulfamethoxazole Detection Based on Molecularly Imprinted Polymer Membranes.
Innovative Biosystems & Bioengineering, 1, (1), 11-17, (2017)
Talanta, 174, 599-604, (2017)
Journal of Applied Polymer Science, 133, (4), ArticleNo42913-(2016)
Abstracts of Papers of the American Chemical Society, 213, (IEC), 131-131, (1997)
Serizawa T et al., Recognition of stereoregular polymers by using structurally regulated ultrathin polymer films.
Angewandte Chemie International Edition, 42, (10), 1118-1121, (2003)
Advanced Healthcare Materials, 3, (9), 1426-1429, (2014)
Polymer Reviews, 51, (4), 341-390, (2011)
Polymers, 9, (11), ArticleNo436-(2017)
Analytica Chimica Acta, 789, 17-32, (2013)
Progress in Polymer Science, 38, (3-4), 445-461, (2013)
Analytical and Bioanalytical Chemistry, 388, (1), 227-234, (2007)
Journal of Chromatography A, 1218, (39), 6961-6969, (2011)
Journal of Non-Crystalline Solids, 247, (1-3), 146-152, (1999)
Ciuffi KJ et al., Synthesis of fluorinated metalloporphyrinosilica imprinted with templates through sol-gel process.
Journal of Non-Crystalline Solids, 273, (1-3), 100-108, (2000)
Iamamoto Y et al., Porphyrinosilica and metalloporphyrinosilica: Hybrid organic-inorganic materials prepared by sol-gel processing.
Anais Da Academia Brasileira De Ciencias, 72, (1), 59-66, (2000)
Sacco HC et al., Synthesis of manganese porphyrinosilica imprinted with templates using the sol-gel process.
Journal of Non-Crystalline Solids, 273, (1-3), 150-158, (2000)
Separations, 8, (11), ArticleNo226-(2021)
Talanta, 143, 71-76, (2015)
Serrano M et al., On-line flow injection molecularly imprinted solid phase extraction for the preconcentration and determination of 1-hydroxypyrene in urine samples.
Talanta, 166, 375-382, (2017)
Sensors and Actuators B: Chemical, 311, Article127902-(2020)
Chemistry - A European Journal, 14, (23), 7059-7065, (2008)
Servant A et al., Tuning Molecular Recognition in Water-Soluble Nanogels with Enzyme-Like Activity for the Kemp Elimination.
Chemistry - A European Journal, 17, (39), 11052-11059, (2011)
Bonomi P et al., Modulation of imprinting efficiency in nanogels with catalytic activity in the Kemp elimination.
Journal of Molecular Recognition, 25, (6), 352-360, (2012)
Servant A et al., Polymeric organic nanogels: structural studies and correlation between morphology and catalytic efficiency.
New Journal of Chemistry, 37, (12), 4103-4109, (2013)
Journal of Chromatography A, 1576, 26-33, (2018)
Analytical Methods, 8, (11), 2413-2419, (2016)
Biosensors and Bioelectronics, 21, (7), 1171-1177, (2006)
In: Microbial Enzymes and Biotransformations, Barredo JL (Ed.) 29-60, (2005)
Desalination and Water Treatment, 57, (32), 15164-15175, (2016)
Rahmadhani S et al., Proceeding, Electropolymerized of aniline as a new molecularly imprinted polymer for determination of phenol: A study for phenol sensor,
124-128, (2017)
Rahmadhani S et al., Fabrication of Carbon Paste Electrode Modified with Phenol Imprinted Polyaniline as a Sensor for Phenol Analysis by Potentiometric.
Materials Science Forum, 936, 71-76, (2018)
Setiyanto H et al., The Performance of Molecularly Imprinted Polymers (MIPs)-Modified Carbon Paste Electrode and Its Application in Detecting Phenol.
International Journal of Electrochemical Science, 15, 5477-5486, (2020)
Electrochimica Acta, 56, (25), 9203-9208, (2011)
Abstracts of Papers of the American Chemical Society, 248, (PHYS), 441-(2014)
Journal of the Chinese Advanced Materials Society, 6, (3), 301-310, (2018)
ACS Applied Materials & Interfaces, 13, (24), 27868-27879, (2021)
Chemical Communications, (48), 6035-6037, (2005)
International Journal of Hydrogen Energy, 38, (35), 15275-15284, (2013)
Seven F et al., Imprinting hydrogels with metal ions for metal nanoparticle preparation and use in hydrogen production as catalysis media.
Abstracts of Papers of the American Chemical Society, 245, (POLY), 366-(2013)
Chemical Communications, (24), 2481-2482, (1999)
Polborn K et al., Biomimetic catalysis with an immobilised chiral rhodium(III) complex.
European Journal of Inorganic Chemistry, (8), 1687-1692, (2000)
Polborn K et al., Biomimetic catalysis with immobilised organometallic ruthenium complexes: Substrate- and regioselective transfer hydrogenation of ketones.
Chemistry - A European Journal, 6, (24), 4604-4611, (2000)
Severin K, Imprinted polymers with transition metal catalysts.
Current Opinion in Chemical Biology, 4, (6), 710-714, (2000)
Severin K, Molecularly Imprinted Polymers. Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry. (Book Review).
Angewandte Chemie International Edition, 41, (6), 1071-1071, (2002)
Burri E et al., Site-isolated porphyrin catalysts in imprinted polymers.
Chemistry - A European Journal, 11, (17), 5055-5061, (2005)
Schiller A et al., Highly cross-linked polymers containing N, N', N''-chelate ligands for the Cu(II)-mediated hydrolysis of phosphoesters.
Inorganic Chemistry, 44, (18), 6482-6492, (2005)
Severin K, Book chapter, Applications of molecularly imprinted materials as enzyme mimics,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 24, 619-640, (2005)
Burri E et al., Molecular imprinting with ruthenium porphyrin catalysts.
Chimia, 60, (4), 182-184, (2006)
Schiller A et al., Enhanced hydrolytic activity of Cu(II) and Zn(II) complexes in highly cross-linked polymers.
Dalton Transactions, (32), 3858-3867, (2006)
Eurasian Journal of Biological and Chemical Sciences, 2, (1), 17-23, (2019)
Industrial & Engineering Chemistry Research, 48, (8), 3730-3737, (2009)
Bhaskarapillai A et al., Theoretical investigations of the experimentally observed selectivity of a cobalt imprinted polymer.
Biosensors and Bioelectronics, 25, (3), 558-562, (2009)
Bhaskarapillai A et al., One in a billion.
Nuclear Engineering International, 55, (672), 22-24, (2010)
In: Sensors: Asiasense 2003 - Asian Conference On Sensors, Ahmad M, Heng LY, Salimon J, Ghodgaonkar DK, Yousof RW, Surif S, Taib MN (Eds.) IEEE: New York, 117-120, (2003)
Cabanilla S et al., Book chapter, Piezoelectric biomimetic sensor for caffeine based on electrosynthesized polypyrrole,
In: Sensors: Asiasense 2003 - Asian Conference On Sensors, Ahmad M, Heng LY, Salimon J, Ghodgaonkar DK, Yousof RW, Surif S, Taib MN (Eds.) IEEE: New York, 105-109, (2003)
Sevilla F, Book chapter, Chemical sensors based on conducting polymers,
In: Sensors: Asiasense 2003 - Asian Conference On Sensors, Ahmad M, Heng LY, Salimon J, Ghodgaonkar DK, Yousof RW, Surif S, Taib MN (Eds.) IEEE: New York, 87-92, (2003)
Ebarvia BS et al., Biomimetic piezoelectric quartz sensor for caffeine based on a molecularly imprinted polymer.
Analytical and Bioanalytical Chemistry, 378, (5), 1331-1337, (2004)
Albano DR et al., Piezoelectric quartz crystal sensor for surfactant based on molecularly imprinted polypyrrole.
Sensors and Actuators B: Chemical, 121, (1), 129-134, (2007)
Analytical and Bioanalytical Chemistry, 397, (7), 3155-3158, (2010)
Sensors and Actuators B: Chemical, 222, 391-396, (2016)
Koirala K et al., Book chapter, Food Biosensors Based on Molecularly Imprinted Polymers,
In: Food Biosensors, Lim SA, Ahmed MU (Eds.) The Royal Society of Chemistry: Ch. 11, 264-281, (2017)
Talanta, 144, 1260-1265, (2015)
Sensors and Actuators B: Chemical, 107, (2), 782-790, (2005)
Ebarvia BS et al., Biomimetic properties and surface studies of a piezoelectric caffeine sensor based on electrosynthesized polypyrrole.
Talanta, 66, (1), 145-152, (2005)
Electrochimica Acta, 295, 333-339, (2019)
FABAD Journal of Pharmaceutical Sciences, 32, (4), 147-157, (2007)
Water SA, 37, (3), 321-329, (2011)
RSC Advances, 5, (108), 88666-88674, (2015)
Ktari N et al., Surface Acoustic Wave Sensor for Selective Detection of Flumequine.
Procedia Engineering, 120, 998-1002, (2015)
Maouche N et al., A surface acoustic wave sensor functionalized with a polypyrrole molecularly imprinted polymer for selective dopamine detection.
Journal of Molecular Recognition, 28, (11), 667-678, (2015)
Mazouz Z et al., Highly Selective Polypyrrole MIP-Based Gravimetric and Electrochemical Sensors for Picomolar Detection of Glyphosate.
Sensors, 17, (11), ArticleNo2586-(2017)
Journal of Chromatography B, 1011, 1-5, (2016)
New Journal of Chemistry, 40, (5), 4803-4809, (2016)
Hashemi B et al., Preparation of a K+-imprinted polymer for the selective recognition of K+ in food samples.
Journal of Separation Science, 39, (10), 2006-2012, (2016)
Talanta, 206, Article120225-(2020)
Polymer Preprints, 46, (2), 1125-1126, (2005)
Herold M et al., Molecular recognition by imprinted polymer nanospheres: Fundamental research and applications.
Abstracts of Papers of the American Chemical Society, 230, 584-POLY, (2005)
Sezgin S et al., Kinetic and thermodynamic behaviour of recognition processes employing nano-spherical L-boc-phenylalanine anilide molecularly imprinted poly(MAA-co-EGDMA) monoliths.
Polymer Preprints, 47, (2), 860-861, (2006)
FEBS Journal, 273, (Suppl. 1), 344-344, (2006)
Teke AB et al., A bio-imprinted ascorbate oxidase biosensor.
International Journal of Environmental Analytical Chemistry, 87, (10), 723-729, (2007)
Teke M et al., A bio-imprinted urease biosensor: Improved thermal and operational stabilities.
Talanta, 74, (4), 661-665, (2008)
Artificial Cells, Blood Substitutes, and Biotechnology, 36, (5), 445-456, (2008)
Teke M et al., Two Biosensors for Phenolic Compounds Based on Mushroom (Agaricus bisporus) Homogenate: Comparison in Terms of Some Important Parameters of the Biosensors.
Preparative Biochemistry and Biotechnology, 38, (1), 51-60, (2008)
Sensors, 6, (8), 915-924, (2006)
Journal of Veterinary Pharmacology and Therapeutics, 35, (Supplement 3), 90-90, (2012)
Meucci V et al., Determination of phenylbutazone and flunixin meglumine in equine plasma by electrochemical-based sensing coupled to selective extraction with molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 179, 226-231, (2013)
Meucci V et al., Selective and simultaneous determination of NSAIDs in equine plasma by HPLC with molecularly imprinted solid-phase extraction.
Bioanalysis, 6, (16), 2147-2158, (2014)
Analytical Methods, 4, (10), 3187-3192, (2012)
Talanta, 120, 76-83, (2014)
Abstracts of Papers of the American Chemical Society, 246, (ANYL), 26-(2013)
Materials Science and Engineering: B, 178, (18), 1191-1194, (2013)
Jiang SH et al., A Novel Molecularly Imprinted Sensor for Direct Tartrazine Detection.
Analytical Letters, 47, (2), 323-330, (2014)
Zhao XY et al., Decoration of graphene with 2-aminoethanethiol functionalized gold nanoparticles for molecular imprinted sensing of erythrosine.
Carbon, 127, 618-626, (2018)
ACS Sustainable Chemistry & Engineering, 5, (10), 9506-9516, (2017)
Journal of Chromatography B, 877, (24), 2537-2544, (2009)
Javanbakht M et al., Molecularly Imprinted Polymers for Selective Solid-Phase Extraction of Verapamil from Biological Fluids and Human Urine.
Current Pharmaceutical Analysis, 5, (3), 269-276, (2009)
Frontiers in Microbiology, 7, ArticleNo798-(2016)
Rovina K et al., A Review of Extraction and Analytical Methods for the Determination of Tartrazine (E 102) in Foodstuffs.
Critical Reviews in Analytical Chemistry, 47, (4), 309-324, (2017)
Journal of the Iranian Chemical Society, 13, (1), 155-164, (2016)
Food Chemistry, 134, (1), 488-493, (2012)
Shakerian F et al., Synthesis of nano-pore size Al(III)-imprinted polymer for the extraction and preconcentration of aluminum ions.
Journal of the Iranian Chemical Society, 10, (4), 669-676, (2013)
Dadfarnia S et al., Synthesis of Nano-Pore Size Ag(I)-Imprinted Polymer for the Extraction and Preconcentration of Silver Ions Followed by Its Determination with Flame Atomic Absorption Spectrometry and Spectrophotometry Using Localized Surface Plasmon Resonance Peak of Silver Nanoparticles.
Journal of the Brazilian Chemical Society, 26, (6), 1180-1190, (2015)
Kazemi E et al., Synthesis and characterization of a nanomagnetic ion imprinted polymer for selective extraction of silver ions from aqueous samples.
Microchimica Acta, 182, (5-6), 1025-1033, (2015)
Pebdani AA et al., Solid phase microextraction of diclofenac using molecularly imprinted polymer sorbent in hollow fiber combined with fiber optic-linear array spectrophotometry.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 147, 26-30, (2015)
Russian Journal of Applied Chemistry, 84, (9), 1567-1574, (2011)
Men’shikova AYu et al., Crosslinked monodisperse particles containing luminophore groups in shells for molecular recognition of lower alcohols (Original Russian Text Š A.Yu. Men'shikova, N.N. Shevchenko, T.G. Evseeva, A.V. Koshkin, G.A. Pankova, B.M. Shabsel's, V.V. Faraonova, M.Ya. Goikhman, A.V. Yakimanskii, V.A. Sazhnikov, M.V. Alfimov, 2012, published in Russian in Vysokomolekulyarnye Soedineniya, Ser. B, 2012, Vol. 54, No. 1, pp. 93 - 101.).
Polymer Science Series B, 54, (1), 21-29, (2012)
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 562, 310-320, (2019)
TrAC Trends in Analytical Chemistry, 49, 20-30, (2013)
Hasanzadeh M et al., Cytosensing of cancer cells using antibody-based molecular imprinting: A short-review.
TrAC Trends in Analytical Chemistry, 99, 129-134, (2018)
Sardaremelli S et al., A novel bioassay for the monitoring of hydrogen peroxide in human plasma samples based on binding of horseradish peroxidase-conjugated prostate specific antigen to poly (toluidine blue) as imprinted polymer receptor.
International Journal of Biological Macromolecules, 145, 311-324, (2020)
Sensors and Actuators B: Chemical, 171-172, 1125-1131, (2012)
Nezhadali A et al., Computer-aided sensor design and analysis of thiocarbohydrazide in biological matrices using electropolymerized-molecularly imprinted polypyrrole modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 177, 871-878, (2013)
Nezhadali A et al., Computer-assisted sensor design and analysis of 2-aminobenzimidazole in biological model samples based on electropolymerized-molecularly imprinted polypyrrole modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 185, 17-23, (2013)
Nezhadali A et al., Neuro-genetic multi-objective optimization and computer-aided design of pantoprazole molecularly imprinted polypyrrole sensor.
Sensors and Actuators B: Chemical, 202, 240-251, (2014)
Nezhadali A et al., Determination of methimazole based on electropolymerized-molecularly imprinted polypyrrole modified pencil graphite sensor.
Materials Science and Engineering: C, 85, 225-232, (2018)
Electroanalysis, 25, (5), 1159-1168, (2013)
Faridbod F et al., Ionic Liquids Based Polymeric Membrane Drug Sensors.
Current Analytical Chemistry, 13, (1), 52-61, (2017)
Angewandte Chemie International Edition, 56, (52), 16555-16558, (2017)
Biosensors and Bioelectronics, 22, (6), 1154-1162, (2007)
Carbohydrate Polymers, 195, 652-661, (2018)
Monier M et al., Synthesis of azo-functionalized ion-imprinted polymeric resin for selective extraction of nickel(II) ions.
Polymer International, 67, (8), 1035-1045, (2018)
Indonesian Journal of Chemistry, 12, (3), 217-222, (2012)
Ishak N et al., Theoretical and experimental studies of ion imprinted polymer for nitrate detection.
Polymer Science, Series A, 59, (5), 649-659, (2017)
Environmental Science and Pollution Research, 26, (18), 18493-18508, (2019)
Chemical and Biological Technologies in Agriculture, 6, (1), Article15-(2019)
Sensor Letters, 12, (11), 1682-1687, (2014)
Mujahid A et al., Tailoring Imprinted Titania Nanoparticles for Purines Recognition.
Journal of Materials, 2015, ArticleNo903543-(2015)
Mujahid A et al., Molecularly imprinted titania nanoparticles for selective recognition and assay of uric acid.
Applied Nanoscience, 5, (5), 527-534, (2015)
Drug Delivery, 23, (8), 3017-3026, (2016)
Journal of Applied Polymer Science, 126, (1), 315-321, (2012)
Journal of Molecular Recognition, 29, (12), 572-579, (2016)
Gupta N et al., Epitope imprinting of iron binding protein of Neisseria meningitidis bacteria through multiple monomers imprinting approach.
Journal of Molecular Recognition, 31, (7), ArticleNoe2709-(2018)
Journal of Chromatography B, 877, (14-15), 1575-1582, (2009)
Shah KA et al., Microfluidic direct injection method for analysis of urinary 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL) using molecularly imprinted polymers coupled on-line with LC-MS/MS.
Journal of Pharmaceutical and Biomedical Analysis, 54, (2), 368-378, (2011)
In: Water Soluble Polymers: Synthesis, Solution Properties, and Applications, Shalaby SW, Butler GB (Eds.) The American Chemical Society: Washington DC, Ch. 4, 74-80, (1991)
Sensor Letters, 15, (1), 32-36, (2017)
Abstracts of Papers of the American Chemical Society, 223, (IEC), 084-084, (2002)
Brenner JR et al., A molecularly imprinted polymer for S-(-)-timolol.
Abstracts of Papers of the American Chemical Society, 223, (MEDI), 097-097, (2002)
Brenner JR et al., A molecularly imprinted polymer for recognition of S-(-)-timolol.
Abstracts of Papers of the American Chemical Society, 223, (ORGN), 174-174, (2002)
Brenner JR et al., A molecularly imprinted polymer for recognition of S-(-)-timolol.
Abstracts of Papers of the American Chemical Society, 223, (ANYL), 022-022, (2002)
Sensor Letters, 14, (11), 1089-1093, (2016)
Pakistan Journal of Analytical & Environmental Chemistry, 18, (1), 18-36, (2017)
Abdullah AB et al., Synthesis of ultrasonic-assisted lead ion imprinted polymer as a selective sorbent for the removal of Pb2+ in a real water sample.
Microchemical Journal, 146, 1160-1168, (2019)
Korean Journal of Chemical Engineering, 28, (9), 1936-1944, (2011)
Shah N et al., Chiral separation of phenylalanine using D-phenylalanine imprinted membrane containing L-phenylalanine imprinted submicron/nanoscale beads.
Journal of Pharmacy Research, 5, (8), 4425-4433, (2012)
Shah N et al., A Brief Overview of Molecularly Imprinted Polymers: From Basics to Applications.
Journal of Pharmacy Research, 5, (6), 3309-3317, (2012)
Shah N et al., Phenylalanine Imprinted Microbeads Prepared by Shaking Method.
International Journal of Engineering Research and Applications, 3, (3), 889-894, (2013)
Shah N et al., Adsorptive molecularly imprinted composite membranes for chiral separation of phenylalanine.
Polish Journal of Chemical Technology The Journal of West Pomeranian University of Technology, Szczecin, 18, (3), 22-29, (2016)
Gul S et al., Fabrication of magnetic core shell particles coated with phenylalanine imprinted polymer.
Polymer Testing, 75, 262-269, (2019)
Analytica Chimica Acta, 435, (1), 35-42, (2001)
Umpleby RJ et al., Recognition directed site-selective chemical modification of molecularly imprinted polymers.
Macromolecules, 34, (24), 8446-8452, (2001)
Umpleby RJ et al., Characterization of molecularly imprinted polymers with the Langmuir-Freundlich isotherm.
Analytical Chemistry, 73, (19), 4584-4591, (2001)
Rampey AM et al., Characterization of the imprint effect and the influence of imprinting conditions on affinity, capacity, and heterogeneity in molecularly imprinted polymers using the Freundlich isotherm-affinity distribution analysis.
Analytical Chemistry, 76, (4), 1123-1133, (2004)
Chemical Engineering Journal, 426, Article131440-(2021)
Journal of Chromatography A, 1343, 33-41, (2014)
Sun XL et al., Novel dummy molecularly imprinted polymers for matrix solid-phase dispersion extraction of eight fluoroquinolones from fish samples.
Journal of Chromatography A, 1359, 1-7, (2014)
Sun XL et al., Highly class-selective solid-phase extraction of bisphenols in milk, sediment and human urine samples using well-designed dummy molecularly imprinted polymers.
Journal of Chromatography A, 1360, 9-16, (2014)
Yang JJ et al., Novel sponge-like molecularly imprinted mesoporous silica material for selective isolation of bisphenol A and its analogues from sediment extracts.
Analytica Chimica Acta, 853, 311-319, (2015)
Shah SM et al., Highly Selective Solid-Phase Extraction of Pb(II) by Ion-Imprinted Superparamagnetic Mesoporous Silica.
ChemistrySelect, 4, (1), 259-264, (2019)
Talanta, 224, Article121760-(2021)
International Journal of Pharmaceutical Research & Allied Sciences, 1, (4), 1-6, (2012)
Journal of Applied Sciences, 14, (13), 1455-1459, (2014)
Shahaidah S et al., Molecularly imprinted membrane system for endocrine removal.
Desalination and Water Treatment, 55, 2700-2704, (2015)
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 495, 11-19, (2016)
Shahar T et al., Nanosphere molecularly imprinted polymers doped with gold nanoparticles for high selectivity molecular sensors.
Nano Research, 10, (3), 1056-1063, (2017)
Shahar T et al., Core-shell nanoparticles for gas phase detection based on silver nanospheres coated with a thin molecularly imprinted polymer adsorbed on a chemiresistor.
Nanoscale, 10, (37), 17593-17602, (2018)
International Journal of Pharmaceutical Research & Allied Sciences, 1, (4), 1-6, (2012)
Biosensors and Bioelectronics, 91, 606-615, (2017)
Banan K et al., MIP-based extraction techniques for the determination of antibiotic residues in edible meat samples: Design, performance & recent developments.
Trends In Food Science & Technology, 119, 164-178, (2022)
Microchimica Acta, 184, (10), 3997-4006, (2017)
Journal of Hazardous Materials, 342, 96-106, (2018)
Sensors, 6, (6), 593-615, (2006)
Xiao P et al., Synthesis and characterization of fluoroquinolone-imprinted polymeric nanoparticles.
Reactive and Functional Polymers, 72, (4), 287-293, (2012)
Cumbo A et al., SCS-FH Awards 11. A Novel Synthetic Virus Recognition Nanomaterial for Diagnostic and Environmental Applications.
Chimia, 67, (9), 655-656, (2013)
Cumbo A et al., A synthetic nanomaterial for virus recognition produced by surface imprinting.
Nature Communications, 4, Art. No. 1503-(2013)
Sykora S et al., Virus-like particles as virus substitutes to design artificial virus-recognition nanomaterials.
Chemical Communications, 51, (12), 2256-2258, (2015)
Journal of Chromatography A, 1610, Article460534-(2020)
Azizi A et al., Micro-gel thin film molecularly imprinted polymer coating for extraction of organophosphorus pesticides from water and beverage samples.
Analytica Chimica Acta, 1187, Article339135-(2021)
Shahhoseini F et al., Thin film molecularly imprinted polymer (TF-MIP), a selective and single-use extraction device for high-throughput analysis of biological samples.
Analyst, 146, (10), 3157-3168, (2021)
Journal of Chromatography A, 1054, (1-2), 95-111, (2004)
International Journal of Biological Macromolecules, 140, 140-148, (2019)
Journal of Nanostructures, 6, (3), 245-249, (2016)
Ultrasonics Sonochemistry, 61, Article104802-(2020)
Journal of Materials Research, 28, (19), 2677-2686, (2013)
Esfandyari-Manesh M et al., Paclitaxel molecularly imprinted polymer-PEG-folate nanoparticles for targeting anticancer delivery: Characterization and cellular cytotoxicity.
Materials Science and Engineering: C, 62, 626-633, (2016)
Journal of Chromatography B, 1061, 65-71, (2017)
Soleimani E et al., Selective determination of mandelic acid in urine using molecularly imprinted polymer in microextraction by packed sorbent.
Archives of Toxicology, 92, (1), 213-222, (2018)
Soleimani E et al., Correction to: Selective determination of mandelic acid in urine using molecularly imprinted polymer in microextraction by packed sorbent.
Archives of Toxicology, 92, (1), 223-223, (2018)
Reactive and Functional Polymers, 151, Article104580-(2020)
Journal of Separation Science, 39, (5), 1000-1008, (2016)
Khansari1 MR et al., Synthesis of Surface Molecularly Imprinting Polymers for Methylphenidate and its Application in Separating Methylphenidate.
Journal of Analytical & Bioanalytical Techniques, 8, (2), ArticleNo351-(2017)
Sensors and Actuators B: Chemical, 320, Article128316-(2020)
International Journal of Biological Macromolecules, 165, 2363-2377, (2020)
Iranian Journal of Environmental Health Science & Engineering, 5, (4), 283-296, (2008)
Koohpaei AR et al., Application of multivariate analysis to the screening of molecularly imprinted polymers (MIPs) for ametryn.
Talanta, 75, (4), 978-986, (2008)
Koohpaei AR et al., Optimization of solid-phase extraction using developed modern sorbent for trace determination of ametryn in environmental matrices.
Journal of Hazardous Materials, 170, (2-3), 1247-1255, (2009)
Rahiminejad M et al., Molecularly Imprinted Solid Phase Extraction for Trace Analysis of Diazinon in Drinking Water.
Iranian Journal of Environmental Health Science & Engineering, 6, (2), 97-106, (2009)
Rahiminezhad M et al., An experimental investigation of the molecularly imprinted polymers as tailor-made sorbents of diazinon.
Journal of Analytical Chemistry, 65, (7), 694-698, (2010)
Rahiminezhad M et al., Synthesis of Molecularly Imprinted Polymer as A Solid Phase Sorbent for Pesticide Dursban.
International Journal of Occupational Hygiene, 2, (3), 51-56, (2010)
Peighambarzadeh SZ et al., Presence of atrazine in the biological samples of cattle and its consequence adversity in human health.
Iranian Journal of Public Health, 40, (4), 112-121, (2011)
Omidi F et al., Coupling of Molecular Imprinted Polymer Nanoparticles by High Performance Liquid Chromatography as an Efficient Technique for Sensitive and Selective Trace Determination of 4-Chloro-2-Methylphenoxy Acetic Acid in Complex Matrices.
Iranian Journal of Public Health, 43, (5), 645-657, (2014)
Omidi F et al., Application of molecular imprinted polymer nanoparticles as a selective solid phase extraction for preconcentration and trace determination of 2, 4-dichlorophenoxyacetic acid in the human urine and different water samples.
Journal of Environmental Health Science and Engineering, 12, Article No 137-(2014)
Rahiminezhad M et al., Proceeding, Application of Response Surface Methodology to Synthesize Appropriate Molecularly Imprinted Polymer for Diazinon,
Hristoforou E, Vlachos DS (Eds.), 67-70, (2014)
Ganjali MR et al., All Solid State Graphene Based Potentiometric Sensors for Monitoring of Mercury Ions inWasteWater Samples.
International Journal of Environmental Research, 9, (1), 333-340, (2015)
Panjali Z et al., Development of a selective sorbent based on a magnetic ion imprinted polymer for the preconcentration and FAAS determination of urinary cadmium.
Analytical Methods, 7, (8), 3618-3624, (2015)
Khadem M et al., Biomimetic electrochemical sensor based on molecularly imprinted polymer for dicloran pesticide determination in biological and environmental samples.
Journal of the Iranian Chemical Society, 13, (11), 2077-2084, (2016)
Panjali Z et al., A Simple and Fast Method Based on New Magnetic Ion Im-printed Polymer as a Highly Selective Sorbent for Preconcentra-tion and Determination of Cadmium in Environmental Samples.
Iranian Journal of Public Health, 45, (8), 1044-1053, (2016)
Khadem M et al., Modification of Carbon Paste Electrode Based on Molecularly Imprinted Polymer for Electrochemical Determination of Diazinon in Biological and Environmental Samples.
Electroanalysis, 29, (3), 708-715, (2017)
Khadem M et al., Development of a specific electrochemical sensor for occupational and environmental monitoring of Diazinon.
Tehran University Medical Journal - Health and Safety at Work, 7, (1), 9-22, (2017)
Shahtaheri SJ et al., Highly Selective Voltammetric Sensor Based on Molecularly Imprinted Polymer and Carbon Nanotubes to Determine the Dicloran Pesticide in Biological and Environmental Samples.
Procedia Technology, 27, 96-97, (2017)
Heravizadeh OR et al., Synthesis of molecular imprinted polymer nanoparticles followed by application of response surface methodology for optimization of metribuzin extraction from urine samples.
Chemical Papers, 72, (12), 3057-3068, (2018)
Heravizadeh OR et al., Synthesis of molecularly imprinted nanoparticles for selective exposure assessment of permethrin: optimization by response surface methodology.
Journal of Environmental Health Science and Engineering, 17, (1), 393-406, (2019)
Journal of Chromatography A, 1247, (1), 125-133, (2012)
Shaikh H et al., Core-shell molecularly imprinted polymer-based solid-phase microextraction fiber for ultra trace analysis of endosulfan I and II in real aqueous matrix through gas chromatography-micro electron capture detector.
Journal of Chromatography A, 1337, 179-187, (2014)
Türkmen D et al., Molecular imprinted magnetic nanoparticles for controlled delivery of mitomycin C.
Artificial Cells, Nanomedicine, and Biotechnology, 42, (5), 316-322, (2014)
Shaikh H et al., Synthesis and characterization of molecularly imprinted polymer embedded composite cryogel discs: application for the selective extraction of cypermethrins from aqueous samples prior to GC-MS analysis.
RSC Advances, 5, (34), 26604-26615, (2015)
Shaikh H et al., Molecularly imprinted surface plasmon resonance (SPR) based sensing of bisphenol A for its selective detection in aqueous systems.
Analytical Methods, 7, (11), 4661-4670, (2015)
Malik MI et al., Recent Applications of Molecularly Imprinted Polymers in Analytical Chemistry.
Separation & Purification Reviews, 48, (3), 179-219, (2019)
Zahara S et al., Molecular imprinting-based extraction of rosmarinic acid from Salvia hypoleuca extract.
Reactive and Functional Polymers, 166, Article104984-(2021)
Reactive and Functional Polymers, 152, Article104597-(2020)
Bioorganic & Medicinal Chemistry, 6, (9), 1421-1428, (1998)
(2012)
Hawari HF et al., Array of MIP-Based Sensor for Fruit Maturity Assessment.
Procedia Chemistry, 6, 100-109, (2012)
Hawari HF et al., Proceeding, Recognition of Limonene volatile using Interdigitated Electrode molecular imprinted polymer sensor,
723-726, (2012)
Halim NFA et al., Grafting Amino-acid Molecular Imprinted Polymer on Carbon Nanotube for Sensing.
Procedia Engineering, 53, 64-70, (2013)
Hawari HF et al., Development of Interdigitated Electrode Molecular Imprinted Polymer Sensor for Monitoring Alpha Pinene Emissions from Mango Fruit.
Procedia Engineering, 53, 197-202, (2013)
Hawari HF et al., Highly selective molecular imprinted polymer (MIP) based sensor array using interdigitated electrode (IDE) platform for detection of mango ripeness.
Sensors and Actuators B: Chemical, 187, 434-444, (2013)
Halim NFA et al., Proceeding, Serine Sensor Based on Graphene Sheet Congo-Red Molecular Imprinted Polymer (GSCR-MIP) Organic Thin Film Transistor (OTFT),
Al-Douri Y (Ed.), 500-504, (2014)
Halim NFAB et al., Reduced graphene oxide/molecular imprinted polymer-organic thin film transistor for amino acid detection.
AIP Conference Proceedings, 1808, (1), ArticleNo020019-(2017)
Microchemical Journal, 159, Article105443-(2020)
Kisomi AS et al., [mu]-Thin-layer chromatography coupled with laser ablation-inductively coupled plasma-mass spectrometry using tin(II)-imprinted polymer nanoparticles as a stationary phase for speciation of tin.
Microchimica Acta, 187, (5), Article298-(2020)
Korean Journal of Chemical Engineering, 31, (10), 1898-1902, (2014)
(2011)
Shakerian F et al., Synthesis and application of nano-pore size ion imprinted polymer for solid phase extraction and determination of zinc in different matrices.
Food Chemistry, 134, (1), 488-493, (2012)
Shakerian F et al., Synthesis of nano-pore size Al(III)-imprinted polymer for the extraction and preconcentration of aluminum ions.
Journal of the Iranian Chemical Society, 10, (4), 669-676, (2013)
Shakerian F et al., Synthesis and characterisation of nano-pore antimony imprinted polymer and its use in the extraction and determination of antimony in water and fruit juice samples.
Food Chemistry, 145, 571-577, (2014)
Shakerian F et al., Advanced polymeric materials: Synthesis and analytical application of ion imprinted polymers as selective sorbents for solid phase extraction of metal ions.
TrAC Trends in Analytical Chemistry, 83, (Part B), 55-69, (2016)
Efendiev AA et al., Structural setting of active-centers of metallopolymeric complex catalysis for hydrocarbon substrate.
Kinetics And Catalysis, 27, (2), 451-452, (1986)
In: Preparation of Catalysts VII, Delmon B, Jacobs PA, Maggi R, Martens JA, Grange P, Poncelet G (Eds.) Elesevier: Amsterdam, 533-540, (1998)
Analytical Chemistry, 80, (8), 2881-2887, (2008)
In: Water Soluble Polymers: Synthesis, Solution Properties, and Applications, Shalaby SW, Butler GB (Eds.) The American Chemical Society: Washington DC, Ch. 4, 74-80, (1991)
Industrial & Engineering Chemistry Research, 60, (33), 12328-12342, (2021)
Journal of Analytical Chemistry, 69, (8), 758-762, (2014)
Electrochimica Acta, 114, 409-415, (2013)
Manbohi A et al., Nanostructure conducting molecularly imprinted polypyrrole film as a selective sorbent for benzoate ion and its application in spectrophotometric analysis of beverage samples.
Food Chemistry, 155, 186-191, (2014)
Journal of Polymer Research, 25, (3), ArticleNo84-(2018)
Amininasab SM et al., Sensitive Detection of Morphine by Efficient Molecular Imprinted Polymers Based on Goethite Nanorods.
Macromolecular Research, 26, (8), 730-737, (2018)
Hassanzadeh M et al., An effective approach for fast selective separation of Cr(VI) from water by ion-imprinted polymer grafted on the electro-spun nanofibrous mat of functionalized polyacrylonitrile.
Reactive and Functional Polymers, 130, 70-80, (2018)
New Journal of Chemistry, 40, (10), 8479-8487, (2016)
Alizadeh T et al., Synthesis of nano-sized stereoselective imprinted polymer by copolymerization of (S)-2-(acrylamido) propanoic acid and ethylene glycol dimethacrylate in the presence of racemic propranolol and copper ion.
Materials Science and Engineering: C, 63, 247-255, (2016)
Alizadeh T et al., Chiral resolution of salbutamol in plasma sample by a new chiral ligand-exchange chromatography method after its extraction with nano-sized imprinted polymer.
Journal of Chromatography B, 1009-1010, 96-106, (2016)
Current Drug Discovery Technologies, 14, (3), 169-180, (2017)
Polymers for Advanced Technologies, 28, (7), 828-841, (2017)
Madadian-Bozorg N et al., Poly (methacrylic acid)-based molecularly imprinted polymer nanoparticles containing 5-fluourouracil used in colon cancer therapy potentially.
Polymers for Advanced Technologies, 29, (8), 2401-2409, (2018)
In: Chiral Separation Techniques, Subramanian G (Ed.) WILEY-VCH Verlag GmbH & Co.: Weinheim, Ch. 14, 441-504, (2007)
Priego-Capote F et al., Monoclonal Behavior of Molecularly Imprinted Polymer Nanoparticles in Capillary Electrochromatography.
Analytical Chemistry, 80, (8), 2881-2887, (2008)
Analytica Chimica Acta, 599, (2), 294-301, (2007)
Analytica Chimica Acta, 581, (2), 208-213, (2007)
Shamsipur M et al., Grafting of Ion-Imprinted Polymers on the Surface of Silica Gel Particles through Covalently Surface-Bound Initiators: A Selective Sorbent for Uranyl Ion.
Analytical Chemistry, 79, (18), 7116-7123, (2007)
Shamsipur M et al., A stoichiometric imprinted chelating resin for selective recognition of copper(II) ions in aqueous media.
Analytica Chimica Acta, 599, (2), 294-301, (2007)
Shamsipur M et al., Synthesis and characterization of novel ion-imprinted polymeric nanoparticles for very fast and highly selective recognition of copper(II) ions.
Talanta, 83, (2), 674-681, (2010)
Fasihi J et al., Adsorption of uranyl ion onto an anthraquinone based ion-imprinted copolymer.
Reactive and Functional Polymers, 71, (8), 803-808, (2011)
Shamsipur M et al., Synthesis of a novel nanostructured ion-imprinted polymer for very fast and highly selective recognition of copper(II) ions in aqueous media.
Reactive and Functional Polymers, 71, (2), 131-139, (2011)
Rajabi HR et al., Preparation of a novel potassium ion imprinted polymeric nanoparticles based on dicyclohexyl 18C6 for selective determination of K+ ion in different water samples.
Materials Science and Engineering: C, 33, (6), 3374-3381, (2013)
Rajabi HR et al., Development of a highly selective voltammetric sensor for nanomolar detection of mercury ions using glassy carbon electrode modified with a novel ion imprinted polymeric nanobeads and multi-wall carbon nanotubes.
Journal of Electroanalytical Chemistry, 693, 16-22, (2013)
Shamsipur M et al., Bulk polymer nanoparticles containing a tetrakis(3-hydroxyphenyl)porphyrin for fast and highly selective separation of mercury ions.
Microchimica Acta, 180, (9-10), 791-799, (2013)
Shamsipur M et al., Flame photometric determination of cesium ion after its preconcentration with nanoparticles imprinted with the cesium-dibenzo-24-crown-8 complex.
Microchimica Acta, 180, (3-4), 243-252, (2013)
Bahrami A et al., A highly selective voltammetric sensor for sub-nanomolar detection of lead ions using a carbon paste electrode impregnated with novel ion imprinted polymeric nanobeads.
Electrochimica Acta, 118, 92-99, (2014)
Gholivand MB et al., Development of a selective and sensitive voltammetric sensor for propylparaben based on a nanosized molecularly imprinted polymer-carbon paste electrode.
Materials Science and Engineering: C, 36, 102-107, (2014)
Shamsipur M et al., Ion imprinted polymeric nanoparticles for selective separation and sensitive determination of zinc ions in different matrices.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 117, 24-33, (2014)
Shamsipur M et al., Silver ion imprinted polymer nanobeads based on a aza-thioether crown containing a 1, 10-phenanthroline subunit for solid phase extraction and for voltammetric and potentiometric silver sensors.
Analytica Chimica Acta, 852, 223-235, (2014)
Bahrami A et al., A highly selective voltammetric sensor for nanomolar detection of mercury ions using a carbon ionic liquid paste electrode impregnated with novel ion imprinted polymeric nanobeads.
Materials Science and Engineering: C, 48, 205-212, (2015)
Besharati-Seidani A et al., Ion-imprinted polymeric nanoparticles for fast and selective separation of lanthanum(III).
Microchimica Acta, 182, (9-10), 1747-1755, (2015)
Hashemi B et al., Synthesis and characterization of ion imprinted polymeric nanoparticles for selective extraction and determination of mercury ions.
Analytical Methods, 7, (22), 9641-9648, (2015)
Hashemi B et al., Synthesis of novel ion-imprinted polymeric nanoparticles based on dibenzo-21-crown-7 for the selective pre-concentration and recognition of rubidium ions.
Journal of Separation Science, 38, (24), 4248-4254, (2015)
Rajabi HR et al., On-line flow injection solid phase extraction using imprinted polymeric nanobeads for the preconcentration and determination of mercury ions.
Chemical Engineering Journal, 259, 330-337, (2015)
Bagheri H et al., Magnetic molecularly imprinted composite for the selective solid-phase extraction of p-aminosalicylic acid followed by high-performance liquid chromatography with ultraviolet detection.
Journal of Separation Science, 39, (21), 4166-4174, (2016)
Fasihi J et al., Imprinted polymer grafted from silica particles for on-line trace enrichment and ICP OES determination of uranyl ion.
Microchemical Journal, 126, 316-321, (2016)
Hashemi B et al., Synthesis of ion imprinted polymeric nanoparticles for selective pre-concentration and recognition of lithium ions.
New Journal of Chemistry, 40, (5), 4803-4809, (2016)
Hashemi B et al., Preparation of a K+-imprinted polymer for the selective recognition of K+ in food samples.
Journal of Separation Science, 39, (10), 2006-2012, (2016)
Hashemi B et al., Recent developments and applications of different sorbents for SPE and SPME from biological samples.
Talanta, 187, 337-347, (2018)
Shamsipur M et al., Coupled electrochemical-chemical procedure used in construction of molecularly imprinted polymer-based electrode: a highly sensitive impedimetric melamine sensor.
Journal of Solid State Electrochemistry, 22, (1), 169-180, (2018)
Shamsipur M et al., Synthesis, characterization and using a new terpyridine moiety-based ion-imprinted polymer nanoparticle: sub-nanomolar detection of Pb(II) in biological and water samples.
Chemical Papers, 72, (11), 2707-2717, (2018)
Ardalani M et al., A new generation of highly sensitive potentiometric sensors based on ion imprinted polymeric nanoparticles/multiwall carbon nanotubes/polyaniline/graphite electrode for sub-nanomolar detection of lead(II) ions.
Journal of Electroanalytical Chemistry, 879, Article114788-(2020)
Shamsipur M et al., Development of an ultrasensitive electrochemical genosensor for detection of HIV-1 pol gene using a gold nanoparticles coated carbon paste electrode impregnated with lead ion-imprinted polymer nanomaterials as a novel electrochemical probe.
Microchemical Journal, 160, Article105714-(2021)
Biosensors and Bioelectronics, 143, Article111620-(2019)
Afzali M et al., Designing a rapid and selective electrochemical nanosensor based on molecularly imprinted polymer on the Fe3O4/MoS2/glassy carbon electrode for detection of immunomodulatory drug pomalidomide.
Microchemical Journal, 164, Article106039-(2021)
Water Research, 205, Article117670-(2021)
In: Immunoassays in Agricultural Biotechnology, Shan GM (Ed.) John Wiley & Sons, Inc.: Hoboken, New Jersey, 325-339, (2011)
Acta Polymerica Sinica, (1), 100-106, (2011)
Shan JJ et al., Preparation and Characterization of a Metal-Complexing Imprinted Polymer for Improved Quercetin Recognition.
Separation Science and Technology, 46, (1), 164-171, (2011)
Huangfu FY et al., Enantioselective analysis of naproxen using chiral molecular imprinting polymers based thin-layer chromatography.
E-Polymers, Art No 017-(2013)
Liu J et al., Precipitate Preparation of Chloramphenicol Molecularly Imprinted Nanospheres By Electron Beam Radiation.
Polymer Materials Science and Engineering, 30, (7), 143-148, (2014)
Guo C et al., Preparation of Thermosensitive Hollow Imprinted Microspheres via Combining Distillation Precipitation Polymerization and Thiol-ene Click Chemistry.
Chinese Journal of Chemistry, 33, (2), 225-234, (2015)
Guo C et al., Preparation of ibuprofen's metal-complexing imprinted polymer membrane via radiation polymerization.
Journal of Functional Materials, 46, (14), 14134-14139, (2015)
Sun ZC et al., Preparation and Characterization of Vanillin Molecularly Imprinted Polymer Microspheres.
Modern Food Science and Technology, 31, (9), 132-137, (2015)
Wang S et al., Preparation of magnetic molecularly imprinted polymer beads and their recognition for baicalein.
RSC Advances, 5, (11), 8028-8036, (2015)
Wang S et al., Synthesis of Baicalein Imprinted Polymer Microspheres by Precipitation Polymerization.
Polymer Materials Science and Engineering, 31, (1), 170-174+179, (2015)
Si HT et al., Synthesis of magnetic molecularly imprinted nanoparticles and their selective adsorption for dibenzothiophene.
Journal of Functional Materials, 47, (S1), 188-192, (2016)
Sun ZC et al., Preparation of Cadmium(II) Ion Imprinted Polymer Microspheres by Seedball Swelling Suspension Polymerization.
Chinese Journal of Materials Research, 30, (9), 669-674, (2016)
International Journal of Electrochemical Science, 15, 12587-12598, (2020)
Zhang GJ, Xu J (Eds.), 777-782, (2010)
Food Science, 34, (12), 45-50, (2013)
Fu LL et al., Magnetic carbon nanotubes-molecularly imprinted polymer coupled with HPLC for selective enrichment and determination of ferulic acid in traditional Chinese medicine and biological samples.
Journal of Chromatography B, 1180, Article122870-(2021)
Separation and Purification Technology, 177, 142-151, (2017)
Separation and Purification Technology, 76, (3), 337-344, (2011)
Separation and Purification Technology, 284, Article120240-(2022)
Chinese Journal of Chromatography, 30, (4), 423-427, (2012)
Kong Y et al., A novel voltammetric sensor for ascorbic acid based on molecularly imprinted poly(o-phenylenediamine-co-o-aminophenol).
Analytica Chimica Acta, 809, 54-60, (2014)
Shan XL et al., Spontaneous and specific binding of enterohemorrhagic Escherichia coli to overoxidized polypyrrole-coated microspheres.
Chemical Communications, 53, (27), 3890-3893, (2017)
Shan XL et al., Binding Constant of the Cell-shaped Cavity Formed on a Polymer for Escherichia coli O157.
Analytical Sciences, 34, (4), 483-486, (2018)
Shan XL et al., A rapid and specific bacterial detection method based on cell-imprinted microplates.
Analyst, 143, (7), 1568-1574, (2018)
Chen XH et al., Derivative chiral copper(II) complexes as template of an electrochemical molecular imprinting sol-gel sensor for enantiorecognition of aspartic acid.
Analytica Chimica Acta, 1072, 54-60, (2019)
Journal of Solid State Electrochemistry, 23, (4), 1211-1220, (2019)
Journal of Molecular Recognition, 34, (11), Article_e2930-(2021)
Zhao YJ et al., A novel molecularly imprinted polymer electrochemiluminescence sensor based on Fe2O3@Ru(bpy)32+ for determination of clenbuterol.
Sensors and Actuators B: Chemical, 350, Article130822-(2022)
Indian Journal of Chemistry, 55A, 1458-1464, (2016)
Wang ZH et al., Development and application of the tartrazine voltammetric sensors based on molecularly imprinted polymers.
International Journal of Polymer Analysis and Characterization, 22, (1), 83-91, (2017)
Chemical Engineering Journal, 191, (1), 85-94, (2012)
Zhou LM et al., Selective adsorption of uranium(VI) from aqueous solutions using the ion-imprinted magnetic chitosan resins.
Journal of Colloid and Interface Science, 366, (1), 165-172, (2012)
Shang C et al., Adsorption properties for uranium(VI) ions using ion-imprinted magnetic chitosan microspheres.
Polymer Materials Science and Engineering, 29, (1), 56-59, (2013)
Chen AW et al., Carbon disulfide-modified magnetic ion-imprinted chitosan-Fe(III): A novel adsorbent for simultaneous removal of tetracycline and cadmium.
Carbohydrate Polymers, 155, 19-27, (2017)
Talanta, 115, 920-927, (2013)
Chemistry & Bioengineering, 22, (6), 28-30, (2005)
Modern Chemical Industry, 33, (12), 28-30, 32, (2013)
Shang HZ et al., Research progress of ion imprinted polymer.
Modern Chemical Industry, 33, (2), 20-23, 25, (2013)
Shang HZ et al., Latest research development of ion imprinted polymer.
Modern Chemical Industry, 36, (9), 32-35, (2016)
Wang HQ et al., Preparation and adsorption performance of novel ion imprinting magnetic microspheres.
Modern Chemical Industry, 36, (5), 57-60, (2016)
He JN et al., Synthesis and application of ion imprinting polymer coated magnetic multi-walled carbon nanotubes for selective adsorption of nickel ion.
Applied Surface Science, 428, 110-117, (2018)
Zhang X et al., Preparation and properties of thermo-sensitive surface Pb(II) ion-imprinted polymers.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 577, 138-146, (2019)
Chinese Journal of Analytical Chemistry, 40, (1), 95-100, (2012)
Water Science And Technology, 74, (5), 1193-1201, (2016)
Song YQ et al., Synthesis of an inorganic-framework molecularly imprinted Fe-doped TiO2 composite and its selective photo-Fenton-like degradation of acid orange II.
Journal of Chemical Technology & Biotechnology, 92, (8), 2038-2049, (2017)
Song YQ et al., Selective Fenton-like catalytic oxidation of acid orange II on inorganic heterogeneous molecular imprinted catalysts.
Journal of Advanced Oxidation Technologies, 20, (1), ArticleNo20160195-(2017)
Zhang YY et al., Selective Fenton-like oxidation of methylene blue on modified Fe-zeolites prepared via molecular imprinting technique.
Water Science And Technology, 75, (3), 659-(2017)
ACS Applied Materials & Interfaces, 6, (21), 18721-18727, (2014)
Pan YH et al., A novel electrochemical 4-nonyl-phenol sensor based on molecularly imprinted poly (o-phenylenediamine-co-o-toluidine)-nitrogen-doped graphene nanoribbons-ionic liquid composite film.
Electrochimica Acta, 151, 423-428, (2015)
Shang L et al., LSPR sensor array based on molecularly imprinted sol-gels for pattern recognition of volatile organic acids.
Sensors and Actuators B: Chemical, 249, 14-21, (2017)
Liu CJ et al., Preparation of molecularly imprinted polymer nanobeads for selective sensing of carboxylic acid vapors.
Analytica Chimica Acta, 1010, 1-10, (2018)
Shang L et al., Development of molecular imprinted sol-gel based LSPR sensor for detection of volatile cis-jasmone in plant.
Sensors and Actuators B: Chemical, 260, 617-626, (2018)
Shang L et al., Plant Biomarker Recognition by Molecular Imprinting Based Localized Surface Plasmon Resonance Sensor Array: Performance Improvement by Enhanced Hotspot of Au Nanostructure.
ACS Sensors, 3, (8), 1531-1538, (2018)
Chemical Communications, 52, (16), 3296-3299, (2016)
Chen HX et al., Hierarchically Molecular Imprinted Porous Particles for Biomimetic Kidney Cleaning.
Advanced Materials, 32, (52), Article2005394-(2020)
Sensors and Actuators B: Chemical, 338, Article129858-(2021)
Canadian Journal of Chemistry - Revue Canadienne de Chimie, 95, (7), 799-805, (2017)
Li LL et al., Preparation and Application of Bisphenol-A TiO2 Gel Molecularly Imprinted Electrochemical Sensor Based on the Sensitivity-Enhancement of Gold Nanoparticles.
Chinese Journal of Applied Chemistry, 35, (4), 484-490, (2018)
Food Chemistry, 266, 170-174, (2018)
Zhao L et al., Improving affinity of [beta]-cyclodextrin-based molecularly imprinted polymer using room temperature ionic liquid.
European Polymer Journal, 116, 275-282, (2019)
Chemical Industry and Engineering Progress, 24, (1), 25-27+56, (2005)
Sensors and Actuators B: Chemical, 201, 167-172, (2014)
Chinese Chemical Letters, 22, (5), 611-614, (2011)
Wang P et al., Fluorescent, magnetic dual-responsive molecularly imprinted polymers for the selective detection of moxidectin in animal samples.
Journal of the Iranian Chemical Society, 14, (4), 755-762, (2017)
Chinese Journal of Analytical Chemistry, 28, (12), 1531-1534, (2000)
Wang JF et al., Simultaneous chiral separation of two pairs of enantiomers using series column of molecular imprinted phase.
Chinese Journal of Analytical Chemistry, 28, (9), 1096-1098, (2000)
Su LQ et al., Investigation of separation of caffeine and theophylline on molecular imprinted polymer stationary phases by high performance liquid chromatography.
Chemical Journal of Chinese Universities, 22, (7), 1122-1124, (2001)
Liu XL et al., The application and advancement of molecular imprinting technology.
Chinese Journal of Analytical Chemistry, 30, (10), 1260-1266, (2002)
Analytical Methods, 5, (21), 6064-6070, (2013)
Shang ZY et al., Advance Research of Molecular Imprinted Chemical Sensors Based on Electropolymerization.
Journal of Instrumental Analysis, 32, (11), 1401-1408, (2013)
Shang ZY et al., An Electrochemiluminescence Sensor with Molecularly Imprinted Polymer for Heroin Detection.
Chinese Journal of Analytical Chemistry, 42, (6), 904-908, (2014)
Biomedical Chromatography, 19, (7), 533-538, (2005)
Liu XJ et al., Monolithic molecularly imprinted polymer for sulfamethoxazole and molecular recognition properties in aqueous mobile phase.
Analytica Chimica Acta, 571, (2), 235-241, (2006)
Liu XJ et al., Uniform-sized molecularly imprinted polymer for metsulfuron-methyl by one-step swelling and polymerization method.
Talanta, 71, (3), 1205-1210, (2007)
Food Chemistry, 363, Article130287-(2021)
Progress in Polymer Science, 88, 1-129, (2019)
Analytica Chimica Acta, 708, (1-2), 37-43, (2011)
Li B (Ed.), 340-343, (2012)
Nature, 332, (6163), 426-429, (1988)
Journal of Agricultural and Food Chemistry, 62, (46), 11130-11137, (2014)
Asian Journal of Chemistry, 25, (16), 9105-9109, (2013)
Journal of Physical Chemistry B, 114, (11), 3999-4004, (2010)
Journal of Separation Science, 35, (7), 816-822, (2012)
International Journal of Biological Macromolecules, 181, 1231-1242, (2021)
Wu XD et al., Preparation and application of modified three-dimensional cellulose microspheres for paclitaxel targeted separation.
Journal of Chromatography A, 1655, Article462487-(2021)
Analytical and Bioanalytical Chemistry, 382, (1), 51-58, (2005)
Wang M et al., Determination of Melamine Using Magnetic Molecular Imprinted Polymers and High Performance Liquid Chromatography.
Analytical Letters, 46, (1), 120-130, (2013)
Du XW et al., Synthesis and Application of Class-specific Molecularly Imprinted Polymer for Triazine Pesticides.
Journal of Instrumental Analysis, 34, (7), 755-761, (2015)
Liu GY et al., Preparation of a magnetic molecularly imprinted polymer using g-C3N4-Fe3O4 for atrazine adsorption.
Materials Letters, 160, 472-475, (2015)
Du XW et al., Fluorescent competitive assay for melamine using dummy molecularly imprinted polymers as antibody mimics.
Journal of Integrative Agriculture, 15, (5), 1166-1177, (2016)
Li TF et al., Electrochemical detection of ractopamine based on a molecularly imprinted poly-o-phenylenediamine/gold nanoparticle-ionic liquid-graphene film modified glass carbon electrode.
RSC Advances, 6, (71), 66949-66956, (2016)
Liu GY et al., Competitive fluorescence assay for specific recognition of atrazine by magnetic molecularly imprinted polymer based on Fe3O4-chitosan.
Carbohydrate Polymers, 137, 75-81, (2016)
Zeng SM et al., Analysis of Four Tropane Alkaloids in Przewalskia Tangutica Maxim.by Analogous-specific Molecularly Imprinted Solid-phase Extraction Combined with High Performance Liquid Chromatography.
Journal of Instrumental Analysis, 35, (4), 373-379, (2016)
Zhang C et al., Preparation of an Electrochemical Sensor Based on Molecularly Imprinted Polymer and Its Application in Determination of Glyphosate Residues in Water Samples.
Journal of Instrumental Analysis, 35, (12), 1542-1547, (2016)
Chen G et al., A sensitive chemiluminescence enzyme immunoassay based on molecularly imprinted polymers solid-phase extraction of parathion.
Analytical Biochemistry, 530, 87-93, (2017)
Zhang C et al., A highly selective electrochemical sensor based on molecularly imprinted polypyrrole-modified gold electrode for the determination of glyphosate in cucumber and tap water.
Analytical and Bioanalytical Chemistry, 409, (30), 7133-7144, (2017)
Zhao FN et al., Selective Determination of Chloramphenicol in Milk Samples by the Solid-Phase Extraction Based on Dummy Molecularly Imprinted Polymer.
Food Analytical Methods, 10, (7), 2566-2575, (2017)
Zhao FN et al., Selective solid-phase extraction based on molecularly imprinted technology for the simultaneous determination of 20 triazole pesticides in cucumber samples using high-performance liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 1064, 143-150, (2017)
Zhao FN et al., Subcritical water extraction combined with molecular imprinting technology for sample preparation in the detection of triazine herbicides.
Journal of Chromatography A, 1515, 17-22, (2017)
Hong SH et al., Biomimetic enzyme-linked immunoassay based on a molecularly imprinted 96-well plate for the determination of triazophos residues in real samples.
RSC Advances, 8, (37), 20549-20556, (2018)
Yan MM et al., Advance of molecularly imprinted technology based on nanomaterials.
Chinese Journal of Analysis Laboratory, 37, (5), 607-613, (2018)
Zhang C et al., A disposable molecularly imprinted sensor based on Graphe@AuNPs modified screen-printed electrode for highly selective and sensitive detection of cyhexatin in pear samples.
Sensors and Actuators B: Chemical, 284, 13-22, (2019)
Zhao MJ et al., The determination of patulin from food samples using dual-dummy molecularly imprinted solid-phase extraction coupled with LC-MS/MS.
Journal of Chromatography B, 1125, Article121714-(2019)
Zhao MJ et al., Preparation of core-shell magnetic molecularly imprinted polymers for extraction of patulin from juice samples.
Journal of Chromatography A, 1615, Article460751-(2020)
Microchimica Acta, 184, (12), 4861-4868, (2017)
Sensors and Actuators B: Chemical, 252, 934-943, (2017)
Journal of Pharmaceutical and Biomedical Analysis, 111, 241-247, (2015)
Shao HK et al., Preparation of molecularly imprinted hybrid monoliths for the selective detection of fluoroquinolones in infant formula powders.
Journal of Chromatography A, 1588, 33-40, (2019)
Optical Materials, 121, Article111581-(2021)
Xue Y et al., Rapid detection of orange II dyes in water with SERS imprinted sensor based on PDA-modified MOFs@Ag.
Journal of Environmental Chemical Engineering, 9, (6), Article106317-(2021)
Ye HP et al., Magnetic molecularly imprinted polymers for extraction of S-phenylmercapturic acid from urine samples followed by high-performance liquid chromatography.
Journal of Molecular Recognition, 34, (11), Article_e2930-(2021)
Biosensors and Bioelectronics, 75, 411-419, (2016)
de Dieu Habimana J et al., A class-specific artificial receptor-based on molecularly imprinted polymer-coated quantum dot centers for the detection of signaling molecules, N-acyl-homoserine lactones present in gram-negative bacteria.
Analytica Chimica Acta, 1031, 134-144, (2018)
Carbohydrate Polymers, 155, 19-27, (2017)
Chinese Journal of Chromatography, 28, (11), 1107-1110, (2010)
Optics Express, 25, (26), ArticleNo33193-(2017)
RSC Advances, 4, (56), 29715-29723, (2014)
Journal of Materials Chemistry, 22, (9), 3990-3996, (2012)
Toxins, 10, (11), ArticleNo438-(2018)
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 566, 218-228, (2019)
Journal of Hazardous Materials, 379, Article120791-(2019)
Yu HY et al., Palladium ion-imprinted polymers with PHEMA polymer brushes: Role of grafting polymerization degree in anti-interference.
Chemical Engineering Journal, 359, 176-185, (2019)
Ni CQ et al., Selective removal and recovery of La(III) using a phosphonic-based ion imprinted polymer: Adsorption performance, regeneration, and mechanism.
Journal of Environmental Chemical Engineering, 9, (6), Article106701-(2021)
Journal of Instrumental Analysis, 35, (10), 1278-1282, (2016)
ECS Journal of Solid State Science and Technology, 7, (7), Q3189-Q3195, (2018)
Bartold K et al., Promoting bioanalytical concepts in genetics: A TATA box molecularly imprinted polymer as a small isolated fragment of the DNA damage repairing system.
Materials Science and Engineering: C, 100, 1-10, (2019)
Dabrowski M et al., Facile Fabrication of Surface-Imprinted Macroporous Films for Chemosensing of Human Chorionic Gonadotropin Hormone.
ACS Applied Materials & Interfaces, 11, (9), 9265-9276, (2019)
Sensors, 14, (5), 8810-8820, (2014)
Pan Y et al., Selective Surface Acoustic Wave-Based Organophosphorus Sensor Employing a Host-Guest Self-Assembly Monolayer of [beta]-Cyclodextrin Derivative.
Sensors, 15, (8), 17916-17925, (2015)
Computers and Applied Chemistry, 25, (12), 1577-1580, (2008)
Journal of Instrumental Analysis, 27, (10), 1039-1043, (2008)
Analytical Chemistry, 90, (9), 5552-5556, (2018)
Ma XB et al., Extraction and identification of matrine-type alkaloids from Sophora moorcroftiana using double-templated molecularly imprinted polymers with HPLCGÇôMS/MS.
Journal of Separation Science, 41, (7), 1691-1703, (2018)
Yin ZZ et al., Highly sensitive and selective sensor for sunset yellow based on molecularly imprinted polydopamine-coated multi-walled carbon nanotubes.
Biosensors and Bioelectronics, 100, 565-570, (2018)
Yan MM et al., A molecularly imprinted polymer with integrated gold nanoparticles for surface enhanced Raman scattering based detection of the triazine herbicides, prometryn and simetryn.
Microchimica Acta, 186, (3), Article143-(2019)
Yu HL et al., Preparation of molecularly imprinted polymers coupled with high-performance liquid chromatography for the selective extraction of salidroside from Rhodiola crenulata.
Journal of Chromatography B, 1118-1119, 180-186, (2019)
Ma J et al., An overview on molecular imprinted polymers combined with surface-enhanced Raman spectroscopy chemical sensors toward analytical applications.
Talanta, 225, Article122031-(2021)
Analytica Chimica Acta, 817, 17-22, (2014)
Journal of Chromatography A, 1216, (44), 7546-7552, (2009)
Journal of Hazardous Materials, 339, 418-426, (2017)
Wu Q et al., Well-defined nanostructured core-shell magnetic surface imprinted polymers (Fe3O4@SiO2@MIPs) for effective extraction of trace tetrabromobisphenol A from water.
Journal of Industrial and Engineering Chemistry, 60, 268-278, (2018)
Journal of Liquid Chromatography & Related Technologies, 37, (10), 1465-1497, (2014)
Angewandte Chemie International Edition, 44, (41), 6775-6778, (2005)
Journal of Analytical Chemistry, 66, (1), 6-10, (2011)
Applied Catalysis B: Environmental, 95, (1-2), 169-178, (2010)
International Journal of Chemical and Environmental Engineering, 3, (2), 147-151, (2012)
Shahaidah S et al., Characterization of bisphenol A MIP (BPA-MIP) synthesizing.
Journal of Applied Sciences, 14, (13), 1455-1459, (2014)
Shahaidah S et al., Molecularly imprinted membrane system for endocrine removal.
Desalination and Water Treatment, 55, 2700-2704, (2015)
Journal of Molecular Modeling, 22, (6), ArticleNo139-(2016)
Terracina JJ et al., In silico characterization of enantioselective molecularly imprinted binding sites.
Journal of Molecular Recognition, 31, (3), ArticleNoe2612-(2018)
Talanta, 83, (2), 674-681, (2010)
Fasihi J et al., Adsorption of uranyl ion onto an anthraquinone based ion-imprinted copolymer.
Reactive and Functional Polymers, 71, (8), 803-808, (2011)
Shamsipur M et al., Bulk polymer nanoparticles containing a tetrakis(3-hydroxyphenyl)porphyrin for fast and highly selective separation of mercury ions.
Microchimica Acta, 180, (9-10), 791-799, (2013)
Talanta, 194, 143-149, (2019)
Shariati R et al., Manufacturing of a Sensitive and Selective Optical Sensor Based on Molecularly Imprinted Polymers and Green Carbon Dots Synthesized from Cedrus Plant for Trace Analysis of Propranolol.
Analytical Sciences, 35, (10), 1083-1088, (2019)
International Journal of Environmental Analytical Chemistry, 96, (8), 789-800, (2016)
(2011)
Gholivand MB et al., A chemometrics approach for simultaneous determination of cyanazine and propazine based on a carbon paste electrode modified by a molecularly imprinted polymer.
Analyst, 137, (5), 1190-1198, (2012)
Main Group Chemistry, 10, (1), 1-16, (2011)
Shariatinia Z et al., Hydrogen bonding interactions between [alpha]-, [beta]-glucose, and methacrylic acid.
Structural Chemistry, 22, (6), 1347-1352, (2011)
Abdouss M et al., Synthesis of molecularly imprinted polymer as a sorbent for solid phase extraction of citalopram from human serum and urine.
Journal of Materials Science: Materials in Medicine, 23, (6), 1543-1552, (2012)
Azodi-Deilami S et al., Preparation of N, N-p-phenylene bismethacryl amide as a novel cross-link agent for synthesis and characterization of the core-shell magnetic molecularly imprinted polymer nanoparticles.
Journal of Materials Science: Materials in Medicine, 25, (3), 645-656, (2014)
Kazemi S et al., DFT computations on the hydrogen bonding interactions between methacrylic acid-trimethylolpropane trimethacrylate copolymers and letrozole as drug delivery systems.
Journal of Theoretical and Computational Chemistry, 15, (2), ArticleNo1650015-(2016)
Nanomaterials, 3, (4), 615-637, (2013)
Riazi A et al., Fabrication and Characterization of Molecularly Imprinted Microspheres as Highly Effective Sorbent for Fast and Selective Solid Phase Extraction of Nicotinamide in Beef and Wheat Flour Samples.
Journal of Food Science and Technology (Iran), 18, (120), 317-334, (2021)
Journal of AOAC International, 98, (1), 206-212, (2015)
RSC Advances, 10, (7), 4110-4117, (2020)
ACS Applied Materials & Interfaces, 6, (15), 13280-13292, (2014)
Bonakdar S et al., Cell-Imprinted Substrates Modulate Differentiation, Redifferentiation, and Transdifferentiation.
ACS Applied Materials & Interfaces, 8, (22), 13777-13784, (2016)
RSC Advances, 6, (60), 54702-54708, (2016)
Journal of Chromatography B, 1171, Article122640-(2021)
Biosensors and Bioelectronics, 160, Article112211-(2020)
Abstracts of Papers of the American Chemical Society, 213, (IEC), 99-99, (1997)
Sharma A, Proceeding, Molecular imprinted nanoPolymer nanomaterials: Application in biomolecule recognition,
270-273, (2010)
Piletska EV et al., Passive Control of Quorum Sensing: Prevention of Pseudomonas aeruginosa Biofilm Formation by Imprinted Polymers.
Biomacromolecules, 12, (4), 1067-1071, (2011)
Journal of the American Chemical Society, 122, (37), 8946-8955, (2000)
Sharma AC et al., Surface grafting of cobalt complexes on polymeric supports: Evidence for site isolation and applications to reversible dioxygen binding.
Journal of Polymer Science Part A: Polymer Chemistry, 39, (6), 888-897, (2001)
ACS Catalysis, 8788-8795, (2018)
Sharma B et al., Modulating the Catalytic Performance of an Immobilized Catalyst with Matrix Effects - A Critical Evaluation.
ACS Catalysis, 7710-7718, (2018)
ACS Applied Materials & Interfaces, 7, (43), 23848-23856, (2015)
Biosensors and Bioelectronics, 141, Article111347-(2019)
Sharma G et al., Molecularly Imprinted Polymers for Selective Recognition and Extraction of Heavy Metal Ions and Toxic Dyes.
Journal of Chemical & Engineering Data, 65, (2), 396-418, (2020)
Polymers, 9, (2), ArticleNo67-(2017)
Macromolecular Chemistry And Physics, 215, (23), 2295-2304, (2014)
IEEE Sensors Journal, 18, (7), 2697-2704, (2018)
In: Advanced Biomaterials and Biodevices, Tiwari A, Nordin AN (Eds.) Wiley: Hoboken, Ch. 11, 367-422, (2014)
Madhuri R et al., Book chapter, Combination of Molecular Imprinting and Nanotechnology: Beginning of a New Horizon,
In: Biosensors Nanotechnology, Tiwari A, Turner APF (Eds.) Wiley: Hoboken, Ch. 12, 375-432, (2014)
Roy E et al., Simultaneous determination of heavy metals in biological samples by a multiple-template imprinting technique: an electrochemical study.
RSC Advances, 4, (100), 56690-56700, (2014)
Roy E et al., Gold nanoparticle mediated designing of non-hydrolytic sol-gel cross-linked metformin imprinted polymer network: A theoretical and experimental study.
Talanta, 120, 198-207, (2014)
Roy E et al., A metronidazole-probe sensor based on imprinted biocompatible nanofilm for rapid and sensitive detection of anaerobic protozoan.
RSC Advances, 4, (62), 32881-32893, (2014)
Patra S et al., Bimetallic magnetic nanoparticle as a new platform for fabrication of pyridoxine and pyridoxal-5'-phosphate imprinted polymer modified high throughput electrochemical sensor [RETRACTED].
Biosensors and Bioelectronics, 73, 234-244, (2015)
Patra S et al., Fast and Selective Preconcentration of Europium from Wastewater and Coal Soil by Graphene Oxide/Silane@Fe3O4 Dendritic Nanostructure.
Environmental Science & Technology, 49, (10), 6117-6126, (2015)
Patra S et al., RETRACTED Imprinted ZnO nanostructure-based electrochemical sensing of calcitonin: A clinical marker for medullary thyroid carcinoma.
Analytica Chimica Acta, 853, 271-284, (2015)
Patra S et al., Nano-iniferter based imprinted sensor for ultra trace level detection of prostate-specific antigen in both men and women.
Biosensors and Bioelectronics, 66, 1-10, (2015)
Patra S et al., An imprinted Ag@CdS core shell nanoparticle based optical-electrochemical dual probe for trace level recognition of ferritin.
Biosensors and Bioelectronics, 63, 301-310, (2015)
Patra S et al., RETRACTED: Bimetallic magnetic nanoparticle as a new platform for fabrication of pyridoxine and pyridoxal-5'-phosphate imprinted polymer modified high throughput electrochemical sensor.
Biosensors and Bioelectronics, 73, 234-244, (2015)
Roy E et al., Developing electrochemical sensor for point-of-care diagnostics of oxidative stress marker using imprinted bimetallic Fe/Pd nanoparticle.
Talanta, 132, 406-415, (2015)
Roy E et al., Development of an imprinted polymeric sensor with dual sensing property for trace level estimation of zinc and arginine.
Materials Science and Engineering: C, 49, 25-33, (2015)
Karfa P et al., RETRACTED A fluorescent molecularly-imprinted polymer gate with temperature and pH as inputs for detection of alpha-fetoprotein.
Biosensors and Bioelectronics, 78, 454-463, (2016)
Karfa P et al., RETRACTED - A battle between spherical and cube-shaped Ag/AgCl nanoparticle modified imprinted polymer to achieve femtogram detection of alpha-feto protein.
Journal of Materials Chemistry B, 4, (33), 5534-5547, (2016)
Kumar S et al., Molecularly imprinted star polymer-modified superparamagnetic iron oxide nanoparticle for trace level sensing and separation of mancozeb.
RSC Advances, 6, (43), 36751-36760, (2016)
Patra S et al., Nanocomposite of bimetallic nanodendrite and reduced graphene oxide as a novel platform for molecular imprinting technology.
Analytica Chimica Acta, 918, 77-88, (2016)
Patra S et al., RETRACTED Size-specific imprinted polymer embedded carbon nanodots modified magnetic nanoparticle for specific recognition of titanium nanoparticle: The round versus round.
Biosensors and Bioelectronics, 86, 818-826, (2016)
Roy E et al., A single solution for arsenite and arsenate removal from drinking water using cysteine@ZnS:TiO2 nanoparticle modified molecularly imprinted biofouling-resistant filtration membrane.
Chemical Engineering Journal, 304, 259-270, (2016)
Karfa P et al., Development of carbon dots modified fluorescent molecular imprinted Polymer@Ag/AgCl nanoparticle for hepatocellular carcinoma marker.
AIP Conference Proceedings, 1832, (1), ArticleNo050008-(2017)
Kumar S et al., Super paramagnetic iron oxide nanoparticle modified mancozeb imprinted polymer.
AIP Conference Proceedings, 1832, (1), ArticleNo050014-(2017)
Patra S et al., Triple signalling mode carbon dots-based biodegradable molecularly imprinted polymer as a multi-tasking visual sensor for rapid and "on-site" monitoring of silver ions.
Journal of Materials Chemistry C, 5, (45), 11965-11976, (2017)
Patra S et al., RETRACTED Graphene quantum dots decorated CdS doped graphene oxide sheets in dual action mode: As initiator and platform for designing of nimesulide imprinted polymer (Retracted).
Biosensors and Bioelectronics, 89, 627-635, (2017)
Patra S et al., RETRACTED Removal and Recycling of Precious Rare Earth Element from Wastewater Samples Using Imprinted Magnetic Ordered Mesoporous Carbon.
ACS Sustainable Chemistry & Engineering, 5, (8), 6910-6923, (2017)
Patra S et al., Anisotropic (spherical/hexagon/cube) silver nanoparticle embedded magnetic carbon nanosphere as platform for designing of tramadol imprinted polymer.
Biosensors and Bioelectronics, 97, 208-217, (2017)
Patra S et al., Imprinted magnetic graphene oxide for the mini-solid phase extraction of Eu (III) from coal mine area.
AIP Conference Proceedings, 1832, (1), ArticleNo050009-(2017)
Roy E et al., RETRACTED Single cell imprinting on the surface of Ag-ZnO bimetallic nanoparticle modified graphene oxide sheets for targeted detection, removal and photothermal killing of E. Coli (Retracted).
Biosensors and Bioelectronics, 89, (Part 1), 620-626, (2017)
Roy E et al., Introduction of selectivity and specificity to graphene using an inimitable combination of molecular imprinting and nanotechnology.
Biosensors and Bioelectronics, 89, (Part 1), 234-248, (2017)
Roy E et al., Shape effect on the fabrication of imprinted nanoparticles: Comparison between spherical-, rod-, hexagonal-, and flower-shaped nanoparticles.
Chemical Engineering Journal, 321, 195-206, (2017)
Kumar S et al., Designing of fluorescent and magnetic imprinted polymer for rapid, selective and sensitive detection of imidacloprid via activators regenerated by the electron transfer-atom transfer radical polymerization (ARGET-ATRP) technique.
Journal of Physics and Chemistry of Solids, 116, 222-233, (2018)
Patra S et al., Retraction notice to "Graphene quantum dots decorated CdS doped graphene oxide sheets in dual action mode: as initiator and platform for designing of nimesulide imprinted polymer " [BIOS 89P1 (2017) 627-635].
Biosensors and Bioelectronics, 114, 89-(2018)
Patra S et al., Retracted: Imprinted ZnO nanostructure-based electrochemical sensing of calcitonin: A clinical marker for medullary thyroid carcinoma.
Analytica Chimica Acta, 1023, 121-121, (2018)
Patra S et al., Retraction of "Removal and Recycling of Precious Rare Earth Element from Wastewater Samples Using Imprinted Magnetic Ordered Mesoporous Carbon".
ACS Sustainable Chemistry & Engineering, 6, (7), 9520-9520, (2018)
Roy E et al., Retraction notice to Single cell imprinting on the surface of Ag-ZnO bimetallic nanoparticle modified graphene oxide sheets for targeted detection, removal and photothermal killing of E. Coli Biosensors and Bioelectronics Volume 89, Part 1, 15 March 2017, Pages 620-626.
Biosensors and Bioelectronics, 112, 216-(2018)
Karfa P et al., Retraction to "A Fluorescent molecularly-imprinted polymer gate with temperature and pH as inputs for detection of alpha-fetoprotein", [Biosensors and Bioelectronics, 78 (2016) 454-463].
Biosensors and Bioelectronics, 124-125, 268-268, (2019)
Patra S et al., Retraction notice to "Size-specific imprinted polymer embedded carbon nanodots modified magnetic nanoparticle for specific recognition of titanium nanoparticle: The round versus round", [Biosensors and Bioelectronics, 86 (2016) 818-826].
Biosensors and Bioelectronics, 124-125, 269-(2019)
Electroanalysis, 18, (9), 918-927, (2006)
Lakshmi D et al., Creatinine sensor based on a molecularly imprinted polymer-modified hanging mercury drop electrode.
Talanta, 70, (2), 272-280, (2006)
Lakshmi D et al., Imprinted polymer-modified hanging mercury drop electrode for differential pulse cathodic stripping voltammetric analysis of creatine.
Biosensors and Bioelectronics, 22, (12), 3302-3308, (2007)
Prasad BB et al., Molecularly imprinted polymer-based solid-phase extraction combined with molecularly imprinted polymer-based sensor for detection of uric acid.
Journal of Chromatography A, 1173, (1-2), 18-26, (2007)
Sharma PS et al., Highly Sensitive and Selective Detection of Creatinine by Combined Use of MISPE and a Complementary MIP-Sensor.
Chromatographia, 65, (7), 419-427, (2007)
Sharma PS et al., Molecularly imprinted solid-phase extraction combined with molecularly imprinted polymer-sensor: a diagnostic tool applicable to creatine deficiency syndrome.
Biomedical Chromatography, 21, (9), 976-986, (2007)
Patel AK et al., Development of a Creatinine Sensor Based on a Molecularly Imprinted Polymer-Modified Sol-Gel Film on Graphite Electrode.
Electroanalysis, 20, (19), 2102-2112, (2008)
Prasad BB et al., Molecularly imprinted polymer-based solid-phase microextraction fiber coupled with molecularly imprinted polymer-based sensor for ultratrace analysis of ascorbic acid.
Journal of Chromatography A, 1198-1199, (1-2), 59-66, (2008)
Patel AK et al., Voltammetric sensor for barbituric acid based on a sol-gel derivated molecularly imprinted polymer brush grafted to graphite electrode.
International Journal of Pharmaceutics, 371, (1-2), 47-55, (2009)
Patel AK et al., Electrochemical sensor for uric acid based on a molecularly imprinted polymer brush grafted to tetraethoxysilane derived sol-gel thin film graphite electrode.
Materials Science and Engineering: C, 29, (5), 1545-1553, (2009)
Prasad BB et al., Zwitterionic molecularly imprinted polymer-based solid-phase micro-extraction coupled with molecularly imprinted polymer sensor for ultra-trace sensing of L-histidine.
Journal of Separation Science, 32, (7), 1096-1105, (2009)
Prasad BB et al., Ascorbic acid sensor based on molecularly imprinted polymer-modified hanging mercury drop electrode.
Materials Science and Engineering: C, 29, (4), 1082-1087, (2009)
Prasad BB et al., Ultratrace analysis of uracil and 5-fluorouracil by molecularly imprinted polymer brushes grafted to silylated solid-phase microextraction fiber in combination with complementary molecularly imprinted polymer-based sensor.
Biomedical Chromatography, 23, (5), 499-509, (2009)
Prasad BB et al., Trace-level sensing of dopamine in real samples using molecularly imprinted polymer-sensor.
Biochemical Engineering Journal, 44, (2-3), 232-239, (2009)
Prasad BB et al., Ultratrace Analysis of Dopamine Using a Combination of Imprinted Polymer-Brush-Coated SPME and Imprinted Polymer Sensor Techniques.
Chromatographia, 69, (9), 949-957, (2009)
Prasad BB et al., A new zwitterionic imprinted polymer sensor using ethylenediamine tetraacetic acid and chloranil precursors for the trace analysis of l-histidine.
Materials Science and Engineering: C, 29, (6), 1781-1789, (2009)
Prasad BB et al., Development of Uracil and 5-Fluorouracil Sensors Based on Molecularly Imprinted Polymer-Modified Hanging Mercury Drop Electrode.
Sensors and Materials, 21, (6), 291-306, (2009)
Patel AK et al., Trace-level sensing of creatine in real sample using a zwitterionic molecularly imprinted polymer brush grafted to sol-gel modified graphite electrode.
Thin Solid Films, 518, (10), 2847-2853, (2010)
Prasad BB et al., Imprinting molecular recognition sites on multiwalled carbon nanotubes surface for electrochemical detection of insulin in real samples.
Electrochimica Acta, 55, (28), 9146-9156, (2010)
Prasad BB et al., Enantioselective quantitative separation of d- and l-thyroxine by molecularly imprinted micro-solid phase extraction silver fiber coupled with complementary molecularly imprinted polymer-sensor.
Journal of Chromatography A, 1217, (26), 4255-4266, (2010)
Prasad BB et al., Imprinted polymer-carbon consolidated composite fiber sensor for substrate-selective electrochemical sensing of folic acid.
Biosensors and Bioelectronics, 25, (9), 2140-2148, (2010)
Prasad BB et al., Development of a highly sensitive and selective hyphenated technique (molecularly imprinted micro-solid phase extraction fiber-molecularly imprinted polymer fiber sensor) for ultratrace analysis of folic acid.
Analytica Chimica Acta, 662, (1), 14-22, (2010)
Prasad BB et al., Layer-by-layer assembled molecularly imprinted polymer modified silver electrode for enantioselective detection of d- and l-thyroxine.
Analytica Chimica Acta, 681, (1-2), 16-26, (2010)
Prasad BB et al., Electrochemical sensor for folic acid based on a hyperbranched molecularly imprinted polymer-immobilized sol-gel-modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 146, (1), 321-330, (2010)
Prasad BB et al., Enantioselective recognition of d- and l-tryptophan by imprinted polymer-carbon composite fiber sensor.
Talanta, 81, (1-2), 187-196, (2010)
Lakshmi D et al., Electrochemical Detection of Uric Acid in Mixed and Clinical Samples: A Review.
Electroanalysis, 23, (2), 305-320, (2011)
Prasad BB et al., Enantioselective separation and electrochemical sensing of d- and l-tryptophan at ultratrace level using molecularly imprinted micro-solid phase extraction fiber coupled with complementary molecularly imprinted polymer-fiber sensor.
Journal of Chromatography B, 879, (5-6), 364-370, (2011)
Bossi AM et al., Fingerprint-Imprinted Polymer: Rational Selection of Peptide Epitope Templates for the Determination of Proteins by Molecularly Imprinted Polymers.
Analytical Chemistry, 84, (9), 4036-4041, (2012)
Sharma PS et al., Molecular imprinting for selective chemical sensing of hazardous compounds and drugs of abuse.
TrAC Trends in Analytical Chemistry, 34, (1), 59-77, (2012)
Sharma PS et al., Book chapter, Molecular Imprinting for Selective Sensing of Explosives, Warfare Agents, and Toxins,
In: Portable Chemical Sensors, Nikolelis D (Ed.) Springer Netherlands: Ch. 4, 63-94, (2012)
Sharma PS et al., Electrochemically synthesized polymers in molecular imprinting for chemical sensing.
Analytical and Bioanalytical Chemistry, 402, (10), 3177-3204, (2012)
Huynh TP et al., Electrochemically synthesized molecularly imprinted polymer of thiophene derivatives for flow-injection analysis determination of adenosine-5'-triphosphate (ATP).
Biosensors and Bioelectronics, 41, 634-641, (2013)
Sharma PS et al., Surface development of molecularly imprinted polymer films to enhance sensing signals.
TrAC Trends in Analytical Chemistry, 51, 146-157, (2013)
Sharma PS et al., Fullerene derived molecularly imprinted polymer for chemosensing of adenosine-5'-triphosphate (ATP).
Analytica Chimica Acta, 844, 61-69, (2014)
Huynh TP et al., Functionalized polythiophenes: Recognition materials for chemosensors and biosensors of superior sensitivity, selectivity, and detectability.
Progress in Polymer Science, 47, 1-25, (2015)
Iskierko Z et al., Extended-gate field-effect transistor (EG-FET) with molecularly imprinted polymer (MIP) film for selective inosine determination.
Biosensors and Bioelectronics, 74, 526-533, (2015)
Sharma PS et al., Bioinspired intelligent molecularly imprinted polymers for chemosensing: A mini review.
Electrochemistry Communications, 50, 81-87, (2015)
Dabrowski M et al., Early diagnosis of fungal infections using piezomicrogravimetric and electric chemosensors based on polymers molecularly imprinted with d-arabitol.
Biosensors and Bioelectronics, 79, 627-635, (2016)
Iskierko Z et al., Molecularly Imprinted Polymer (MIP) Film with Improved Surface Area Developed by Using Metal-Organic Framework (MOF) for Sensitive Lipocalin (NGAL) Determination.
ACS Applied Materials & Interfaces, 8, (31), 19860-19865, (2016)
Iskierko Z et al., Molecularly imprinted polymers for separating and sensing of macromolecular compounds and microorganisms.
Biotechnology Advances, 34, (1), 30-46, (2016)
Sharma PS et al., Book chapter, Molecularly Imprinted Polymers as Synthetic Catalysts,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 9, 183-210, (2016)
Sharma PS et al., Potentiometric chemosensor for neopterin, a cancer biomarker, using an electrochemically synthesized molecularly imprinted polymer as the recognition unit.
Biosensors and Bioelectronics, 77, 565-572, (2016)
Sharma PS et al., Book chapter, Macromolecular Imprinting for Improved Health Security,
In: Biosensors for Security and Bioterrorism Applications, Nikolelis PD, Nikoleli GP (Eds.) Springer International Publishing: Cham, 141-160, (2016)
Wojnarowicz A et al., An electropolymerized molecularly imprinted polymer for selective carnosine sensing with impedimetric capacity.
Journal of Materials Chemistry B, 4, (6), 1156-1165, (2016)
Dabrowski M et al., Hierarchical templating in deposition of semi-covalently imprinted inverse opal polythiophene film for femtomolar determination of human serum albumin.
Biosensors and Bioelectronics, 94, 155-161, (2017)
Dabrowski M et al., Surface enhancement of a molecularly imprinted polymer film using sacrificial silica beads for increasing l-arabitol chemosensor sensitivity and detectability.
Journal of Materials Chemistry B, 5, (31), 6292-6299, (2017)
Dabrowski M et al., Semi-Covalent Imprinting for Selective Protein Sensing at a Femtomolar Concentration Level.
Proceedings, 1, (8), ArticleNo771-(2017)
Iskierko Z et al., Molecularly imprinted polymer based extended-gate field-effect transistor chemosensors for phenylalanine enantioselective sensing.
Journal of Materials Chemistry C, 5, (4), 969-977, (2017)
Iskierko Z et al., (Invited) Application of Extended-Gate Field-Effect Transistor Sensors with Molecularly Imprinted Polymer Recognition Layers for Determination of Renal Dysfunction Biomarkers.
ECS Meeting Abstracts, MA2017-01, (28), 1315-1315, (2017)
Kutner W et al., Conducting Molecularly Imprinted Polymer (MIP) Chemical Sensors for Toxic N-Nitrosamines Selective Determination in Heat Processed Food of Animal Origin.
ECS Meeting Abstracts, MA2017-01, (42), 1919-1919, (2017)
Lach P et al., Self-Reporting Molecularly Imprinted Polymer for Label-Free Selective Electrochemical Sensing of p-synephrine.
Proceedings, 1, (8), ArticleNo772-(2017)
Lach P et al., Molecularly Imprinted Polymer Chemosensor for Selective Determination of an N-Nitroso-l-proline Food Toxin.
Chemistry - A European Journal, 23, (8), 1942-1949, (2017)
Iskierko Z et al., Molecular recognition by synthetic receptors: Application in field-effect transistor based chemosensing.
Biosensors and Bioelectronics, 109, 50-62, (2018)
Sharma PS et al., Synthesis and application of a "plastic antibody" in electrochemical microfluidic platform for oxytocin determination.
Biosensors and Bioelectronics, 100, 251-258, (2018)
Dabrowski M et al., Facile Fabrication of Surface-Imprinted Macroporous Films for Chemosensing of Human Chorionic Gonadotropin Hormone.
ACS Applied Materials & Interfaces, 11, (9), 9265-9276, (2019)
Iskierko Z et al., Selective PQQPFPQQ Gluten Epitope Chemical Sensor with a Molecularly Imprinted Polymer Recognition Unit and an Extended-Gate Field-Effect Transistor Transduction Unit.
Analytical Chemistry, 91, (7), 4537-4543, (2019)
Lach P et al., Gate Effect Sharma PS et al., 'Gate effect' in molecularly imprinted polymers: the current state of understanding.
Current Opinion in Electrochemistry, 16, 50-56, (2019)
Zembrzuska D et al., Electrochemically initiated co-polymerization of monomers of different oxidation potentials for molecular imprinting of electroactive analyte.
Sensors and Actuators B: Chemical, 298, Article126884-(2019)
Ayerdurai V et al., Selective Impedimetric Chemosensing of Carcinogenic Heterocyclic Aromatic Amine in Pork by dsDNA-Mimicking Molecularly Imprinted Polymer Film-Coated Electrodes.
Journal of Agricultural and Food Chemistry, 69, (48), 14689-14698, (2021)
Jyoti et al., Molecularly imprinted polymer nanoparticles-based electrochemical chemosensors for selective determination of cilostazol and its pharmacologically active primary metabolite in human plasma.
Biosensors and Bioelectronics, 193, Article113542-(2021)
Lach P et al., Self-reporting molecularly imprinted polymer with the covalently immobilized ferrocene redox probe for selective electrochemical sensing of p-synephrine.
Sensors and Actuators B: Chemical, 344, Article130276-(2021)
Lach P et al., Molecularly imprinted polymers in chemosensors: Better control over deposited polymers structure for better sensors performance.
Video Proceedings of Advanced Materials, 2, Article2111229-(2021)
Yasmeen N et al., Molecularly imprinted polymer as a synthetic receptor mimic for capacitive impedimetric selective recognition of Escherichia coli K-12.
Analytica Chimica Acta, 1188, Article339177-(2021)
Analytical Letters, 43, (6), 919-928, (2010)
Sharma R et al., Molecularly imprinted sensor based on o-aminophenol for the selective determination of norepinephrine in pharmaceutical and biological samples.
Talanta, 125, 167-173, (2014)
Divya MP et al., Molecularly imprinted polymer for separation of lactate.
Journal of Analytical Chemistry, 70, (10), 1213-1217, (2015)
Lata K et al., Synthesis and application of cephalexin imprinted polymer for solid phase extraction in milk.
Food Chemistry, 184, 176-182, (2015)
Aggarwal S et al., Synthesis and characterization of oxytetracycline imprinted magnetic polymer for application in food.
Applied Nanoscience, 6, (2), 209-214, (2016)
Biosensors and Bioelectronics, 45, 237-244, (2013)
Moreira FTC et al., Protein-responsive polymers for point-of-care detection of cardiac biomarker.
Sensors and Actuators B: Chemical, 196, 123-132, (2014)
Moreira FTC et al., Detection of cardiac biomarker proteins using a disposable based on a molecularly imprinted polymer grafted onto graphite.
Microchimica Acta, 182, (5-6), 975-983, (2015)
Sharma S et al., Molecularly imprinted and nanoengineered camphor soot functionalized PAN-nanofibers for effluent treatment.
RSC Advances, 5, (40), 31732-31741, (2015)
Sharma S et al., Correction: Molecularly imprinted and nanoengineered camphor soot functionalized PAN-nanofibers for effluent treatment.
RSC Advances, 6, (78), 74067-74067, (2016)
Sharma S et al., Surface Plasmon Resonance Based Highly Selective Fiber Optic Dopamine Sensor Fabricated Using Molecular Imprinted GNP/SnO2 Nanocomposite.
Journal of Lightwave Technology, 36, (24), 5956-5962, (2018)
Sharma S, Proceeding, An efficient and selective sensing of creatinine based on fiber optic SPR technique exploiting the advantages of molecular imprinting technique,
ArticleNo106801T, (2018)
Industrial & Engineering Chemistry Research, 50, (24), 13742-13751, (2011)
Bueno D et al., Portable and low cost fluorescence set-up for in-situ screening of Ochratoxin A.
Talanta, 159, 395-400, (2016)
Bioanalysis, 5, (7), 847-858, (2013)
Analytical Communications, 36, (3), 105-107, (1999)
Tarbin JA et al., Development of molecularly imprinted phase for the selective retention of stilbene-type estrogenic compounds.
Analytica Chimica Acta, 433, (1), 71-79, (2001)
Energy & Fuels, 29, (12), 7743-7752, (2015)
Russian Journal of Physical Chemistry, 75, (11), 1871-1875, (2001)
IEEE Sensors Journal, 19, (16), 6571-6577, (2019)
Journal of Analytical Chemistry, 67, (9), 767-771, (2012)
Doklady Biochemistry and Biophysics, 464, (1), 275-278, (2015)
Macromolecules, 23, (21), 4497-4507, (1990)
Canadian Journal of Chemistry - Revue Canadienne de Chimie, 37, 1986-1995, (1959)
Abstracts of Papers of the American Chemical Society, 225, (COLL), 286-286, (2003)
Journal of Microelectromechanical Systems, 23, (5), 1228-1236, (2014)
Chinese Journal of Analysis Laboratory, 32, (7), 84-87, (2013)
Medine A et al., Preparation of Pb2+ imprinted polymers and analysis of selective adsorption of Pb2+ on polymers by FAAS.
Chinese Journal of Analysis Laboratory, 33, (9), 1077-1081, (2014)
Journal of Applied Polymer Science, 114, (5), 2608-2615, (2009)
Pharmaceutical Development and Technology, 22, (1), 122-129, (2017)
Biosensors and Bioelectronics, 122, 160-167, (2018)
Saadati F et al., Synthesis and characterization of nanostructure molecularly imprinted polyaniline/graphene oxide composite as highly selective electrochemical sensor for detection of p-nitrophenol.
Journal of the Taiwan Institute of Chemical Engineers, 86, 213-221, (2018)
Microchemical Journal, 146, 1126-1133, (2019)
Acta Chromatographica, 26, (4), 683-693, (2014)
Materials, 10, (5), ArticleNo475-(2017)
Chinese Journal of Analysis Laboratory, 28, (8), 26-28, (2009)
She YX et al., Class-specific molecularly imprinted polymers for the selective extraction and determination of sulfonylurea herbicides in maize samples by high-performance liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 878, (23), 2047-2053, (2010)
She YX et al., Spectroscopy study of binding mechanisms and molecular recognition of class-specific molecularly imprinted polymer beads.
Spectroscopy and Spectral Analysis, 30, (11), 3052-3055, (2010)
Yang X et al., Application of molecular imprinting technology in separation and purification of active ingredients from natural products.
Journal of Northeast Agricultural University, 42, (8), 146-153, (2011)
Wang M et al., Determination of Melamine Using Magnetic Molecular Imprinted Polymers and High Performance Liquid Chromatography.
Analytical Letters, 46, (1), 120-130, (2013)
Chen XJ et al., The application of molecular imprinting technique in analysis and test.
Journal of Food Safety and Quality, 5, (5), 1459-1467, (2014)
Du XW et al., Synthesis and Application of Class-specific Molecularly Imprinted Polymer for Triazine Pesticides.
Journal of Instrumental Analysis, 34, (7), 755-761, (2015)
Liu GY et al., Preparation of a magnetic molecularly imprinted polymer using g-C3N4-Fe3O4 for atrazine adsorption.
Materials Letters, 160, 472-475, (2015)
Yao T et al., Recent Advances in Application of Surface Plasmon Resonance Sensors Based on Molecular Imprinted Polymers in Food Safety Detection.
Journal of Instrumental Analysis, 34, (2), 237-244, (2015)
Zeng SM et al., Molecularly imprinted polymer for selective extraction and simultaneous determination of four tropane alkaloids from Przewalskia tangutica Maxim. fruit extracts using LC-MS/MS.
RSC Advances, 5, (115), 94997-95006, (2015)
Du XW et al., Fluorescent competitive assay for melamine using dummy molecularly imprinted polymers as antibody mimics.
Journal of Integrative Agriculture, 15, (5), 1166-1177, (2016)
Li TF et al., Electrochemical detection of ractopamine based on a molecularly imprinted poly-o-phenylenediamine/gold nanoparticle-ionic liquid-graphene film modified glass carbon electrode.
RSC Advances, 6, (71), 66949-66956, (2016)
Liu GY et al., Competitive fluorescence assay for specific recognition of atrazine by magnetic molecularly imprinted polymer based on Fe3O4-chitosan.
Carbohydrate Polymers, 137, 75-81, (2016)
Yao T et al., Enhancement of surface plasmon resonance signals using a MIP/GNPs/rGO nano-hybrid film for the rapid detection of ractopamine.
Biosensors and Bioelectronics, 75, 96-100, (2016)
Zeng SM et al., Analysis of Four Tropane Alkaloids in Przewalskia Tangutica Maxim.by Analogous-specific Molecularly Imprinted Solid-phase Extraction Combined with High Performance Liquid Chromatography.
Journal of Instrumental Analysis, 35, (4), 373-379, (2016)
Zhang C et al., Preparation of an Electrochemical Sensor Based on Molecularly Imprinted Polymer and Its Application in Determination of Glyphosate Residues in Water Samples.
Journal of Instrumental Analysis, 35, (12), 1542-1547, (2016)
Chen G et al., A sensitive chemiluminescence enzyme immunoassay based on molecularly imprinted polymers solid-phase extraction of parathion.
Analytical Biochemistry, 530, 87-93, (2017)
Zhang C et al., A highly selective electrochemical sensor based on molecularly imprinted polypyrrole-modified gold electrode for the determination of glyphosate in cucumber and tap water.
Analytical and Bioanalytical Chemistry, 409, (30), 7133-7144, (2017)
Zhao FN et al., Selective Determination of Chloramphenicol in Milk Samples by the Solid-Phase Extraction Based on Dummy Molecularly Imprinted Polymer.
Food Analytical Methods, 10, (7), 2566-2575, (2017)
Zhao FN et al., Selective solid-phase extraction based on molecularly imprinted technology for the simultaneous determination of 20 triazole pesticides in cucumber samples using high-performance liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 1064, 143-150, (2017)
Zhao FN et al., Subcritical water extraction combined with molecular imprinting technology for sample preparation in the detection of triazine herbicides.
Journal of Chromatography A, 1515, 17-22, (2017)
Cao XL et al., Rapid Analysis of Bitertanol in Agro-products Using Molecularly Imprinted Polymers-Surface-Enhanced Raman Spectroscopy.
Food Analytical Methods, 11, (5), 1435-1443, (2018)
Hong SH et al., Biomimetic enzyme-linked immunoassay based on a molecularly imprinted 96-well plate for the determination of triazophos residues in real samples.
RSC Advances, 8, (37), 20549-20556, (2018)
Liu GY et al., Development of ELISA-Like Fluorescence Assay for Melamine Detection Based on Magnetic Dummy Molecularly Imprinted Polymers.
Applied Sciences, 8, (4), ArticleNo560-(2018)
Ma XB et al., Extraction and identification of matrine-type alkaloids from Sophora moorcroftiana using double-templated molecularly imprinted polymers with HPLCGÇôMS/MS.
Journal of Separation Science, 41, (7), 1691-1703, (2018)
Ma XB et al., Preparation and characterization of dummy molecularly imprinted polymers for separation and determination of farrerol from Rhododendron aganniphum using HPLC.
Green Chemistry Letters and Reviews, 11, (4), 513-522, (2018)
Yan MM et al., Advance of molecularly imprinted technology based on nanomaterials.
Chinese Journal of Analysis Laboratory, 37, (5), 607-613, (2018)
Zheng LF et al., Fabrication of a highly sensitive electrochemical sensor based on electropolymerized molecularly imprinted polymer hybrid nanocomposites for the determination of 4-nonylphenol in packaged milk samples.
Analytical Biochemistry, 559, 44-50, (2018)
He YH et al., Assessment of magnetic core-shell mesoporous molecularly imprinted polymers for selective recognition of triazoles residual levels in cucumber.
Journal of Chromatography B, 1132, Article121811-(2019)
He YH et al., Magnetic molecularly imprinted polymers for the detection of aminopyralid in milk using dispersive solid-phase extraction.
RSC Advances, 9, (51), 29998-30006, (2019)
Hong SH et al., A Novel CdSe/ZnS Quantum Dots Fluorescence Assay Based on Molecularly Imprinted Sensitive Membranes for Determination of Triazophos Residues in Cabbage and Apple.
Frontiers in Chemistry, 7, Article130-(2019)
Ma XB et al., Magnetic molecularly imprinted polymers doped with graphene oxide for the selective recognition and extraction of four flavonoids from Rhododendron species.
Journal of Chromatography A, 1598, 39-48, (2019)
Tan SJ et al., A dummy molecularly imprinted solid-phase extraction coupled with liquid chromatography-tandem mass spectrometry for selective determination of four pyridine carboxylic acid herbicides in milk.
Journal of Chromatography B, 1108, 65-72, (2019)
Wang SS et al., Dual-template imprinted polymers for class-selective solid-phase extraction of seventeen triazine herbicides and metabolites in agro-products.
Journal of Hazardous Materials, 367, 686-693, (2019)
Yan MM et al., A molecularly imprinted polymer with integrated gold nanoparticles for surface enhanced Raman scattering based detection of the triazine herbicides, prometryn and simetryn.
Microchimica Acta, 186, (3), Article143-(2019)
Yu HL et al., Preparation of molecularly imprinted polymers coupled with high-performance liquid chromatography for the selective extraction of salidroside from Rhodiola crenulata.
Journal of Chromatography B, 1118-1119, 180-186, (2019)
Zhang C et al., A disposable molecularly imprinted sensor based on Graphe@AuNPs modified screen-printed electrode for highly selective and sensitive detection of cyhexatin in pear samples.
Sensors and Actuators B: Chemical, 284, 13-22, (2019)
Zhang C et al., A disposable electrochemical sensor based on electrospinning of molecularly imprinted nanohybrid films for highly sensitive determination of the organotin acaricide cyhexatin.
Microchimica Acta, 186, (8), Article504-(2019)
Zhao MJ et al., The determination of patulin from food samples using dual-dummy molecularly imprinted solid-phase extraction coupled with LC-MS/MS.
Journal of Chromatography B, 1125, Article121714-(2019)
He YH et al., Development of fluorescent lateral flow test strips based on an electrospun molecularly imprinted membrane for detection of triazophos residues in tap water.
New Journal of Chemistry, 44, (15), 6026-6036, (2020)
Ma XB et al., Magnetic molecularly imprinted specific solid-phase extraction for determination of dihydroquercetin from Larix griffithiana using HPLC.
Journal of Separation Science, 43, (12), 2301-2310, (2020)
Zhao MJ et al., Preparation of core-shell magnetic molecularly imprinted polymers for extraction of patulin from juice samples.
Journal of Chromatography A, 1615, Article460751-(2020)
Feng GG et al., Preparation of molecularly imprinted polymer with class-specific recognition for determination of 29 sulfonylurea herbicides in agro-products.
Journal of Chromatography A, 1647, Article462143-(2021)
Ma J et al., An overview on molecular imprinted polymers combined with surface-enhanced Raman spectroscopy chemical sensors toward analytical applications.
Talanta, 225, Article122031-(2021)
Li Y et al., Synthesis of metal-organic framework @molecularly imprinted polymer adsorbents for solid phase extraction of organophosphorus pesticides from agricultural products.
Journal of Chromatography B, 1188, Article123081-(2022)
IEEE Electrical Insulation Magazine, 19, (5), 74-74, (2003)
Journal of Organic Chemistry, 43, (21), 4253-4255, (1978)
Shea KJ et al., Template synthesis of macromolecules. Synthesis and chemistry of functionalised macroporous polydivinylbenzene.
Journal of the American Chemical Society, 102, (9), 3149-3155, (1980)
Shea KJ et al., Site isolation in macroreticular divinylbenzene polymers.
Macromolecules, 18, (4), 814-817, (1985)
Shea KJ et al., Molecular recognition on synthetic amorphous surfaces - the influence of functional-group positioning on the effectiveness of molecular recognition.
Journal of the American Chemical Society, 108, (5), 1091-1093, (1986)
Dougherty TK et al., Molecular recognition on synthetic-polymers.
Abstracts of Papers of the American Chemical Society, 196, (OLY), 124-124, (1988)
Shea KJ et al., Fluorescence probes for the evaluation of diffusion of ionic reagents through network polymers - chemical quenching of the fluorescence emission of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.
Macromolecules, 22, (11), 4303-4308, (1989)
Shea KJ et al., Fluorescence probes for evaluating chain solvation in network polymers - An analysis of the solvatochromic shift of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.
Macromolecules, 22, (4), 1722-1730, (1989)
Shea KJ et al., On the control of microenvironment shape of functionalized network polymers prepared by template polymerization.
Journal of the American Chemical Society, 111, (9), 3442-3444, (1989)
Shea KJ et al., Synthesis and characterization of highly cross-linked polyacrylamides and polymethacrylamides - a new class of macroporous polyamides.
Macromolecules, 23, (21), 4497-4507, (1990)
Shea KJ et al., An analysis of small-molecule binding to functionalized synthetic polymers by 13C CP/MAS NMR and FT-IR spectroscopy.
Journal of the American Chemical Society, 113, (11), 4109-4120, (1991)
Sellergren B et al., Influence of polymer morphology on the ability of imprinted network polymers to resolve enantiomers.
Journal of Chromatography, 635, (1), 31-49, (1993)
Sellergren B et al., Chiral ion-exchange chromatography - correlation between solute retention and a theoretical ion-exchange model using imprinted polymers.
Journal of Chromatography A, 654, (1), 17-28, (1993)
Shea KJ et al., Polymer complements to nucleotide bases - selective binding of adenine-derivatives to imprinted polymers.
Journal of the American Chemical Society, 115, (8), 3368-3369, (1993)
Beach JV et al., Designed catalysts - A synthetic network polymer that catalyzes the dehydrofluorination of 4-fluoro-4-(p-nitrophenyl)butan-2-one.
Journal of the American Chemical Society, 116, (1), 379-380, (1994)
Sellergren B et al., Enantioselective ester hydrolysis catalyzed by imprinted polymers.
Tetrahedron: Asymmetry, 5, (8), 1403-1406, (1994)
Shea KJ, Molecular imprinting of synthetic network polymers - the de-novo synthesis of macromolecular binding and catalytic sites.
Abstracts of Papers of the American Chemical Society, 208, (OLY), 467-467, (1994)
Shea KJ, Molecular imprinting of synthetic network polymers: The de novo synthesis of macromolecular binding and catalytic sites.
Trends in Polymer Science, 2, (5), 166-173, (1994)
Sellergren B et al., Origin of peak asymmetry and the effect of temperature on solute retention in enantiomer separations on imprinted chiral stationary phases.
Journal of Chromatography A, 690, (1), 29-39, (1995)
Shea KJ, Molecular imprinting - the de-novo synthesis of macromolecular binding and catalytic sites.
Abstracts of Papers of the American Chemical Society, 209, (COLL), 29-29, (1995)
Mathew-Krotz J et al., Imprinted polymer membranes for the selective transport of targeted neutral molecules.
Journal of the American Chemical Society, 118, (34), 8154-8155, (1996)
Daitch CE et al., Phosphate and phosphonate receptors in silicate materials.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 132-132, (1997)
Rush DJ et al., Molecular imprinting: Recent advances in the synthesis of macromolecular binding sites.
Abstracts of Papers of the American Chemical Society, 214, (ORGN), 146-146, (1997)
Shea KJ, Molecular imprinting. The de novo synthesis of macromolecular binding and catalytic sites.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 145-145, (1997)
Spivak D et al., Evaluation of binding and origins of specificity of 9-ethyladenine imprinted polymers.
Journal of the American Chemical Society, 119, (19), 4388-4393, (1997)
Sasaki DY et al., Book chapter, Molecular imprinted receptors in sol-gel materials for aqueous phase recognition of phosphates and phosphonates,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 22, 314-323, (1998)
Spivak DA et al., Binding of nucleotide bases by imprinted polymers.
Macromolecules, 31, (7), 2160-2165, (1998)
Hart BR et al., Molecular imprinting for enantiomeric separations of benzodiazepines.
Abstracts of Papers of the American Chemical Society, 218, (OLY), 136-136, (1999)
Sasaki DY et al., Molecular imprinting in guanidine functionalized sol-gel materials.
Abstracts of Papers of the American Chemical Society, 217, (HYS), 211-211, (1999)
Spivak D et al., Molecular imprinting of carboxylic acids employing novel functional macroporous polymers.
Journal of Organic Chemistry, 64, (13), 4627-4634, (1999)
Hart BR et al., Discrimination between enantiomers of structurally related molecules: Separation of benzodiazepines by molecularly imprinted polymers.
Journal of the American Chemical Society, 122, (3), 460-465, (2000)
Sellergren B et al., Enantioselective ester hydrolysis catalyzed by imprinted polymers. 2.
Journal of Organic Chemistry, 65, (13), 4009-4027, (2000)
Batra D et al., Molecular imprinting of oligonucleotides.
Abstracts of Papers of the American Chemical Society, 221, (ORGN), 158-158, (2001)
Hart BR et al., Synthetic peptide receptors: Molecularly imprinted polymers for the recognition of peptides using peptide-metal interactions.
Journal of the American Chemical Society, 123, (9), 2072-2073, (2001)
Spivak DA et al., Investigation into the scope and limitations of molecular imprinting with DNA molecules.
Analytica Chimica Acta, 435, (1), 65-74, (2001)
Zhou XZ et al., Synthesis of molecularly imprinted polymer membranes and their application to the selective transport of targeted molecules.
Abstracts of Papers of the American Chemical Society, 221, (ORGN), 377-377, (2001)
Hart BR et al., Book chapter, Molecularly imprinted polymers,
In: Encyclopedia of Smart Materials, Schwartz M (Ed.) John Wiley & Sons Inc.: 667-681, (2002)
Hart BR et al., Book chapter, Molecularly Imprinted Polymers,
In: Encyclopedia of Polymer Science and Technology, John Wiley & Sons, Inc.: (2002)
Hart BR et al., Molecular imprinting for the recognition of N-terminal histidine peptides in aqueous solution.
Macromolecules, 35, (16), 6192-6201, (2002)
Batra D et al., Novel trifunctional building blocks for fluorescent polymers.
Organic Letters, 5, (21), 3895-3898, (2003)
Batra D et al., Combinatorial methods in molecular imprinting.
Current Opinion in Chemical Biology, 7, (3), 434-442, (2003)
Conrad PGI et al., Functional molecularly imprinted polymer microstructures fabricated using microstereolithography.
Advanced Materials, 15, (18), 1541-1544, (2003)
Shea KJ, Recent developments in molecular imprinting.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 709-709, (2003)
Shea KJ, Microfabrication of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 227, (PMSE), 94-94, (2004)
Anderson CD et al., Strategies for the generation of molecularly imprinted polymeric nitroxide catalysts.
Organic Letters, 7, (22), 4879-4882, (2005)
Choi KM et al., Book chapter, A fabrication of a novel microfluidic reactor microsynthesis of MIP's particles,
In: Micro- and Nanosystems - Materials and Devices, Ozkan CS, La Van.D.A., McNie M, Prasad S (Eds.) Materials Research Society: Warrendale, 137-141, (2005)
Choi KM et al., Novel microfluidic reactors for the synthesis and fabrication of bio-materials and bio-sensors.
Abstracts of Papers of the American Chemical Society, 229, (COLL), U662-U663, (2005)
Conrad PGI et al., Book chapter, The use of metal coordination for controlling the microenvironment of imprinted polymers,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 6, 123-180, (2005)
Nishino H et al., Fabrication of novel molecularly imprinted polymer film for specific protein recognition.
Abstracts of Papers of the American Chemical Society, 229, U1139-U1140, (2005)
Nishino H et al., Selective protein capture by epitope imprinting.
Angewandte Chemie International Edition, 45, (15), 2392-2396, (2006)
O’Connor NA et al., Screening of 5-HT1A Receptor Antagonists using Molecularly Imprinted Polymers.
Journal of the American Chemical Society, 129, (6), 1680-1689, (2007)
Hoshino Y et al., Peptide Imprinted Polymer Nanoparticles: A Plastic Antibody.
Journal of the American Chemical Society, 130, (46), 15242-15243, (2008)
Zeng ZY et al., Synthetic Polymer Nanoparticles with Antibody-like Affinity for a Hydrophilic Peptide.
ACS Nano, 4, (1), 199-204, (2009)
Hoshino Y et al., Recognition, Neutralization, and Clearance of Target Peptides in the Bloodstream of Living Mice by Molecularly Imprinted Polymer Nanoparticles: A Plastic Antibody.
Journal of the American Chemical Society, 132, (19), 6644-6645, (2010)
Hoshino Y et al., The evolution of plastic antibodies.
Journal of Materials Chemistry, 21, (11), 3517-3521, (2011)
Spivak DA et al., MIP2010: The Future of Molecular Imprinting.
Journal of Molecular Recognition, 25, (6), 319-319, (2012)
Yonamine Y et al., ELISA-Mimic Screen for Synthetic Polymer Nanoparticles with High Affinity to Target Proteins.
Biomacromolecules, 13, (9), 2952-2957, (2012)
Chen W et al., Protein recognition by a surface imprinted colloidal array.
Journal of Materials Chemistry A, 2, (20), 7165-7169, (2014)
Chen W et al., Molecularly imprinted hollow sphere array for the sensing of proteins.
Journal of Biophotonics, 8, (10), 838-845, (2015)
Chen W et al., Molecularly imprinted hollow spheres for the solid phase extraction of estrogens.
Talanta, 140, 68-72, (2015)
Weisman A et al., Polymer antidotes for toxin sequestration.
Advanced Drug Delivery Reviews, 90, 81-100, (2015)
Yoshimatsu K et al., Preparation of abiotic polymer nanoparticles for sequestration and neutralization of a target peptide toxin.
Nature Protocols, 10, (4), 595-604, (2015)
Chen W et al., Molecular imprinted photonic crystal for sensing of biomolecules.
Molecular Imprinting, 4, (1), 1-12, (2016)
Liu MM et al., A sol-gel derived pH-responsive bovine serum albumin molecularly imprinted poly(ionic liquids) on the surface of multiwall carbon nanotubes.
Analytica Chimica Acta, 932, 29-40, (2016)
Materials, 5, (1), 85-107, (2012)
Guidi G et al., Modification of Timolol Release From Silicone Hydrogel Model Contact Lens Materials Using Hyaluronic Acid.
Eye & Contact Lens: Science & Clinical Practice, 40, (5), 269-276, (2014)
Journal of Liquid Chromatography & Related Technologies, 28, (1), 1-15, (2005)
Current Opinion in Electrochemistry, 31, Article100848-(2022)
Sensor Letters, 12, (11), 1682-1687, (2014)
Haq I et al., Developing imprinted polymer nanoparticles for the selective separation of antidiabetic drugs.
Journal of Separation Science, 38, (19), 3469-3476, (2015)
Journal of the Iranian Chemical Society, 11, (1), 257-262, (2014)
Planta Medica, 79, (5), 67-(2013)
Shekarchi M et al., Selective extraction of lamivudine in human serum and urine using molecularly imprinted polymer technique.
Journal of Chromatography B, 931, 50-55, (2013)
Ashouri N et al., Synthesis of a new ion-imprinted polymer and its characterization for the selective extraction and determination of nickel ions in aqueous solutions.
Desalination and Water Treatment, 56, (8), 2135-2144, (2015)
Pourfarzib M et al., Molecularly imprinted nanoparticles prepared by miniemulsion polymerization as a sorbent for selective extraction and purification of efavirenz from human serum and urine.
Journal of Chromatography B, 974, 1-8, (2015)
Pourfarzib M et al., Water-compatible molecularly imprinted polymer as a sorbent for the selective extraction and purification of adefovir from human serum and urine.
Journal of Separation Science, 38, (10), 1755-1762, (2015)
Ashouri N et al., A nanostructure ion-imprinted polymer for the selective separation and determination of copper ions in aqueous solutions.
Desalination and Water Treatment, 57, (44), 20867-20876, (2016)
Ashouri N et al., Preparation of a new nanoparticle Cd(II)-imprinted polymer and its application for selective separation of cadmium(II) ions from aqueous solutions and determination via inductively coupled plasma optical emission spectrometry.
Desalination and Water Treatment, 57, (30), 14280-14289, (2016)
Salehi S et al., Synthesis of molecular imprinted polymers for selective extraction of domperidone from human serum using high performance liquid chromatography with fluorescence detection.
Journal of Chromatography B, 1027, 165-173, (2016)
Ramezani F et al., Molecularly Imprinted Polymer of Colocynthin, An Effective Tool for Quality Control of Citrullus colocynthis Extracts.
Current Drug Discovery Technologies, 14, (3), 169-180, (2017)
Materials Science and Engineering: C, 33, (6), 3553-3561, (2013)
Sistani S et al., Fabrication of fluorescence sensor based on molecularly imprinted polymer on amine-modified carbon quantum dots for fast and highly sensitive and selective detection of tannic acid in food samples.
Analytica Chimica Acta, 1186, Article339122-(2021)
Analytica Chimica Acta, 767, 155-162, (2013)
Ebrahimzadeh H et al., Determination of haloperidol in biological samples using molecular imprinted polymer nanoparticles followed by HPLC-DAD detection.
International Journal of Pharmaceutics, 453, (2), 601-609, (2013)
Moscow University Chemistry Bulletin, 67, (5), 211-228, (2012)
Eremina OE et al., Optically transparent chitosan hydrogels for selective sorption and fluorometric determination of dibenzothiophenes.
Carbohydrate Polymers, 216, 260-269, (2019)
Advanced Synthesis & Catalysis, 350, (14-15), 2329-2338, (2008)
Pharmaceutical Reviews, 6, (5), (2008)
Eureka, 26, (12), 38-(2006)
International Journal of Biological Macromolecules, 87, 375-384, (2016)
Khoddami N et al., A new magnetic ion-imprinted polymer as a highly selective sorbent for determination of cobalt in biological and environmental samples.
Talanta, 146, 244-252, (2016)
Research on Chemical Intermediates, 44, (8), 4633-4640, (2018)
Industrial & Engineering Chemistry Research, 52, (36), 13120-13127, (2013)
Journal of Functional Materials, 42, (12), 2233-2236+2240, (2011)
Journal of Materials Chemistry, 18, (45), 5452-5458, (2008)
RSC Advances, 5, (14), 10611-10618, (2015)
Chemistry - A European Journal, 14, (36), 11358-11368, (2008)
Wang XY et al., Novel monodisperse molecularly imprinted shell for estradiol based on surface imprinted hollow vinyl-SiO2 particles.
Talanta, 124, 7-13, (2014)
Zhang Z et al., Quantum Dots Based Mesoporous Structured Imprinting Microspheres for the Sensitive Fluorescent Detection of Phycocyanin.
ACS Applied Materials & Interfaces, 7, (17), 9118-9127, (2015)
Wang XY et al., A molecular imprinting-based turn-on Ratiometric fluorescence sensor for highly selective and sensitive detection of 2, 4-dichlorophenoxyacetic acid (2, 4-D).
Biosensors and Bioelectronics, 81, 438-444, (2016)
Wang XY et al., Molecular imprinting ratiometric fluorescence sensor for highly selective and sensitive detection of phycocyanin.
Biosensors and Bioelectronics, 77, 624-630, (2016)
Yu JL et al., One-pot synthesis of a quantum dot-based molecular imprinting nanosensor for highly selective and sensitive fluorescence detection of 4-nitrophenol in environmental waters.
Environmental Science: Nano, 4, (2), 493-502, (2017)
Wang XY et al., Quantum dots based imprinting fluorescent nanosensor for the selective and sensitive detection of phycocyanin: A general imprinting strategy toward proteins.
Sensors and Actuators B: Chemical, 255, (Part 1), 268-274, (2018)
Kang Q et al., Enhancement anti-interference ability of photoelectrochemical sensor via differential molecularly imprinting technique demonstrated by dopamine determination.
Analytica Chimica Acta, 1125, 201-209, (2020)
Wang JR et al., Enhancing anti-interference ability of molecularly imprinted ratiometric fluorescence sensor via differential strategy demonstrated by the detection of bovine hemoglobin.
Sensors and Actuators B: Chemical, 322, Article128581-(2020)
Analytica Chimica Acta, 795, 82-87, (2013)
Xu L et al., Specific recognition of tyrosine-phosphorylated peptides by epitope imprinting of phenylphosphonic acid.
Journal of Chromatography A, 1293, 85-91, (2013)
Shen F et al., Covalent molecular imprinting made easy: a case study of mannose imprinted polymer.
RSC Advances, 4, (25), 13123-13125, (2014)
Zhang X et al., Synthesis of a novel cross-linker doubles as a functional monomer for preparing a water compatible molecularly imprinted polymer.
Analytical Methods, 6, (23), 9483-9489, (2014)
Shen F et al., A triple-function zwitterion for preparing water compatible diclofenac imprinted polymers.
Chemical Communications, 51, (1), 183-186, (2015)
Zhang Z et al., Direct fluorescence quantification of sulfadiazine from quenching of novel functional monomer based molecularly imprinted polymers.
Analytical Methods, 7, (14), 5794-5800, (2015)
Li M et al., A Novel 2-Acrylamide-6-Methoxybenzothiazole Fabricated Molecularly Imprinted Polymers for Direct Fluorescent Sensing of Alachlor.
Chromatographia, 79, (1), 71-78, (2016)
Polymers, 10, (6), ArticleNo603-(2018)
Journal of Electroanalytical Chemistry, 786, 102-111, (2017)
Polymers, 9, (8), ArticleNo359-(2017)
Li SS et al., A gold nanoparticles-based molecularly imprinted electrochemical sensor for histamine specific-recognition and determination.
Microchemical Journal, 171, Article106844-(2021)
Kida K (Ed.), 238-286, (2014)
Shen GJ et al., Preparation and characteristics of a molecularly imprinted electrode for terbutaline sulfate.
Chinese Journal of Analysis Laboratory, 33, (6), 733-736, (2014)
Shen GJ, Proceeding, Recent Developments in Molecularly Imprinted Solid Phase Extraction Technology,
Matsuda K, Pa PS, Yun W (Eds.), 131-134, (2014)
Gu LY et al., Preparation and Characteristics of a Molecularly Imprinted Electrode for L-Aspartic Acid.
Journal of Analytical Science, 31, (6), 758-762, (2015)
Zhao M et al., The Application of Molecularly Imprinted Polymers.
Journal of Materials Science and Chemical Engineering, 3, 87-89, (2015)
Zhao ZW et al., Preparation and characteristics of a molecularly imprinted electrode for dioxopromethazine hydrochloride.
Chinese Journal of Analysis Laboratory, 34, (2), 178-181, (2015)
Talanta, 61, (4), 447-453, (2003)
Huan SY et al., An microelectrode based on molecularly imprinted oligomer film for rapid electrochemical sensing.
Analytical Letters, 36, (11), 2401-2416, (2003)
Gong JL et al., Capacitive chemical sensor for fenvalerate assay based on electropolymerized molecularly imprinted polymer as the sensitive layer.
Analytical and Bioanalytical Chemistry, 379, (2), 302-307, (2004)
Huan SY et al., Selective electrochemical molecular recognition of benzenediol isomers using molecularly imprinted TiO2 film electrodes.
Analytica Chimica Acta, 506, (1), 31-39, (2004)
Huan SY et al., Determination of heavy metal ions in mixed solution by imprinted SAMs.
Electrochimica Acta, 49, (25), 4273-4280, (2004)
Huan SY et al., Enantioselective recognition of amino acid by differential pulse voltammetry in molecularly imprinted monolayers assembled on Au electrodes.
Electroanalysis, 16, (12), 1019-1023, (2004)
Liu ZH et al., Detection of cinchohine using molecularly imprinted electrosynthesized polymer as biomimetic receptor layers.
Chemical Journal of Chinese Universities, 26, (6), 1049-1051, (2005)
Liu ZH et al., Progress of electrochemical sensor based on molecular imprinting.
Chemical Sensors (China), 25, (4), 1-8, (2005)
Wu ZY et al., Sensitive nicotine sensor based on molecularly imprinted electropolymer of o-aminophenol.
Journal of Hunan University Natural Sciences, 32, (3), 10-14, (2005)
Liu ZH et al., Molecularly imprinted TiO2 thin film using stable ground-state complex as template as applied to selective electrochemical determination of mercury.
Talanta, 68, (4), 1120-1125, (2006)
Liu ZH et al., Progress in the Application of MIPs.
Science and Technology Review, 24, (1), 51-54, (2006)
Wu ZY et al., A sensitive nicotine sensor based on molecularly imprinted electropolymer of o-aminophenol.
Frontiers of Chemistry in China, 1, (2), 183-187, (2006)
Talanta, 129, 465-472, (2014)
Huang Q et al., Chiral separation of (d, l)-lactic acid through molecularly imprinted cellulose acetate composite membrane.
Cellulose, 25, (6), 3435-3448, (2018)
Biosensors and Bioelectronics, 69, 265-271, (2015)
Journal of Instrumental Analysis, 27, (7), 758-761, (2008)
Yin YF et al., The Synthesis and Characterization of Metsulforon Methyl Imprinted Polymers with High Binding Capacity.
Journal of Analytical Science, 25, (4), 414-418, (2009)
Fan HT et al., A method for measurement of free cadmium species in waters using diffusive gradients in thin films technique with an ion-imprinted sorbent.
Analytica Chimica Acta, 897, 24-33, (2015)
Biosensors and Bioelectronics, 85, 387-394, (2016)
Progress In Chemistry, 17, (6), 1067-1073, (2005)
Shen HX et al., Proceeding, Preparation and Recognition Performance of Chloramphenicol Molecularly Imprinted Polymer,
Sun MJ, Zhang YJ (Eds.), 192-196, (2013)
Journal of Materials Chemistry A, 1, (38), 11648-11658, (2013)
Lan HZ et al., Development of a novel magnetic molecularly imprinted polymer coating using porous zeolite imidazolate framework-8 coated magnetic iron oxide as carrier for automated solid phase microextraction of estrogens in fish and pork samples.
Journal of Chromatography A, 1365, 35-44, (2014)
Pan SD et al., Controlled synthesis of pentachlorophenol-imprinted polymers on the surface of magnetic graphene oxide for highly selective adsorption.
Journal of Materials Chemistry A, 2, (37), 15345-15356, (2014)
Chen XH et al., Ethylenediamine-functionalized superparamagnetic carbon nanotubes for magnetic molecularly imprinted polymer matrix solid-phase dispersion extraction of 12 fluoroquinolones in river water.
Analytical Methods, 7, (14), 5838-5846, (2015)
Pan SD et al., In situ controllable synthesis of graphene oxide-based ternary magnetic molecularly imprinted polymer hybrid for efficient enrichment and detection of eight microcystins.
Journal of Materials Chemistry A, 3, (45), 23042-23052, (2015)
Pan SD et al., Double-sided magnetic molecularly imprinted polymer modified graphene oxide for highly efficient enrichment and fast detection of trace-level microcystins from large-volume water samples combined with liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1422, 1-12, (2015)
Shen HY et al., Controlled synthesis of 2, 4, 6-trichlorophenol-imprinted amino-functionalized nano-Fe3O4-polymer magnetic composite for highly selective adsorption.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 481, 439-450, (2015)
Wang XX et al., Analysis of Chlorophenols in Seawater Samples by Molecular Imprinted Magnetic Composite-based Dispersive Solid Phase Extraction Coupled with Liquid Chromatography.
Journal of Instrumental Analysis, 34, (11), 1213-1219, (2015)
Shen HY et al., Highly selective amino-functionalized magnetic molecularly imprinted polymers: absorbents for dispersive solid phase extraction and trace level analysis of chlorophenols in seawater.
RSC Advances, 6, (84), 81330-81340, (2016)
Shen HY et al., Design and controllable synthesis of ethylenediamine-grafted ion imprinted magnetic polymers for highly selective adsorption to perchlorate.
RSC Advances, 8, (52), 29928-29938, (2018)
Pan SD et al., Correction: In situ controllable synthesis of graphene oxide-based ternary magnetic molecularly imprinted polymer hybrid for efficient enrichment and detection of eight microcystins.
Journal of Materials Chemistry A, 7, (25), 15453-15455, (2019)
Asian Journal of Chemistry, 22, (8), 6275-6288, (2010)
Liu PY et al., Determination of Fluoroquinolones in Grass Carp by High Performance Liquid Chromatography-Ion Trap Mass Spectrometry Using Mixed-templates Imprinted Polymer Extraction.
Chinese Journal of Analytical Chemistry, 40, (5), 693-698, (2012)
Wu WT et al., Specific glucose-to-SPR signal transduction at physiological pH by molecularly imprinted responsive hybrid microgels.
Biomaterials, 33, (29), 7115-7125, (2012)
Qian T et al., Ultrasensitive dopamine sensor based on novel molecularly imprinted polypyrrole coated carbon nanotubes.
Biosensors and Bioelectronics, 58, 237-241, (2014)
Zhou X et al., Facile Synthesis of Molecularly Imprinted Graphene Quantum Dots for the Determination of Dopamine with Affinity-Adjustable.
ACS Applied Materials & Interfaces, 7, (22), 11741-11747, (2015)
Shen J et al., Efficient Separation of Enantiomers Using Stereoregular Chiral Polymers.
Chemical Reviews, 116, (3), 1094-1138, (2016)
Chen GS et al., Allochroic-Graphene Oxide Linked 3D Oriented Surface Imprinting Strategy for Glycoproteins Assays.
Advanced Functional Materials, 28, (40), ArticleNo1804129-(2018)
Shen J et al., Electrochemical sensor based on electropolymerized dopamine molecularly imprinted film for tetrabromobisphenol A.
Journal of Electroanalytical Chemistry, 826, 10-15, (2018)
Shi W et al., Adsorption-selectivity customization and competitive adsorption of tryptamine-based mixed-mode chromatography.
Biochemical Engineering Journal, 150, Article107267-(2019)
Chemical Communications, (2), 199-200, (1999)
Luo GM et al., Towards more efficient glutathione peroxidase mimics: Substrate recognition and catalytic group assembly.
Current Medicinal Chemistry, 10, (13), 1151-1183, (2003)
Liu JQ et al., Bioimprinted protein exhibits glutathione peroxidase activity.
Analytica Chimica Acta, 504, (1), 185-189, (2004)
Liu L et al., Functional Mimicry of the Active Site of Glutathione Peroxidase by Glutathione Imprinted Selenium-Containing Protein.
Biomacromolecules, 9, (1), 363-368, (2008)
Huang X et al., Incorporation of glutathione peroxidase active site into polymer based on imprinting strategy.
Biosensors and Bioelectronics, 25, (3), 657-660, (2009)
Tang Y et al., Giant Nanotubes Loaded with Artificial Peroxidase Centers: Self-Assembly of Supramolecular Amphiphiles as a Tool To Functionalize Nanotubes.
Angewandte Chemie International Edition, 49, (23), 3920-3924, (2010)
Huang X et al., Artificial selenoenzymes: Designed and redesigned.
Chemical Society Reviews, 40, (3), 1171-1184, (2011)
Shen JC et al., Synthesis and Performance of Isocarbophos Molecular Imprinted Sillica Surface.
Chinese Journal of Applied Chemistry, 31, (1), 84-88, (2014)
Polymer-Plastics Technology and Engineering, 51, (13), 1289-1295, (2012)
Fan ZL et al., Adsorption of Cu(II) on Surface Ion-Imprinted Poly(Allylamine)-Silica Material from Aqueous Solution.
Polymer-Plastics Technology and Engineering, 53, (1), 30-37, (2014)
Separation and Purification Technology, 164, 70-80, (2016)
Separation Science and Technology, 51, (10), 1684-1689, (2016)
Analytical Methods, 7, (6), 2420-2424, (2015)
Journal of Functional Polymers, 11, (4), 561-565, (1998)
Chen CC et al., Molecularly Imprinted Polymer as an Antibody Substitution in Pseudo-immunoassays for Chemical Contaminants in Food and Environmental Samples.
Journal of Agricultural and Food Chemistry, 66, (11), 2561-2571, (2018)
Journal of Materials Chemistry C, 6, (23), 6138-6145, (2018)
Rong Q et al., Highly selective and sensitive methanol gas sensor based on molecular imprinted silver-doped LaFeO3 core-shell and cage structures.
Nanotechnology, 29, (14), ArticleNo145503-(2018)
Journal of Tianjin Polytechnic University, 28, (1), 19-22, (2009)
Shu XW et al., Synthesis of surface ion-imprinted magnetic microsphere for efficient sorption of perrhenate: A structural surrogate for pertechnetate.
Journal of Molecular Liquids, 211, 621-627, (2015)
Lian WJ et al., Enzymatic logic calculation systems based on solid-state electrochemiluminescence and molecularly imprinted polymer film electrodes.
Biosensors and Bioelectronics, 100, 326-332, (2018)
Analytica Chimica Acta, 489, (2), 183-189, (2003)
Polymer International, 63, (9), 1699-1706, (2014)
Chinese Journal of Chromatography, 37, (6), 634-643, (2019)
Chemical Communications, 53, (66), 9254-9257, (2017)
Shen M et al., Site-selective orientated immobilization of antibodies and conjugates for immunodiagnostics development.
Methods, 116, 95-111, (2017)
Chinese Journal of Spectroscopy Laboratory, 29, (2), 1241-1244, (2012)
Journal of Materials Chemistry B, 9, (20), 4249-4256, (2021)
Shen MM et al., Aptamer and molecularly imprinted polymer: Synergistic recognition and sensing of dopamine.
Electrochimica Acta, 367, Article137433-(2021)
Chemical Research in Chinese Universities, 27, (2), 258-263, (2011)
Electrochimica Acta, 49, (25), 4273-4280, (2004)
Zhao S et al., Determination of melamine in liquid milk based on molecularly imprinted electrochemical sensors.
Journal of Beijing Technology and Business University (Natural Science Edition), 28, (6), 23-27, (2010)
Shen Q et al., Preparation and Application of Microcystins Sensor Based on Molecular Imprinting.
Chinese Journal of Analytical Chemistry, 40, (3), 442-446, (2012)
Chinese Journal of Analytical Chemistry, 49, (10), e21205-e21215, (2021)
Materials Letters, 304, Article130692-(2021)
Modern Scientific Instruments, (6), 76-(2008)
Chemical Engineering Journal, 382, Article123007-(2020)
Analytica Chimica Acta, 943, 136-145, (2016)
Liang SR et al., Molecularly imprinted phloroglucinol-formaldehyde-melamine resin prepared in a deep eutectic solvent for selective recognition of clorprenaline and bambuterol in urine.
Analytica Chimica Acta, 951, 68-77, (2017)
Han YH et al., Newly designed molecularly imprinted 3-aminophenol-glyoxal-urea resin as hydrophilic solid-phase extraction sorbent for specific simultaneous determination of three plant growth regulators in green bell peppers.
Food Chemistry, 311, Article125999-(2020)
Chen X et al., Selective, sensitive, and miniaturized analytical method based on molecularly imprinted graphene oxide composites for the determination of naphthalene-derived plant growth regulators in apples.
Food Chemistry, 349, Article128982-(2021)
Wu XQ et al., Efficient enrichment and analysis of atrazine and its degradation products in Chinese Yam using accelerated solvent extraction and pipette tip solid-phase extraction followed by UPLC-DAD.
Food Chemistry, 337, Article127752-(2021)
Journal of Environmental Chemical Engineering, 9, (6), Article106758-(2021)
Analytical and Bioanalytical Chemistry, 411, (18), 4221-4229, (2019)
Food Science, 34, (12), 45-50, (2013)
Lay S et al., Molecularly imprinted polymers as the extracted sorbents of clenbuterol ahead of liquid chromatographic determination.
Journal of Zhejiang University SCIENCE B, 17, (6), 465-475, (2016)
Lay S et al., State-of-the-art applications of cyclodextrins as functional monomers in molecular imprinting techniques: a review.
Journal of Separation Science, 39, (12), 2321-2331, (2016)
He CZJ et al., Synthesis and application of selective adsorbent for pirimicarb pesticides in aqueous media using allyl-[beta]-cyclodextrin based binary functional monomers.
Journal of the Science of Food and Agriculture, 98, (6), 2089-2097, (2017)
Yu HN et al., Development of a novel assay of molecularly imprinted membrane by design-based gaussian pattern for vancomycin determination.
Journal of Pharmaceutical and Biomedical Analysis, 175, Article112789-(2019)
Sensors and Actuators B: Chemical, 253, 1188-1193, (2017)
Analytical Methods, 5, (19), 5208-5214, (2013)
Shen W et al., Combining mussel and seaweed hydrogel-inspired strategies to design novel ion-imprinted sorbents for ultra-efficient lead removal from water.
New Journal of Chemistry, 43, (14), 5495-5502, (2019)
Acta Chromatographica, 26, (4), 683-693, (2014)
Li K et al., Selective Adsorption of Gd3+ on a Magnetically Retrievable Imprinted Chitosan/Carbon Nanotube Composite with High Capacity.
ACS Applied Materials & Interfaces, 7, (38), 21047-21055, (2015)
Han Q et al., Magnetic sensing film based on Fe3O4@Au-GSH molecularly imprinted polymers for the electrochemical detection of estradiol.
Biosensors and Bioelectronics, 79, 180-186, (2016)
Li XX et al., Development and application of novel clonazepam molecularly imprinted coatings for stir bar sorptive extraction.
Journal of Colloid and Interface Science, 468, 183-191, (2016)
He HB et al., Boronate affinity directing adenosine imprinted nanomagnetic polyhedral oligomeric silsesquioxanes for selective extraction of nucleosides in urine sample.
Microchemical Journal, 169, Article106575-(2021)
Sensors, 15, (12), 31558-31565, (2015)
Journal of Separation Science, 32, (19), 3310-3318, (2009)
Zhang JJ et al., Separation Processes in the Presence of Cyclodextrins Using Molecular Imprinting Technology and Ionic Liquid Cooperating Approach.
Current Organic Chemistry, 15, (1), 74-85, (2011)
Zhang QJ et al., Molecularly imprinted solid-phase extraction for the selective HPLC determination of ractopamine in pig urine.
Journal of Separation Science, 34, (23), 3399-3409, (2011)
Progress In Chemistry, 23, (7), 1386-1399, (2011)
Zhang HJ et al., Synthesis of a new ionic imprinted polymer for the extraction of uranium from seawater.
Journal of Radioanalytical and Nuclear Chemistry, 298, (3), 1705-1712, (2013)
Zhang HJ et al., Synthesis of a New Ionic Imprinted Polymer for the Adsorption of Uranium from (NH4)4[UO2(CO3)3] Solution.
Acta Scientiarum Naturalium Universitatis Pekinensis, 50, (5), 960-964, (2014)
Liang HL et al., Application of Ion-Imprinting Technology in the Field of Radiochemistry.
Journal of Nuclear and Radiochemistry, 38, (3), 129-144, (2016)
Liang HL et al., Synthesis and characterization of a new ion-imprinted polymer for the selective separation of thorium(IV) ions at high acidity.
RSC Advances, 7, (56), 35394-35402, (2017)
Chemistry - A European Journal, 21, (20), 7532-7539, (2015)
Wang SS et al., Targeting and Imaging of Cancer Cells via Monosaccharide-Imprinted Fluorescent Nanoparticles.
Scientific Reports, 6, ArticleNo22757-(2016)
Wei WJ et al., An enzyme-like imprinted-polymer reactor with segregated quantum confinements for a tandem catalyst.
RSC Advances, 8, (3), 1610-1620, (2018)
Analytical Methods, 8, (40), 7361-7368, (2016)
Zhou TT et al., Selective and sensitive detection of tetrabromobisphenol-A in water samples by molecularly imprinted electrochemical sensor.
Sensors and Actuators B: Chemical, 236, 153-162, (2016)
Ma Y et al., A multi-walled carbon nanotubes based molecularly imprinted polymers electrochemical sensor for the sensitive determination of HIV-p24.
Talanta, 164, 121-127, (2017)
Ma Y et al., MIPs-graphene nanoplatelets-MWCNTs modified glassy carbon electrode for the determination of cardiac troponin I.
Analytical Biochemistry, 520, 9-15, (2017)
Ma Y et al., A glassy carbon electrode modified with graphene nanoplatelets, gold nanoparticles and chitosan, and coated with a molecularly imprinted polymer for highly sensitive determination of prostate specific antigen.
Microchimica Acta, 184, (11), 4469-4476, (2017)
Shen XL et al., Ultrasensitive Determination of Human Chorionic Gonadotropin using a Molecularly Imprinted Electrochemical Sensor.
ChemistrySelect, 2, (22), 6549-6555, (2017)
Feng JW et al., Highly sensitive and selective fluorescent sensor for tetrabromobisphenol-A in electronic waste samples using molecularly imprinted polymer coated quantum dots.
Microchemical Journal, 144, 93-101, (2019)
Chemical Communications, (11), 1163-1165, (2007)
Shen XT et al., Enhanced Photocatalytic Degradation and Selective Removal of Nitrophenols by Using Surface Molecular Imprinted Titania.
Environmental Science & Technology, 42, (5), 1687-1692, (2008)
Shen XT et al., Inorganic molecular imprinted titanium dioxide photocatalyst: synthesis, characterization and its application for efficient and selective degradation of phthalate esters.
Journal of Materials Chemistry, 19, (27), 4843-4851, (2009)
Shen XT et al., Photocatalytic removal of pentachlorophenol by means of an enzyme-like molecular imprinted photocatalyst and inhibition of the generation of highly toxic intermediates.
New Journal of Chemistry, 33, (11), 2278-2285, (2009)
Shen XT et al., Selective photocatalysis on molecular imprinted TiO2 thin films prepared via an improved liquid phase deposition method.
New Journal of Chemistry, 33, (8), 1673-1679, (2009)
Shen XT et al., Molecular imprinting in Pickering emulsions: a new insight into molecular recognition in water.
Chemical Communications, 47, (37), 10359-10361, (2011)
Shen XT et al., Interfacial Molecular Imprinting in Nanoparticle-Stabilized Emulsions.
Macromolecules, 44, (14), 5631-5637, (2011)
Shen XT et al., Imprinted polymer beads enabling direct and selective molecular separation in water.
Soft Matter, 8, (27), 7169-7176, (2012)
Shen XT et al., Molecular imprinting of protein in Pickering emulsion.
Chemical Communications, 48, (66), 8198-8200, (2012)
Shen XT et al., Molecular imprinting for removing highly toxic organic pollutants.
Chemical Communications, 48, (6), 788-798, (2012)
Tang HQ et al., Selective photocatalysis mediated by magnetic molecularly imprinted polymers.
Separation and Purification Technology, 95, (1), 165-171, (2012)
Xu CG et al., Molecularly imprinted magnetic materials prepared from modular and clickable nanoparticles.
Journal of Materials Chemistry, 22, (15), 7427-7433, (2012)
Huang CX et al., Molecularly imprinted photocatalyst with a structural analogue of template and its application.
Journal of Hazardous Materials, 248 - 249, 379-386, (2013)
Shen XT et al., Molecularly Imprinted Polymers for Clean Water: Analysis and Purification.
Industrial & Engineering Chemistry Research, 52, (39), 13890-13899, (2013)
Shen XT et al., Molecular recognition with colloidosomes enabled by imprinted polymer nanoparticles and fluorogenic boronic acid.
Journal of Materials Chemistry B, 1, (36), 4612-4618, (2013)
Xu CG et al., Photoconjugation of Molecularly Imprinted Polymer with Magnetic Nanoparticles.
ACS Applied Materials & Interfaces, 5, (11), 5208-5213, (2013)
Huang CX et al., Janus molecularly imprinted polymer particles.
Chemical Communications, 50, (20), 2646-2649, (2014)
Shen XT et al., Bacterial Imprinting at Pickering Emulsion Interfaces.
Angewandte Chemie International Edition, 53, (40), 10687-10690, (2014)
Shen XT et al., Selective photocatalytic degradation of nitrobenzene facilitated by molecular imprinting with a transition state analog.
Catalysis Today, 225, 164-170, (2014)
Tu ZK et al., Particle-Assisted Semidirect Breath Figure Method: A Facile Way to Endow the Honeycomb-Structured Petri Dish with Molecular Recognition Capability.
ACS Applied Materials & Interfaces, 6, (15), 12931-12938, (2014)
Zhou TC et al., Molecularly imprinted polymer beads prepared by Pickering emulsion polymerization for steroid recognition.
Journal of Applied Polymer Science, 131, (1), Art No 39606-(2014)
Shen XT, Book chapter, Molecularly Imprinted Photocatalysts,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 10, 211-228, (2016)
Shen XT et al., Reflux precipitation polymerization: a new synthetic insight in molecular imprinting at high temperature.
RSC Advances, 6, (85), 81491-81499, (2016)
Shen XT et al., Catalytic Formation of Disulfide Bonds in Peptides by Molecularly Imprinted Microgels at Oil/Water Interfaces.
ACS Applied Materials & Interfaces, 8, (44), 30484-30491, (2016)
Ye L et al., Molecular imprinting in particle-stabilized emulsions: enlarging template size from small molecules to proteins and cells.
Molecular Imprinting, 3, (1), 8-16, (2016)
Chen ZL et al., Synergistic Catalysis by "Polymeric Microzymes and Inorganic Nanozymes": The 1+1>2 Effect for Intramolecular Cyclization of Peptides.
Frontiers in Chemistry, 5, ArticleNo60-(2017)
Shen XT et al., Book chapter, Generation of Janus Molecularly Imprinted Polymer Particles,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 353-362, (2017)
Wan LB et al., Core-shell molecularly imprinted particles.
TrAC Trends in Analytical Chemistry, 95, 110-121, (2017)
Lin B et al., Electromembrane extraction of high level substances: A novel approach for selective recovery of templates in molecular imprinting.
Journal of Membrane Science, 568, 30-39, (2018)
Chen ZL et al., Artificial Cytochrome c Mimics: Graphene Oxide-Fe(III) Complex-Coated Molecularly Imprinted Colloidosomes for Selective Photoreduction of Highly Toxic Pollutants.
ACS Applied Materials & Interfaces, 12, (5), 6615-6626, (2020)
Chinese Journal of Analysis Laboratory, 21, (2), 12-14, (2002)
Chemical Industry and Engineering Progress, 19, (5), 43-46, (2000)
Food and Fermentation Industries, 36, (12), 177-180, (2010)
Li N et al., Novel Oligo(ethylene glycol)-Based Molecularly Imprinted Magnetic Nanoparticles for Thermally Modulated Capture and Release of Lysozyme.
ACS Applied Materials & Interfaces, 6, (19), 17289-17295, (2014)
Ji SL et al., Poly(amino acid)-based thermoresponsive molecularly imprinted magnetic nanoparticles for specific recognition and release of lysozyme.
Analytica Chimica Acta, 909, 60-66, (2016)
Xing JY et al., Fabrication of a photoelectric-sensitive imprinting polymer by PPy-cross-linked Gel/CS complex and its comprehensive treatment of Cr(VI).
Polymer Bulletin, 77, (2), 869-882, (2020)
Hu JF et al., Chemiresistor sensor based on ion-imprinted polymer (IIP)-functionalized rGO for Cd(II) ions in water.
Sensors and Actuators B: Chemical, 346, Article130474-(2021)
Journal of the American Chemical Society, 135, (14), 5336-5339, (2013)
Molecules, 22, (4), ArticleNo508-(2017)
Environmental Science & Technology, 46, (3), 1789-1795, (2012)
Zhao Y et al., Adsorption Separation of Carbon Dioxide from Flue Gas by a Molecularly Imprinted Adsorbent.
Environmental Science & Technology, 48, (3), 1601-1608, (2014)
Journal of Anqing Teachers College (Natural Science Edition), 15, (1), 75-77, (2009)
Wang ZQ et al., Synthesis and Properties Study of Mercury Ion Imprinted Polymer.
Chinese Journal of Analytical Chemistry, 37, (3), 449-453, (2009)
Wang ZQ et al., Ion imprinted sol-gel nanotubes membrane for selective separation of copper ion from aqueous solution.
Microchimica Acta, 169, (1), 195-200, (2010)
Wu GH et al., Synthesis of ion-imprinted mesoporous silica gel sorbent for selective adsorption of copper ions in aqueous media.
Microchimica Acta, 171, (1), 203-209, (2010)
Journal of Separation Science, 34, (19), 2739-2744, (2011)
He J et al., Preparation and selective recognition of a novel solid-phase microextraction fiber combined with molecularly imprinted polymers for the extraction of parabens in soy sample.
Journal of Separation Science, 35, (2), 308-314, (2012)
Shen YZ et al., Synthesis and optimization of molecularly imprinted microspheres for ethyl paraben.
Chemical Reagents, 34, (6), 501-504, 518, (2012)
Zhang M et al., Application of pseudo-template molecularly imprinted polymers by atom transfer radical polymerization to the solid-phase extraction of pyrethroids.
Talanta, 178, 1011-1016, (2018)
Gao PW et al., High-sensitivity photo-electrochemical heterostructure of the cuprous oxide-metal organic framework for a dioctyl phthalate molecularly imprinted sensor.
Analyst, 146, (20), 6178-6186, (2021)
Journal of Analytical Science, 32, (3), 345-348, (2016)
Journal of the Chinese Chemical Society, 55, (3), 587-593, (2008)
Shen ZL et al., Spectroscopy Study of Binding Mechanisms and Molecular Recognition of Methamidophos-Specific Moleculary Imprinted Polymer.
Spectroscopy and Spectral Analysis, 29, (1), 78-81, (2009)
Shen ZL et al., Selective Solid-Phase Extraction Using Molecularly Imprinted Polymer for Analysis of Methamidophos in Water and Soil Samples.
Bioscience Biotechnology and Biochemistry, 75, (3), 473-479, (2011)
Chemosphere, 199, 98-106, (2018)
China Biotechnology, 21, (5), 63-67, (2001)
Sui HY et al., Chiral separation of amino acid derivatives by molecular imprinting technique (II) - Influence of the components of mobile phase on the chiral separation.
Fine Chemicals, 20, (7), 403-406, (2003)
Sui HY et al., Chiral separation of amino acid derivatives by molecular imprinting technique (I) - Preparation of molecularly imprinted polymers, chromatographical evaluation and physical and chemical character formulation.
Fine Chemicals, 20, (6), 345-348+373, (2003)
Sun RF et al., Construction and application of a stoichiometric displacement model for retention in chiral recognition of molecular imprinting.
Journal of Chromatography A, 1055, (1-2), 1-9, (2004)
Sun RF et al., Thermodynamic study on chiral separation process using molecular imprinting.
Acta Chimica Sinica, 63, (3), 189-195, (2005)
Sun RF et al., Preparation of molecularly imprinted polymers and studies on their pore-structure.
Acta Polymerica Sinica, (2), 248-253, (2005)
Sun RF et al., Preparation and specific molecular recognition properties of human hemoglobin imprinted polymers.
The Chinese Journal of Process Engineering, 5, (3), 341-344, (2005)
Li DM et al., Molecular imprinting sensor based on quantum weak measurement.
Biosensors and Bioelectronics, 94, 328-334, (2017)
International Journal of Pharmaceutics, 494, (1), 244-248, (2015)
Acta Materiae Compositae Sinica, 38, (10), 3208-3216, (2021)
Microchemical Journal, 158, Article105210-(2020)
Journal of Chromatography A, 1506, 9-17, (2017)
Analyst, 136, (5), 920-926, (2011)
Qu P et al., Convenient enantioseparation by monolithic imprinted capillary clamped in a chip with electrochemical detection.
Electrophoresis, 32, (12), 1522-1529, (2011)
Chen M et al., Preparation of Magnetic Molecularly Imprinted Polymer for Chlorpyrifos Adsorption and Enrichment.
IOP Conference Series: Materials Science and Engineering, 269, (1), ArticleNo012061-(2017)
ACS Applied Materials & Interfaces, 8, (51), 35004-35011, (2016)
Talanta, 174, 725-732, (2017)
Hou HQ et al., Selective recognition of a cyclic peptide hormone in human plasma by hydrazone bond-oriented surface imprinted nanoparticles.
Analytica Chimica Acta, 1154, Article338301-(2021)
Biological Disaster Science, 36, (1), 100-104, (2013)
Journal of Hazardous Materials, 179, (1-3), 223-229, (2010)
Zhu R et al., Molecularly imprinted layer-coated silica nanoparticles for selective solid-phase extraction of bisphenol A from chemical cleansing and cosmetics samples.
Analytica Chimica Acta, 658, (2), 209-216, (2010)
Sheng N et al., Dummy molecularly imprinted polymers as the coating of stir bar for sorptive extraction of bisphenol A in tap water.
Journal of Separation Science, 35, (5-6), 707-712, (2012)
World Mycotoxin Journal, 8, (1), 37-43, (2015)
Sensors and Actuators B: Chemical, 343, Article130119-(2021)
Microchemical Journal, 160, Article105638-(2021)
In: Molecularly Imprinted Sensors, Li SJ, Ge Y, Piletsky SA, Lunec J (Eds.) Elsevier: Amsterdam, Ch. 3, 57-72, (2012)
Chinese Journal of Analytical Chemistry, 40, (11), 1648-1653, (2012)
Zhang L et al., Selective trace analysis of chloroacetamide herbicides in food samples using dummy molecularly imprinted solid phase extraction based on chemometrics and quantum chemistry.
Analytica Chimica Acta, 729, (1), 36-44, (2012)
Chemistry Bulletin, 73, (5), 455-460, (2010)
The Journal of Physical Chemistry C, 120, (35), 19871-19877, (2016)
Food Chemistry, 350, Article129229-(2021)
Coordination Chemistry Reviews, 247, (1-2), 147-184, (2003)
Electroanalysis, 17, (5-6), 532-537, (2005)
Journal of Chromatography A, 889, (1-2), 105-110, (2000)
Ellwanger A et al., Application of molecularly imprinted polymers in supercritical fluid chromatography.
Journal of Chromatography A, 897, (1-2), 317-327, (2000)
Ellwanger A et al., Evaluation of methods aimed at complete removal of template from molecularly imprinted polymers.
Analyst, 126, (6), 784-792, (2001)
Polymer, 34, (1), 77-84, (1993)
Steinke J et al., Imprinting of synthetic polymers using molecular templates.
Advances in Polymer Science, 123, 81-125, (1995)
Steinke JHG et al., Molecularly imprinted anisotropic polymer monoliths.
Macromolecules, 29, (1), 407-415, (1996)
Steinke JHG et al., A simple polymerisable carboxylic acid receptor: 2-acrylamido pyridine.
TrAC Trends in Analytical Chemistry, 18, (3), 159-164, (1999)
Masqué N et al., Synthesis and evaluation of a molecularly imprinted polymer for selective on-line solid-phase extraction of 4-nitrophenol from environmental water.
Analytical Chemistry, 72, (17), 4122-4126, (2000)
Lanza F et al., Development of a semiautomated procedure for the synthesis and evaluation of molecularly imprinted polymers applied to the search for functional monomers for phenytoin and nifedipine.
Analytica Chimica Acta, 435, (1), 91-106, (2001)
Caro E et al., Non-covalent and semi-covalent molecularly imprinted polymers for selective on-line solid-phase extraction of 4-nitrophenol from water samples.
Journal of Chromatography A, 963, (1-2), 169-178, (2002)
de Boer T et al., Spherical molecularly imprinted polymer particles: A promising tool for molecular recognition in capillary electrokinetic separations.
Electrophoresis, 23, (9), 1296-1300, (2002)
Caro E et al., On-line solid-phase extraction with molecularly imprinted polymers to selectively extract substituted 4-chlorophenols and 4-nitrophenol from water.
Journal of Chromatography A, 995, (1-2), 233-238, (2003)
Wang JF et al., Monodisperse, molecularly imprinted polymer microspheres prepared by precipitation polymerization for affinity separation applications.
Angewandte Chemie International Edition, 42, (43), 5336-5338, (2003)
Caro E et al., Molecularly imprinted solid-phase extraction of naphthalene sulfonates from water.
Journal of Chromatography A, 1047, (2), 175-180, (2004)
Caro E et al., A new molecularly imprinted polymer for the selective extraction of naproxen from urine samples by solid-phase extraction.
Journal of Chromatography B, 813, (1-2), 137-143, (2004)
Caro E et al., Synthesis and application of an oxytetracycline imprinted polymer for the solid-phase extraction of tetracycline antibiotics.
Analytica Chimica Acta, 552, (1-2), 81-86, (2005)
Caro E et al., Selective enrichment of anti-inflammatory drugs from river water samples by solid-phase extraction with a molecularly imprinted polymer.
Journal of Separation Science, 28, (16), 2080-2085, (2005)
Zurutuza A et al., Molecularly imprinted solid-phase extraction of cocaine metabolites from aqueous samples.
Analytica Chimica Acta, 542, (1), 14-19, (2005)
Caro E et al., Application of molecularly imprinted polymers to solid-phase extraction of compounds from environmental and biological samples.
TrAC Trends in Analytical Chemistry, 25, (2), 143-154, (2006)
Caro E et al., Novel enrofloxacin imprinted polymer applied to the solid-phase extraction of fluorinated quinolones from urine and tissue samples.
Analytica Chimica Acta, 562, (2), 145-151, (2006)
Caro E et al., Direct determination of ciprofloxacin by mass spectrometry after a two-step solid-phase extraction using a molecularly imprinted polymer.
Journal of Separation Science, 29, (9), 1230-1236, (2006)
Beltran A et al., Synthesis and application of a carbamazepine-imprinted polymer for solid-phase extraction from urine and wastewater.
Analytica Chimica Acta, 597, (1), 6-11, (2007)
Oxelbark J et al., Chromatographic comparison of bupivacaine imprinted polymers prepared in crushed monolith, microsphere, silica-based composite and capillary monolith formats.
Journal of Chromatography A, 1160, (1-2), 215-226, (2007)
Wang JF et al., Synthesis and characterization of micrometer-sized molecularly imprinted spherical polymer particulates prepared via precipitation polymerization.
Pure And Applied Chemistry, 79, (9), 1505-1519, (2007)
Beltran A et al., Selective solid-phase extraction of amoxicillin and cephalexin from urine samples using a molecularly imprinted polymer.
Journal of Separation Science, 31, (15), 2868-2874, (2008)
Besenius P et al., Polymer-supported cationic templates for molecular recognition of anionic hosts in water.
Chemical Communications, (24), 2809-2811, (2008)
Biomedical Chromatography, 25, (1-2), 199-217, (2011)
Talanta, 211, Article120745-(2020)
Journal of the Taiwan Institute of Chemical Engineers, 43, (2), 188-194, (2012)
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 562, 310-320, (2019)
Russian Journal of Applied Chemistry, 83, (11), 1997-2005, (2010)
Men’shikova AYu et al., Monodisperse polymer particles with molecular imprints of naphthalene in the shell: Synthesis and adsorption properties.
Russian Journal of Applied Chemistry, 84, (9), 1567-1574, (2011)
Moskalenko Y et al., A 1H NMR study of Nile Red solvation (Original Russian Text Š Yu.E. Moskalenko, A.Yu. Men'shikova, N.N. Shevchenko, V.V. Faraonova, A.V. Gribanov, 2011, published in Khimiya Vysokikh Energii, 2011, Vol. 45, No. 3, pp. 214-218.).
High Energy Chemistry, 45, (3), 183-187, (2011)
Men’shikova AYu et al., Crosslinked monodisperse particles containing luminophore groups in shells for molecular recognition of lower alcohols (Original Russian Text Š A.Yu. Men'shikova, N.N. Shevchenko, T.G. Evseeva, A.V. Koshkin, G.A. Pankova, B.M. Shabsel's, V.V. Faraonova, M.Ya. Goikhman, A.V. Yakimanskii, V.A. Sazhnikov, M.V. Alfimov, 2012, published in Russian in Vysokomolekulyarnye Soedineniya, Ser. B, 2012, Vol. 54, No. 1, pp. 93 - 101.).
Polymer Science Series B, 54, (1), 21-29, (2012)
RSC Advances, 5, (120), 98880-98891, (2015)
Materials Science and Engineering: C, 94, 879-885, (2019)
Sheydaei O et al., Rapid and selective diagnose of Sarcosine in urine samples as prostate cancer biomarker by mesoporous imprinted polymeric nanobeads modified electrode.
Sensors and Actuators B: Chemical, 309, Article127559-(2020)
Journal of Chromatography B, 1011, 1-5, (2016)
Sheykhaghaei G et al., Synthesis of molecularly imprinted polymer nanoparticles for selective extraction and pre-concentration of protriptyline by ultrasound-assisted extraction method in human plasma.
Analytical Methods, 8, (11), 2413-2419, (2016)
Sheykhaghaei G et al., Synthesis and characterization of core-shell magnetic molecularly imprinted polymer nanoparticles for selective extraction of tizanidine in human plasma.
Bulletin of Materials Science, 39, (3), 647-653, (2016)
Chemical Industry and Engineering Progress, 28, (10), 1787-1791, (2009)
Analytical Methods, 11, (8), 1043-1052, (2019)
Analytical Methods, 6, (24), 9684-9690, (2014)
Journal of Macromolecular Science, Part B, 53, (4), 662-672, (2014)
Shi C et al., Biomimetic Enzyme-linked Immunosorbent Assay Using a Hydrophilic Molecularly Imprinted Membrane for Recognition and Fast Determination of Trichlorfon and Acephate Residues in Vegetables.
Food Analytical Methods, 8, (10), 2496-2503, (2015)
Shi C et al., Synthesis and evaluation of ion-imprinted sol-gel material of selenite.
Analytical Methods, 9, (10), 1658-1664, (2017)
Asian Journal of Chemistry, 25, (7), 3922-3926, (2013)
Talanta, 161, 797-803, (2016)
Journal of Separation Science, 32, (19), 3265-3273A, (2009)
Shi Y et al., Selective determination of trace 17[beta]-estradiol in dairy and meat samples by molecularly imprinted solid-phase extraction and HPLC.
Food Chemistry, 126, (4), 1916-1925, (2011)
Development and Application of Materials, (1), 117-124, (2013)
Acta Medicinae Universitatis Scientiae et Technologiae Huazhong, 34, (5), 639-641, (2005)
Shi Y et al., Selective solid-phase extraction of cholesterol using molecularly imprinted polymers and its application in different biological samples.
Journal of Pharmaceutical and Biomedical Analysis, 42, (5), 549-555, (2006)
Zhang JH et al., Selective solid-phase extraction of bisphenol A using molecularly imprinted polymers and its application to biological and environmental samples.
Analytical and Bioanalytical Chemistry, 385, (4), 780-786, (2006)
International Journal of Environmental Analytical Chemistry, 96, (13), 1300-1311, (2016)
Analytical Methods, 7, (19), 8352-8359, (2015)
Yang ZK et al., Preparation and Characterization of L-Tryptophan Molecularly Imprinted Photonic Hydrogels.
Chemical Journal of Chinese Universities, 37, (1), 37-42, (2016)
Journal of Chromatography A, 1592, 38-46, (2019)
Advanced Functional Materials, 17, (11), 1821-1827, (2007)
Niu J et al., Surface-Imprinted Nanostructured Layer-by-Layer Film for Molecular Recognition of Theophylline Derivatives.
Langmuir, 24, (20), 11988-11994, (2008)
Zhou Y et al., A Facile Method to Prepare Molecularly Imprinted Layer-by-Layer Nanostructured Multilayers Using Postinfiltration and a Subsequent Photo-Cross-Linking Strategy.
ACS Applied Materials & Interfaces, 5, (17), 8308-8313, (2013)
Journal of Physical Chemistry C, 116, (48), 25309-25318, (2012)
New Journal of Chemistry, 40, (9), 7290-7293, (2016)
Chinese Journal of Chemistry, 27, (10), 2043-2048, (2009)
Yang QY et al., Determination of Parathion in Vegetables by Electrochemical Sensor Based on Molecularly Imprinted Polyethyleneimine/Silica Gel Films.
Journal of Agricultural and Food Chemistry, 57, (15), 6558-6563, (2009)
Liang Y et al., Composites of Polyaniline Nanofibers and Molecularly Imprinted Polymers for Recognition of Nitroaromatic Compounds.
Chemistry - A European Journal, 17, (21), 5989-5997, (2011)
Nie DX et al., Two-dimensional molecular imprinting approach for the electrochemical detection of trinitrotoluene.
Sensors and Actuators B: Chemical, 156, (1), 43-49, (2011)
Sun Q et al., Determination of Parathion-methyl in Vegetables by Fluorescent-Labeled Molecular Imprinted Polymer.
Chinese Journal of Chemistry, 29, (10), 2134-2140, (2011)
Tang XS et al., Fe3O4@Au sphere molecular imprinting with self-assembled monolayer for the recognition of parathion-methyl.
Analytical Methods, 3, (10), 2313-2321, (2011)
Yu DJ et al., A novel electrochemical sensor for determination of dopamine based on AuNPs@SiO2 core-shell imprinted composite.
Biosensors and Bioelectronics, 38, (1), 270-277, (2012)
Zhang D et al., A molecularly imprinted polymer based on functionalized multiwalled carbon nanotubes for the electrochemical detection of parathion-methyl.
Analyst, 137, (11), 2629-2636, (2012)
Gu L et al., Double recognition of dopamine based on a boronic acid functionalized poly(aniline-co-anthranilic acid)-molecularly imprinted polymer composite.
Analyst, 138, (18), 5461-5469, (2013)
Kong L et al., Molecularly imprinted sensor based on electropolmerized poly(o-phenylenediamine) membranes at reduced graphene oxide modified electrode for imidacloprid determination.
Sensors and Actuators B: Chemical, 185, 424-431, (2013)
Zeng YB et al., A novel composite of SiO2-coated graphene oxide and molecularly imprinted polymers for electrochemical sensing dopamine.
Biosensors and Bioelectronics, 45, 25-33, (2013)
Wang ZH et al., An ionic liquid-modified graphene based molecular imprinting electrochemical sensor for sensitive detection of bovine hemoglobin.
Biosensors and Bioelectronics, 61, 391-396, (2014)
Zeng YB et al., A novel composite of reduced graphene oxide and molecularly imprinted polymer for electrochemical sensing 4-nitrophenol.
Electrochimica Acta, 130, 504-511, (2014)
Zhou Y et al., A novel composite of graphene quantum dots and molecularly imprinted polymer for fluorescent detection of paranitrophenol.
Biosensors and Bioelectronics, 52, 317-323, (2014)
Nie DX et al., Composites of multiwalled carbon nanotubes/polyethyleneimine (MWCNTs/PEI) and molecularly imprinted polymers for dinitrotoluene recognition.
Sensors and Actuators B: Chemical, 224, 584-591, (2016)
Liang Y et al., A novel molecularly imprinted polymer composite based on polyaniline nanoparticles as sensitive sensors for parathion detection in the field.
Food Control, 133, Article108638-(2022)
Journal of Jishou University (Natural Science Edition), 29, (6), 88-91, (2008)
Li H et al., Application of Molecularly Imprinted Column for Separation and Purification of Bioactive Compound from Cirsium segetum Bunge.
Separation Science and Technology, 44, (2), 370-385, (2009)
Li H et al., Preparation of homoharringtonine imprinted polymer by precipitation polymerization.
Chemical Industry and Engineering Progress, 28, (10), 1787-1791, (2009)
Wang HJ et al., Enantioselective determination of S-ornidazole by using carbon paste electrode modified with boron-embedded conductive copolymer-polysiloxane-based molecularly imprinted hybrid film.
Electrochimica Acta, 246, 338-347, (2017)
Lai WQ et al., Optimization of adsorption configuration by DFT calculation for design of adsorbent: A case study of palladium ion-imprinted polymers.
Journal of Hazardous Materials, 379, Article120791-(2019)
Shi H et al., Molecularly imprinted mesoporous silica incorporating C3N4 dots and CdTe quantum dots as ratiometric fluorescent probe for determination of Malachite Green.
Microchimica Acta, 186, (8), Article556-(2019)
Wang L et al., In-site synthesis of an inorganic-framework molecular imprinted TiO2/CdS heterostructure for the photoelectrochemical sensing of bisphenol A.
Analytical Methods, 13, (25), 2857-2864, (2021)
Journal of Hazardous Materials, 227-228, (1), 243-249, (2012)
Guo Y et al., One-step synthesis of reactant-product-dual-template imprinted capsules as phosphotriesterase mimetic enzymes for pesticide elimination.
RSC Advances, 4, (16), 7881-7884, (2014)
Zhang L et al., Electrospun nanofibers containing p-nitrophenol imprinted nanoparticles for the hydrolysis of paraoxon.
Chinese Journal of Polymer Science, 32, (11), 1469-1478, (2014)
Shi HG et al., Novel imprinted nanocapsule with highly enhanced hydrolytic activity for organophosphorus pesticide degradation and elimination.
European Polymer Journal, 72, 190-201, (2015)
Electrochemistry Communications, 13, (12), 1404-1407, (2011)
Chen K et al., Fabrication of a Novel and Simple Microcystin-LR Photoelectrochemical Sensor with High Sensitivity and Selectivity.
Environmental Science & Technology, 46, (21), 11955-11961, (2012)
Kang YF et al., Proceeding, Preparation of Cu2+ Imprinted Polymer Microspheres and its Application for the Determination of Cu2+ in Water,
Jiang LZ (Ed.), 7-11, (2013)
Lu BJ et al., A Novel Photoelectrochemical Sensor for Bisphenol A with High Sensitivity and Selectivity Based on Surface Molecularly Imprinted Polypyrrole Modified TiO2 Nanotubes.
Electroanalysis, 25, (3), 771-779, (2013)
Zhang YN et al., Enhanced selective photoelectrochemical oxidation for small organic molecules derived from molecularly imprinted single crystalline ZnO nanorods electrodes.
Electrochemistry Communications, 33, 5-9, (2013)
Chen C et al., Chiral Recognition and Enantioselective Photoelectrochemical Oxidation toward Amino Acids on Single-Crystalline ZnO.
The Journal of Physical Chemistry C, 118, (22), 12041-12049, (2014)
Shi HJ et al., Photoelectrochemical Enantioselective Recognition of Amino Acid Enantiomers on (001) Facet TiO2 Surface.
Electrochimica Acta, 146, 359-364, (2014)
Sun S et al., Magnetic glass carbon electrode, modified with magnetic ferriferrous oxide nanoparticles coated with molecularly imprinted polymer films for electrochemical determination of bovine hemoglobin.
Journal of Electroanalytical Chemistry, 734, 18-24, (2014)
Kang YF et al., Preparation of Hg(2+)-ion-Imprinted polymer by precipitation method and its characteristics.
Chinese Journal of Analysis Laboratory, 34, (9), 1094-1098, (2015)
Shi HJ et al., A highly selective and picomolar level photoelectrochemical sensor for PCB 101 detection in environmental water samples.
Biosensors and Bioelectronics, 81, 503-509, (2016)
Shi HJ et al., Cathodic photoelectrochemical detection of PCB101 in environmental samples with high sensitivity and selectivity.
Journal of Hazardous Materials, 342, 131-138, (2018)
Tang B et al., Preferential electrocatalytic degradation of 2, 4-dichlorophenoxyacetic acid on molecular imprinted mesoporous SnO2 surface.
Chemical Engineering Journal, 334, 882-890, (2018)
Shi HJ et al., Mechanisim investigation on the enhanced and selective photoelectrochemical oxidation of atrazine on molecular imprinted mesoporous TiO2.
Applied Catalysis B: Environmental, 246, 50-60, (2019)
Analytica Chimica Acta, 639, (1-2), 42-50, (2009)
Shi HL et al., Preparation and Specific Absorption performance of Molecularly Imprinting Polymers for Phenolphthalein.
Chinese Journal of Applied Chemistry, 26, (8), 971-975, (2009)
Su XF et al., Study on the preparation of lead ion imprinted polymer and its specific adsorption performance.
Metallurgical Analysis, 29, (8), 16-20, (2009)
Chemical Journal of Chinese Universities, 19, (9), 1388-1392, (1998)
Zhou J et al., A study of binding action and selectivity of trimethoprim molecular template polymer.
Chemical Journal of Chinese Universities, 20, (2), 204-208, (1999)
Zhou J et al., Study on the characteristics of molecular recognition of metal-complexing template polymers.
Journal of Analytical Science, 15, (2), 89-93, (1999)
Zhou J et al., Selective enrichment and direct determination of trace drug by solid-phase extraction.
Chinese Journal of Analytical Chemistry, 27, (1), 5-9, (1999)
Biosensors and Bioelectronics, 128, 129-136, (2019)
Current Opinion in Solid State & Materials Science, 4, (4), 395-402, (1999)
Shi HQ et al., Template-imprinted nanostructured surfaces for protein recognition.
Nature, 398, (6728), 593-597, (1999)
Shi HQ et al., Template recognition of protein-imprinted polymer surfaces.
Journal of Biomedical Materials Research, 49, (1), 1-11, (2000)
RSC Advances, 6, (55), 49597-49603, (2016)
European Polymer Journal, 145, Article110231-(2021)
Microchimica Acta, 180, (13-14), 1325-1332, (2013)
Analytical Chemistry, 93, (10), 4536-4541, (2021)
Journal of Analytical Science, 17, (4), 327-333, (2001)
He GY et al., Preparation and application of magnetic molecularly imprinted nanoparticles for the selective extraction of osthole in Libanotis Buchtomensis herbal extract.
Journal of Separation Science, 39, (12), 2313-2320, (2016)
Huang GL et al., Removal of thorium(IV) from aqueous solution using magnetic ion-imprinted chitosan resin.
Journal of Radioanalytical and Nuclear Chemistry, 310, (3), 1265-1272, (2016)
Journal of Materials Chemistry A, 6, (17), 7395-7400, (2018)
Microchemical Journal, 168, Article106536-(2021)
China Journal of Chinese Materia Medica, 38, (8), 1266-1270, (2013)
He FY et al., Exploration of research approaches of Chinese medicine's pharmacology based on "imprinting templates" (medical element) of supramolecules.
China Journal of Chinese Materia Medica, 40, (21), 4313-4318, (2015)
He FY et al., Dispute for Japanese (wild) honeysuckle flower based on supermolecular imprinting templates.
China Journal of Chinese Materia Medica, 41, (6), 1152-1160, (2016)
Yang YT et al., Chinese medicine preparation supramolecular imprinting templates based on in vitro release characteristics of BYHW sustained-release tablet.
China Journal of Chinese Materia Medica, 41, (6), 1040-1045, (2016)
Zhang ZL et al., Large-pore, silica particles with antibody-like, biorecognition sites for efficient protein separation.
Journal of Materials Chemistry B, 5, (22), 4214-4220, (2017)
Zhang ZL et al., Highly efficient and selective removal of trace lead from aqueous solutions by hollow mesoporous silica loaded with molecularly imprinted polymers.
Journal of Hazardous Materials, 328, 160-169, (2017)
Zhang ZL et al., Magnetic, core-shell structured and surface molecularly imprinted polymers for the rapid and selective recognition of salicylic acid from aqueous solutions.
Applied Surface Science, 435, 178-186, (2018)
Zheng YL et al., Determination of sulfonylurea herbicide residues in tobacco leaves by molecularly imprinted-solid phase extraction-high performance liquid chromatography.
Chinese Journal of Chromatography, 36, (7), 659-664, (2018)
Zhang MX et al., Comparative analysis of atrazine molecularly imprinted polymers using acetonitrile and toluene as solvents.
Journal of Applied Polymer Science, 136, (11), Article47190-(2019)
Tong ZH et al., Preparation and application of simetryn-imprinted nanoparticles in triazine herbicide residue analysis.
Journal of Separation Science, 43, (6), 1107-1118, (2020)
Journal of Zhejiang University - Science B, 13, (7), 525-532, (2012)
Li GY et al., Rational design, preparation and adsorption study of a magnetic molecularly imprinted polymer using a dummy template and a bifunctional monomer.
New Journal of Chemistry, 41, (15), 7092-7101, (2017)
Niu MC et al., A simple extraction method for norfloxacin from pharmaceutical wastewater with a magnetic core-shell molecularly imprinted polymer with the aid of computer simulation.
New Journal of Chemistry, 41, (7), 2614-2624, (2017)
Du QZ et al., Novel molecularly imprinted polymers on metal-organic frameworks as sensors for the highly selective detection of zearalenone in wheat.
New Journal of Chemistry, 43, (18), 7044-7050, (2019)
Shi JR et al., Surface-imprinted [beta]-cyclodextrin-functionalized carbon nitride nanosheets for fluorometric determination of sterigmatocystin.
Microchimica Acta, 186, (12), Article808-(2019)
Wang RY et al., Selective recognition and enrichment of sterigmatocystin in wheat by thermo-responsive imprinted polymer based on magnetic halloysite nanotubes.
Journal of Chromatography A, 1619, Article460952-(2020)
Shi JR et al., Correction to: Surface-imprinted [beta]-cyclodextrin-functionalized carbon nitride nanosheets for fluorometric determination of sterigmatocystin.
Microchimica Acta, 188, (10), Article332-(2021)
Materials Review, 17, (z1), 194-196, (2003)
New Journal of Chemistry, 45, (2), 725-734, (2021)
Journal of Separation Science, 39, (2), 383-390, (2016)
Journal of Chromatography A, 1396, 7-16, (2015)
Peng W et al., Amino-functionalized adsorbent prepared by means of Cu(II) imprinted method and its selective removal of copper from aqueous solutions.
Journal of Hazardous Materials, 294, 9-16, (2015)
Shi L et al., Electrochemical sensor prepared from molecularly imprinted polymer for recognition of TNT.
Polymer Composites, 36, (7), 1280-1285, (2015)
Zuo HG et al., Preparation of malathion MIP-SPE and its application in environmental analysis.
Environmental Monitoring and Assessment, 187, (7), ArticleNo394-(2015)
Shi L et al., Selective adsorption of protein by a high-efficiency Cu2+-cooperated magnetic imprinted nanomaterial.
Journal of Separation Science, 39, (14), 2876-2883, (2016)
Wang PL et al., An aptamer based assay for the [beta]-adrenergic agonist ractopamine based on aggregation of gold nanoparticles in combination with a molecularly imprinted polymer.
Microchimica Acta, 183, (11), 2899-2905, (2016)
Zhang CY et al., Molecularly Imprinting Polymer Electrochemical Sensor Based on Structure of Metal Organic Frameworks for Determination of Phenylethanolamine A in Swine Urine.
Chinese Journal of Analytical Chemistry, 44, (12), 1859-1866, (2016)
Zuo HG et al., Synthesis of Molecularly Imprinted Polymer on Surface of TiO2 Nanowires and Assessment of Malathion and its Metabolite in Environmental Water.
Journal of Analytical Chemistry, 74, (10), 1039-1055, (2019)
Shi L et al., One-step Synthesis of Ultrasmall Platinum Nanoparticles Supported on Amino-Functionalized Graphene to Create an Electrochemical Molecularly Imprinted Polymer Sensor for Fluxapyroxad.
International Journal of Electrochemical Science, 16, Article210767-(2021)
Trends In Food Science & Technology, 116, 387-404, (2021)
Food Chemistry, 132, (2), 1092-1097, (2012)
Song XL et al., Preparation of analog-molecularly imprinted microspheres and their adsorbent performance for microcystin in aqueous solution.
Environmental Chemistry, 35, (3), 451-459, (2016)
Biomaterials, 27, (24), 4381-4387, (2006)
Zhao Z et al., Molecular imprinted polymer with cloned bacterial protein template enriches authentic target in cell extract.
FEBS Letters, 580, (11), 2750-2754, (2006)
Chemical World, 52, (3), 178-183, 189, 168, (2011)
Jia XJ et al., Rational design of core-shell molecularly imprinted polymer based on computational simulation and Doehlert experimental optimization: application to the separation of tanshinone IIA from <i>Salvia miltiorrhiza</i> Bunge.
Analytical and Bioanalytical Chemistry, 403, (9), 2691-2703, (2012)
Ding P et al., Preparation of self-supporting molecularly imprinted films via transition layer construction and RAFT polymerization, and their use in HPLC.
Microchimica Acta, 180, (7-8), 599-605, (2013)
Gu XL et al., Preparation and evaluation of novel mesoporous molecular sieve of baicalin surface molecularly imprinted polymers.
China Journal of Chinese Materia Medica, 40, (9), 1718-1722, (2015)
He HL et al., A Novel Molecularly Imprinted Polymer for the Solid-Phase Extraction of Tanshinones from Serum.
Analytical Letters, 48, (1), 47-60, (2015)
He HL et al., Molecularly imprinted polymers based on SBA-15 for selective solid-phase extraction of baicalein from plasma samples.
Analytical and Bioanalytical Chemistry, 407, (2), 509-519, (2015)
Microchimica Acta, 188, (12), Article420-(2021)
Journal of Instrumental Analysis, 30, (11), 1283-1289, (2011)
Xu XM et al., Carbon dots coated with molecularly imprinted polymers: A facile bioprobe for fluorescent determination of caffeic acid.
Journal of Colloid and Interface Science, 529, 568-574, (2018)
Materials Letters, 160, 472-475, (2015)
Acta Polymerica Sinica, (12), 1678-1686, (2014)
Hao J et al., Determination of Eleven [beta]-Blocker Residues in Animal Derived Foods by Ultra High Performance Liquid Chromatography-Tandem Mass Spectrometry with Molecularly Imprinted Solid Phase Extraction.
Journal of Instrumental Analysis, 35, (10), 1278-1282, (2016)
IOP Conference Series: Earth and Environmental Science, 295, (3), Article032070-(2019)
Analytical Methods, 7, (19), 8326-8334, (2015)
Czech Journal of Food Science, 32, (5), 449-455, (2014)
Luo X et al., Electrochemical sensor based on lead ion-imprinted polymer particles for ultra-trace determination of lead ions in different real samples.
RSC Advances, 7, (26), 16033-16040, (2017)
Materials Letters, 211, 21-23, (2018)
Journal of Chemical & Engineering Data, 64, (12), 5385-5397, (2019)
Chemical Sensors (China), 21, (2), 39-43, (2001)
Shi RX et al., Research on Selective Mechanism of Molecularly Imprinted polymer.
Chemical Sensors (China), 22, (3), 49-57, (2002)
Shi RX et al., The development of research in molecular imprinting technique.
Progress In Chemistry, 14, (3), 182-191, (2002)
Shi RX et al., The Way of Screening of Molecularly Imprinted Polymer Based on Semi - Trace in situ Polymerization.
Chemical Sensors (China), 22, (4), 45-52, (2002)
Shi RX et al., The preparation of molecularly imprinted polymer membrane by electrochemical method.
Polymer Materials Science and Engineering, 19, (6), 213-215, (2003)
Journal of Environmental Management, 302, Article114031-(2022)
Chemical Engineering Journal, 243, 485-493, (2014)
Xie LW et al., Efficient Determination of Protocatechuic Acid in Fruit Juices by Selective and Rapid Magnetic Molecular Imprinted Solid Phase Extraction Coupled with HPLC.
Journal of Agricultural and Food Chemistry, 62, (32), 8221-8228, (2014)
You QP et al., Preparation of magnetic dummy molecularly imprinted polymers for selective extraction and analysis of salicylic acid in Actinidia chinensis.
Analytical and Bioanalytical Chemistry, 406, (3), 831-839, (2014)
You QP et al., High-capacity thermo-responsive magnetic molecularly imprinted polymers for selective extraction of curcuminoids.
Journal of Chromatography A, 1354, 1-8, (2014)
Hu X et al., Hydrophilic gallic acid-imprinted polymers over magnetic mesoporous silica microspheres with excellent molecular recognition ability in aqueous fruit juices.
Food Chemistry, 179, 206-212, (2015)
Li H et al., High-capacity magnetic hollow porous molecularly imprinted polymers for specific extraction of protocatechuic acid.
Journal of Chromatography A, 1404, 21-27, (2015)
Xie LW et al., Novel molecular imprinted polymers over magnetic mesoporous silica microspheres for selective and efficient determination of protocatechuic acid in Syzygium aromaticum.
Food Chemistry, 178, 18-25, (2015)
Fan DX et al., Hollow molecular imprinted polymers towards rapid, effective and selective extraction of caffeic acid from fruits.
Journal of Chromatography A, 1470, 27-32, (2016)
Peng MJ et al., Boronate affinity-based surface molecularly imprinted polymers using glucose as fragment template for excellent recognition of glucosides.
Journal of Chromatography A, 1474, 8-13, (2016)
Fan DX et al., Synthesis and characterization of hollow porous molecular imprinted polymers for the selective extraction and determination of caffeic acid in fruit samples.
Food Chemistry, 224, 32-36, (2017)
Shi SY et al., Effective synthesis of magnetic porous molecularly imprinted polymers for efficient and selective extraction of cinnamic acid from apple juices.
Food Chemistry, 237, 198-204, (2017)
Xiang HY et al., Hollow porous molecularly imprinted polymers for rapid and selective extraction of cinnamic acid from juices.
Journal of Chromatography B, 1049-1050, 1-7, (2017)
Xiang HY et al., High-capacity hollow porous dummy molecular imprinted polymers using ionic liquid as functional monomer for selective recognition of salicylic acid.
Journal of Pharmaceutical and Biomedical Analysis, 133, 75-81, (2017)
Peng MJ et al., Magnetic Porous Molecularly Imprinted Polymers Based on Surface Precipitation Polymerization and Mesoporous SiO2 Layer as Sacrificial Support for Efficient and Selective Extraction and Determination of Chlorogenic Acid in Duzhong Brick Tea.
Molecules, 23, (7), ArticleNo1554-(2018)
Tang JW et al., Determination of [beta]-Agonist Residues in Animal-Derived Food by a Liquid Chromatography-Tandem Mass Spectrometric Method Combined with Molecularly Imprinted Stir Bar Sorptive Extraction.
Journal of Analytical Methods in Chemistry, 2018, ArticleID9053561-(2018)
Wang B et al., Magnetic surface molecularly imprinted polymeric microspheres using gallic acid as a segment template for excellent recognition of ester catechins.
Analytical Methods, 10, (27), 3317-3324, (2018)
Li H et al., Shell thickness controlled hydrophilic magnetic molecularly imprinted resins for high-efficient extraction of benzoic acids in aqueous samples.
Talanta, 194, 969-976, (2019)
Long RQ et al., Molecularly imprinted polymers coated CdTe quantum dots with controllable particle size for fluorescent determination of p-coumaric acid.
Talanta, 196, 579-584, (2019)
Peng S et al., Preparation of hydrophilic, magnetic molecularly imprinted resins of chlorogenic acid and evaluation of its solid-phase extraction performance.
Chinese Journal of Chromatography, 37, (3), 293-298, (2019)
Wang ZH et al., Molecularly Imprinted Polymers-Coated CdTe Quantum Dots for Highly Sensitive and Selective Fluorescent Determination of Ferulic Acid.
Journal of Analytical Methods in Chemistry, 2019, Article1505878-(2019)
Journal of Separation Science, 39, (2), 383-390, (2016)
Peng J et al., Molecularly imprinted polymers based stir bar sorptive extraction for determination of cefaclor and cefalexin in environmental water.
Analytical and Bioanalytical Chemistry, 409, (17), 4157-4166, (2017)
Shi T et al., Application of molecular imprinting polymer anchored on CdTe quantum dots for the detection of sulfadiazine in seawater.
Marine Pollution Bulletin, 146, 591-597, (2019)
Shi T et al., CdTe quantum dots coated with a molecularly imprinted polymer for fluorometric determination of norfloxacin in seawater.
Microchimica Acta, 186, (6), Article362-(2019)
Shi T et al., Application of up-conversion molecularly imprinted nanoprobe for selective recognition and straightforward detection of 4-aminobiphenyl.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 265, Article120405-(2022)
Food Chemistry, 344, Article128602-(2021)
Journal of Hazardous Materials, 227-228, (1), 243-249, (2012)
Shi W et al., Proceeding, Preparation and Characterization of Bisphenol A Molecularly Imprinted Silica Nanospheres,
Wang YD (Ed.), 703-706, (2012)
Shi W et al., Molecularly imprinted silica nanospheres for solid-phase extraction of bisphenol A in canned food.
Chinese Journal of Analysis Laboratory, 31, (6), 78-80, (2012)
Shi W et al., Integration of mixed-mode chromatography and molecular imprinting technology for double recognition and selective separation of proteins.
Separation and Purification Technology, 202, 165-173, (2018)
Shi W et al., Improvement of Adsorption Selectivity of Ion-Exchange Chromatography through the Double-Recognition Mode.
Journal of Chemical & Engineering Data, 64, (12), 5385-5397, (2019)
Shi W et al., Adsorption-selectivity customization and competitive adsorption of tryptamine-based mixed-mode chromatography.
Biochemical Engineering Journal, 150, Article107267-(2019)
Langmuir, 29, (26), 8311-8319, (2013)
RSC Advances, 3, (40), 18373-18382, (2013)
Pan JM et al., Fabrication and Evaluation of Magnetic/Hollow Double-Shelled Imprinted Sorbents Formed by Pickering Emulsion Polymerization.
Langmuir, 29, (25), 8170-8178, (2013)
Pan JM et al., Study on the nonylphenol removal from aqueous solution using magnetic molecularly imprinted polymers based on fly-ash-cenospheres.
Chemical Engineering Journal, 223, 824-832, (2013)
Liu XL et al., Selective degradation of ciprofloxacin with modified NaCl/TiO2 photocatalyst by surface molecular imprinted technology.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 441, 420-426, (2014)
Lu ZY et al., Microwave synthesis of a novel magnetic imprinted TiO2 photocatalyst with excellent transparency for selective photodegradation of enrofloxacin hydrochloride residues solution.
Chemical Engineering Journal, 249, 15-26, (2014)
Wu YL et al., Fabrication and evaluation of molecularly imprinted regenerated cellulose composite membranes via atom transfer radical polymerization.
Chinese Chemical Letters, 25, (2), 273-278, (2014)
Lu ZY et al., Selective photodegradation of 2-mercaptobenzothiazole by a novel imprinted CoFe2O4/MWCNTs photocatalyst.
RSC Advances, 5, (59), 47820-47829, (2015)
Pan JM et al., Fabrication and evaluation of molecularly imprinted multi-hollow microspheres adsorbents with tunable inner pore structures derived from templating Pickering double emulsions.
Chemical Engineering Journal, 266, 299-308, (2015)
Zheng XD et al., Silica nanoparticles doped with a europium(III) complex and coated with an ion imprinted polymer for rapid determination of copper(II).
Microchimica Acta, 182, (3-4), 753-761, (2015)
Zhu Z et al., Surface imprinting of a g-C3N4 photocatalyst for enhanced photocatalytic activity and selectivity towards photodegradation of 2-mercaptobenzothiazole.
RSC Advances, 5, (51), 40726-40736, (2015)
Lu ZY et al., Specific oriented recognition of a new stable ICTX@Mfa with retrievability for selective photocatalytic degrading of ciprofloxacin.
Catalysis Science & Technology, 6, (5), 1367-1377, (2016)
Lu ZY et al., A novel hollow capsule-like recyclable functional ZnO/C/Fe3O4 endowed with three-dimensional oriented recognition ability for selectively photodegrading danofloxacin mesylate.
Catalysis Science & Technology, 6, (17), 6513-6524, (2016)
Zheng XD et al., A lanthanide complex-based molecularly imprinted luminescence probe for rapid and selective determination of [lambda]-cyhalothrin in the environment.
New Journal of Chemistry, 40, (7), 6141-6147, (2016)
Wang JX et al., Molecularly Imprinted Fluorescent Test Strip for Direct, Rapid, and Visual Dopamine Detection in Tiny Amount of Biofluid.
Small, 15, (1), Article1803913-(2019)
Microchimica Acta, 185, (12), ArticleNo557-(2018)
Microchimica Acta, 183, (3), 1153-1160, (2016)
Qin L et al., Surface molecularly imprinted polymers grafted on ordered mesoporous carbon nanospheres for fuel desulfurization.
RSC Advances, 6, (15), 12504-12513, (2016)
Choi SB, Kim YH (Eds.), 621-624, (2015)
Food Analytical Methods, 9, (1), 114-121, (2016)
Journal of Chemical & Engineering Data, 60, (5), 1454-1463, (2015)
Shi XH et al., A novel Molecularly Imprinted Sensor based on Gold Nanoparticles/Reduced Graphene Oxide/Single-Walled Carbon Nanotubes Nanocomposite for the Detection of pefloxacin.
International Journal of Electrochemical Science, 15, 9683-9697, (2020)
Tu XZ et al., Molecularly imprinted dispersive solid-phase microextraction sorbents for direct and selective drug capture from the undiluted bovine serum.
Talanta, 226, Article122142-(2021)
Acta Polymerica Sinica, (7), 934-942, (2013)
Shi XJ et al., Preparation of Molecularly Surface-Imprinted Material of Caffeine Substitution (Theophylline) and its Molecule Recognition Character.
Acta Polymerica Sinica, (8), 1047-1057, (2013)
Tang QH et al., Development of molecularly imprinted electrochemical sensors based on Fe3O4@MWNT-COOH/CS nanocomposite layers for detecting traces of acephate and trichlorfon.
Analyst, 139, (24), 6406-6413, (2014)
Shi XJ et al., A Biomimetic Sensor with Signal Enhancement of Ferriferrous Oxide-Reduced Graphene Oxide Nanocomposites for Ultratrace Levels Quantification of Methamidophos or Omethoate in Vegetables.
Food Analytical Methods, 10, (4), 910-920, (2017)
Journal of Chromatography B, 878, (23), 2047-2053, (2010)
She YX et al., Spectroscopy study of binding mechanisms and molecular recognition of class-specific molecularly imprinted polymer beads.
Spectroscopy and Spectral Analysis, 30, (11), 3052-3055, (2010)
Wang M et al., Determination of Melamine Using Magnetic Molecular Imprinted Polymers and High Performance Liquid Chromatography.
Analytical Letters, 46, (1), 120-130, (2013)
Zhang C et al., Development of a biomimetic enzyme-linked immunosorbent assay based on molecularly imprinted polymers on paper for the detection of carbaryl.
Food Chemistry, 240, 893-897, (2018)
Zhang C et al., Preparation of dummy molecularly imprinted polymers based on dextran-modified magnetic nanoparticles Fe3O4 for the selective detection of acrylamide in potato chips.
Food Chemistry, 317, Article126431-(2020)
Microchimica Acta, 188, (11), Article378-(2021)
Applied Surface Science, 492, 108-115, (2019)
Journal of Applied Polymer Science, 128, (6), 3631-3638, (2013)
Electrophoresis, 32, (11), 1348-1356, (2011)
Biomaterials, 28, (29), 4330-4330, (2007)
Shi XZ et al., Development and characterisation of molecularly imprinted polymers based on methacrylic acid for selective recognition of drugs.
Biomaterials, 28, (25), 3741-3749, (2007)
Shi XZ et al., Molecularly imprinted polymer microspheres for solid-phase extraction of chloramphenicol residues in foods.
Journal of Chromatography B, 850, (1-2), 24-30, (2007)
Qu GR et al., Improvement on Analyte Extraction by Molecularly Imprinted Polymer Microspheres toward Enrofloxacin.
Analytical Letters, 41, (8), 1443-1458, (2008)
Song SQ et al., Extraction of chlorpromazine with a new molecularly imprinted polymer from pig urine.
Process Biochemistry, 43, (11), 1209-1214, (2008)
Song SQ et al., Development and application of molecularly imprinted polymers as solid-phase sorbents for erythromycin extraction.
Analytical and Bioanalytical Chemistry, 390, (8), 2141-2150, (2008)
Shi XZ et al., Determination of Chloramphenicol Residues in Foods by ELISA and LC-MS/MS Coupled with Molecularly Imprinted Solid Phase Extraction.
Analytical Letters, 43, (17), 2798-2807, (2010)
Shi XZ et al., Water Compatible Molecularly Imprinted Polymer Microspheres for Extraction of Ampicillin in Foods.
Analytical Letters, 43, (5), 757-767, (2010)
Shi XZ et al., Preparation and Chromatographic Evaluation of Molecularly Imprinted Polymer Microspheres for Chloramphenicol.
Food Science, 31, (18), 95-98, (2010)
Shi XZ et al., Group-selective molecularly imprinted polymer solid-phase extraction for the simultaneous determination of six sulfonamides in aquaculture products.
Journal of Chromatography B, 879, (15-16), 1071-1076, (2011)
Shi XZ et al., Group-selective enrichment and determination of pyrethroid insecticides in aquaculture seawater via molecularly imprinted solid phase extraction coupled with gas chromatography-electron capture detection.
Journal of Chromatography A, 1227, (1), 60-66, (2012)
Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
Zhang RR et al., Highly Permselective Membrane Surface Modification by Cold Plasma-Induced Grafting Polymerization of Molecularly Imprinted Polymer for Recognition of Pyrethroid Insecticides in Fish.
Analytical Chemistry, 86, (23), 11705-11713, (2014)
Xiao TT et al., Selective and sensitive determination of cypermethrin in fish via enzyme-linked immunosorbent assay-like method based on molecularly imprinted artificial antibody-quantum dot optosensing materials.
Biosensors and Bioelectronics, 75, 34-40, (2016)
Ding H et al., Molecularly imprinted optosensing sensor for highly selective and sensitive recognition of sulfadiazine in seawater and shrimp samples.
Sensors and Actuators B: Chemical, 246, 510-517, (2017)
Li XJ et al., Development and application of a novel fluorescent nanosensor based on FeSe quantum dots embedded silica molecularly imprinted polymer for the rapid optosensing of cyfluthrin.
Biosensors and Bioelectronics, 99, 268-273, (2018)
Sun AL et al., Development of a selective fluorescence nanosensor based on molecularly imprinted-quantum dot optosensing materials for saxitoxin detection in shellfish samples.
Sensors and Actuators B: Chemical, 258, 408-414, (2018)
Wang XJ et al., Characterization and application of molecularly imprinted polymer-coated quantum dots for sensitive fluorescent determination of diethylstilbestrol in water samples.
Talanta, 197, 98-104, (2019)
Yu XR et al., Development and Application of the Dispersive Solid-Phase Extraction Method Based on Molecular Imprinted Polymers for Removal of Matrix Components of Bivalve Shellfish Extracts in the GC-MS/MS Analysis of Amide/Dinitroaniline/Substituted Urea Herbicides.
Chromatographia, 82, (6), 961-970, (2019)
Li W et al., Effective removal matrix interferences by a modified QuEChERS based on the molecularly imprinted polymers for determination of 84 polychlorinated biphenyls and organochlorine pesticides in shellfish samples.
Journal of Hazardous Materials, 384, Article121241-(2020)
Zhang RR et al., Application of a novel electrochemiluminescence sensor based on magnetic glassy carbon electrode modified with molecularly imprinted polymers for sensitive monitoring of bisphenol A in seawater and fish samples.
Sensors and Actuators B: Chemical, 317, Article128237-(2020)
Li T et al., Advances in application of molecularly imprinted polymers to the detection of polar pesticide residues.
Chinese Journal of Chromatography, 39, (9), 930-940, (2021)
Zhang RR et al., Ultrasensitive electrochemiluminescence sensor based on perovskite quantum dots coated with molecularly imprinted polymer for prometryn determination.
Food Chemistry, 370, Article131353-(2022)
Acta Medicinae Universitatis Scientiae et Technologiae Huazhong, 34, (5), 639-641, (2005)
Jiang M et al., Direct enrichment and high performance liquid chromatography analysis of ultra-trace Bisphenol A in water samples with narrowly dispersible Bisphenol A imprinted polymeric microspheres column.
Journal of Chromatography A, 1110, (1-2), 27-34, (2006)
Shi Y et al., Selective solid-phase extraction of cholesterol using molecularly imprinted polymers and its application in different biological samples.
Journal of Pharmaceutical and Biomedical Analysis, 42, (5), 549-555, (2006)
Zhang JH et al., Selective solid-phase extraction of bisphenol A using molecularly imprinted polymers and its application to biological and environmental samples.
Analytical and Bioanalytical Chemistry, 385, (4), 780-786, (2006)
Hu ML et al., Selective solid-phase extraction of tebuconazole in biological and environmental samples using molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 387, (3), 1007-1016, (2007)
Huo SX et al., Synthesis and Characterization of p-Hydroxyacetophenone Molecularly Imprinted Polymer.
Journal of Instrumental Analysis, 27, (8), 866-869, (2008)
Jin Y et al., Narrowly dispersed molecularly imprinted microspheres prepared by a modified precipitation polymerization method.
Analytica Chimica Acta, 612, (1), 105-113, (2008)
Lin Y et al., Removal of phenolic estrogen pollutants from different sources of water using molecularly imprinted polymeric microspheres.
Environmental Pollution, 153, (2), 483-491, (2008)
Jiang M et al., Selective molecularly imprinted stationary phases for Bisphenol A analysis prepared by modified precipitation polymerization.
Journal of Separation Science, 32, (19), 3265-3273A, (2009)
Kryscio DR et al., Molecular Docking Simulations for Macromolecularly Imprinted Polymers.
Industrial & Engineering Chemistry Research, 50, (24), 13877-13884, (2011)
Shi Y et al., Selective determination of trace 17[beta]-estradiol in dairy and meat samples by molecularly imprinted solid-phase extraction and HPLC.
Food Chemistry, 126, (4), 1916-1925, (2011)
Wei KB et al., Detection of Trace 17[beta]-estradiol in Food Samples Using Molecularly Imprinted Solid-phase Extraction.
Acta Medicinae Universitatis Scientiae et Technologiae Huazhong, 40, (3), 326-328, 336, (2011)
Xie YT et al., Molecularly imprinted polymer microspheres enhanced biodegradation of bisphenol A by acclimated activated sludge.
Water Research, 45, (3), 1189-1198, (2011)
Zhang X et al., Preparation of molecularly imprinted microspheres and their recognition properties for punicalagin.
Journal of Beijing University of Chemical Technology (Natural Science Edition), 38, (1), 72-76, (2011)
Liu JB et al., A Theoretical Study on the Interaction between Melamine and Acrylamide Functional Monomer in Molecularly Imprinted Polymers.
Food Science, 34, (17), 96-101, (2013)
Wu YT et al., Selective and simultaneous determination of trace bisphenol A and tebuconazole in vegetable and juice samples by membrane-based molecularly imprinted solid-phase extraction and HPLC.
Food Chemistry, 164, 527-535, (2014)
Zhao GC et al., Study on bisphenol A imprinted sensor based on the film of gold nanoparticles.
Journal of Functional Materials, 45, (1), 1099-1103, (2014)
Liu F et al., Molecularly imprinted nanofiber membranes enhanced biodegradation of trace bisphenol A by Pseudomonas aeruginosa.
Chemical Engineering Journal, 262, 989-998, (2015)
Liu JB et al., Theoretical and experimental research on the self-assembled system of molecularly imprinted polymers formed by salbutamol and methacrylic acid.
Journal of Separation Science, 38, (6), 1065-1071, (2015)
Wu YT et al., Monitoring bisphenol A and its biodegradation in water using a fluorescent molecularly imprinted chemosensor.
Chemosphere, 119, 515-523, (2015)
Tao QL et al., Application of Molecular Imprinted Magnetic Fe3O4@SiO2 Nanoparticles for Selective Immobilization of Cellulase.
Journal of Nanoscience and Nanotechnology, 16, (6), 6055-6060, (2016)
Li N et al., Bio-inspired virus imprinted polymer for prevention of viral infections.
Acta Biomaterialia, 51, 175-183, (2017)
Shi Y et al., Enhanced photodegradation of di(2-ethyl)hexyl phthalate by Molecularly Imprinted titanium dioxide.
E3S Web of Conferences, 53, ArticleNo04001-(2018)
Shi JR et al., Surface-imprinted [beta]-cyclodextrin-functionalized carbon nitride nanosheets for fluorometric determination of sterigmatocystin.
Microchimica Acta, 186, (12), Article808-(2019)
Zhang Y et al., Magnetic hyperbranched molecularly imprinted polymers for selective enrichment and determination of zearalenone in wheat proceeded by HPLC-DAD analysis.
Talanta, 209, Article120555-(2020)
Shi JR et al., Correction to: Surface-imprinted [beta]-cyclodextrin-functionalized carbon nitride nanosheets for fluorometric determination of sterigmatocystin.
Microchimica Acta, 188, (10), Article332-(2021)
Journal of Materials Chemistry, 22, (9), 3889-3898, (2012)
Lu XF et al., Preparation and characterization of molecularly imprinted poly(hydroxyethyl methacrylate) microspheres for sustained release of gatifloxacin.
Journal of Materials Science: Materials in Medicine, 25, (6), 1461-1469, (2014)
Chinese Journal of Analytical Chemistry, 30, (4), 388-391, (2002)
Li XT et al., Enantiomeric resolution on L-carnitine selective polymers prepared by molecular imprinting.
Chinese Chemical Letters, 13, (2), 157-158, (2002)
Sensors and Actuators B: Chemical, 305, Article127462-(2020)
Hydrometallurgy, 186, 105-114, (2019)
Chemical Engineering Journal, 343, 607-618, (2018)
Journal of Separation Science, 34, (19), 2602-2610, (2011)
Chen FF et al., Magnetic molecularly imprinted polymer for the detection of rhaponticin in Chinese patent medicines.
Journal of Chromatography A, 1252, 8-14, (2012)
Chen FF et al., Molecularly imprinted polymer for the specific solid-phase extraction of kirenol from Siegesbeckia pubescens herbal extract.
Talanta, 89, (1), 505-512, (2012)
Chen FF et al., Application of molecularly imprinted solid phase extraction in the separation and determination of active constituents from natural compounds.
Chinese Journal of Chromatography, 31, (7), 626-633, (2013)
Chen FF et al., Preparation of magnetic molecularly imprinted polymer for selective recognition of resveratrol in wine.
Journal of Chromatography A, 1300, 112-118, (2013)
Chen FF et al., Magnetic molecularly imprinted polymer for the selective extraction of sildenafil, vardenafil and their analogs from herbal medicines.
Talanta, 115, 482-489, (2013)
Ma RT et al., Magnetic molecularly imprinted polymer for the selective extraction of quercetagetin from Calendula officinalis extract.
Talanta, 134, 650-656, (2015)
Ma RT et al., Highly dispersed magnetic molecularly imprinted nanoparticles with well-defined thin film for the selective extraction of glycoprotein.
Journal of Materials Chemistry B, 4, (15), 2620-2627, (2016)
Ma RT et al., Improved surface imprinting based on a simplified mass-transfer process for the selective extraction of IgG.
Journal of Materials Chemistry B, 5, (36), 7512-7518, (2017)
Sun XY et al., Erratum to: Boronate-affinity based magnetic molecularly imprinted nanoparticles for the efficient extraction of the model glycoprotein horseradish peroxidase.
Microchimica Acta, 184, (9), 3637-3637, (2017)
Sun XY et al., Boronate-affinity based magnetic molecularly imprinted nanoparticles for the efficient extraction of the model glycoprotein horseradish peroxidase.
Microchimica Acta, 184, (10), 3729-3737, (2017)
Sun XY et al., Magnetic boronate modified molecularly imprinted polymers on magnetite microspheres modified with porous TiO2 (Fe3O4@pTiO2@MIP) with enhanced adsorption capacity for glycoproteins and with wide operational pH range.
Microchimica Acta, 185, (12), Article565-(2018)
Sun XY et al., Synthesis of magnetic molecularly imprinted nanoparticles with multiple recognition sites for the simultaneous and selective capture of two glycoproteins.
Journal of Materials Chemistry B, 6, (4), 688-696, (2018)
Ma RT et al., A fluorescent molecularly imprinted device for the on-line analysis of AFP in human serum.
Journal of Materials Chemistry B, 7, (40), 6187-6194, (2019)
Ye HP et al., Magnetic molecularly imprinted polymers for extraction of S-phenylmercapturic acid from urine samples followed by high-performance liquid chromatography.
Journal of Molecular Recognition, 34, (11), Article_e2930-(2021)
Zhang YD et al., Colorimetric detection of human alpha-2-macroglobulin by janus imprinted nanoparticles constructed dual molecular imprinting immunosandwich strategy.
Analytica Chimica Acta, 1184, Article339039-(2021)
ACS Applied Materials & Interfaces, 6, (22), 20340-20349, (2014)
Shi YX, Wan AJ (Eds.), 151-157, (2013)
Chinese Journal of Analysis Laboratory, 30, (11), 56-59, (2011)
Zhang QH et al., The Determination of Trace Amount of Pb by Flame Atomic Absorption Spectrometry after Separation and Preconcentration with Molecular Imprinting of Chitosan/Attapulgite.
Chinese Journal of Applied Chemistry, 28, (9), 1073-1081, (2011)
Shi YY et al., Proceeding, Studies on Preparation and Adsorption Behavior of Cd2+ Ions-Imprinted Polymer,
Li B (Ed.), 419-422, (2012)
Shi YY et al., Proceeding, Preparation and its Adsorption Characters of Pb2+ Ions-Imprinted Chitosan/Palygorskite Hybrid Materials,
Zhang HM, Wu B (Eds.), 1324-1329, (2012)
Shi YY et al., Determination of Trace Cd(II) in Traditional Chinese Medicine by Flame Atomic Absorption Spectrometry after Separation and Preconcentration with Ions Imprinting of Chitosan/Attapulgite.
Journal of Analytical Science, 28, (3), 348-352, (2012)
Shi YY et al., Preparation and adsorption characters of Cu(II)-imprinted chitosan/attapulgite polymer.
Korean Journal of Chemical Engineering, 31, (5), 821-827, (2014)
Applied Microbiology and Biotechnology, 99, (18), 7569-7577, (2015)
Tan YB et al., Electrochemical Determination of Bisphenol A Using a Molecularly Imprinted Chitosan-acetylene Black Composite Film Modified Glassy Carbon Electrode.
Electroanalysis, 28, (1), 189-196, (2016)
Yang YK et al., Surface molecularly imprinted magnetic MOFs: A novel platform coupled with magneto electrode for high throughput electrochemical sensing analysis of oxytetracycline in foods.
Food Chemistry, 363, Article130337-(2021)
New Journal of Chemistry, 44, (26), 11013-11021, (2020)
Journal of Instrumental Analysis, 27, (10), 1071-1074, (2008)
Shi ZL et al., Molecularly imprinted on-line solid-phase extraction combined with chemiluminescence for the determination of resveratrol.
Chinese Journal of Analysis Laboratory, 30, (3), 5-8, (2011)
Shi ZL et al., A high sensitive and fully reversible chemiluminescence sensor based on molecularly imprinted polymers for determination of sulfadiazine in cattle and chicken tissues.
Chinese Journal of Analysis Laboratory, 31, (4), 110-114, (2012)
Chang ZQ et al., Synthesis and study on adsorption property of congo red molecularly imprinted polymer nanospheres.
Environmental Science, 36, (7), 2564-2572, (2015)
Chinese Journal of Reactive Polymers, 10, (1), 84-94, (2001)
Liu GD et al., Utilization of synergetic effect of weak interactions in the design of polymeric sorbents with high sorption selectivity.
Journal of Chromatography A, 952, (1-2), 71-78, (2002)
Journal of Functional Materials, 45, (23), 23080-23085+23090, (2014)
Su XM et al., Preparation and Adsorption Performance of Core-Shell Magnetic Molecularly Imprinted Polymer Microspheres for Solid Phase Extraction and Detection of Rhodamine 6G in Foods.
Food Science, 35, (24), 9-14, (2014)
Liu M et al., Synthesis of magnetic molecularly imprinted polymers for the selective separation and determination of metronidazole in cosmetic samples.
Analytical and Bioanalytical Chemistry, 407, (13), 3875-3880, (2015)
Journal of Applied Electrochemistry, 46, (3), 389-401, (2016)
Langmuir, 28, (24), 8944-8951, (2012)
Journal of Ion Exchange, 14, (Supplement), 2-7, (2003)
Chemical Communications, (20), 1971-1972, (1997)
Asanuma H et al., Synthesis of molecularly imprinted polymer of b-cyclodextrin for the efficient recognition of cholesterol.
Supramolecular Science, 5, (3-4), 417-421, (1998)
Asanuma H et al., Book chapter, Molecularly imprinted cyclodextrin polymers as artificial receptors - The requisites for remarkable imprinting,
In: Proceedings of the 9th International Symposium on Cyclodextrins, Labandeira JJT, Vila-Jato JL (Eds.) Kluwer Academic Publishers: Dordrecht, 235-238, (1999)
Hishiya T et al., Molecularly imprinted cyclodextrins as selective receptors for steroids.
Macromolecules, 32, (7), 2265-2269, (1999)
Bunseki, (2), 131-(1998)
unknown source, (2000)
Suzuki A et al., Design of catalytic sites at oxide surfaces by metal-complex attaching and molecular imprinting techniques.
Journal of Molecular Catalysis A: Chemical, 182-183, (1), 125-136, (2002)
Tada M et al., Design, characterization and performance of a molecular imprinting Rh-dimer hydrogenation catalyst on a SiO2 surface.
Physical Chemistry Chemical Physics, 4, (23), 5899-5909, (2002)
Journal of Chromatography A, 1122, (1-2), 54-62, (2006)
Chen CY et al., Diagnostic role of biliary pancreatic elastase for cholangiocarcinoma in patients with cholestasis.
Clinica Chimica Acta, 390, (1-2), 82-89, (2008)
Analytical Chemistry, 79, (4), 1749-1757, (2007)
Bunseki Kagaku, 64, (10), 727-736, (2015)
Langmuir, 30, (46), 14014-14020, (2014)
Hsu CY et al., Optical sensing of phenylalanine in urine via extraction with magnetic molecularly imprinted poly(ethylene-co-vinyl alcohol) nanoparticles.
Nanotechnology, 26, (30), ArticleNo305502-(2015)
Lee MH et al., Fabrication of Bacteria-imprinted Polymer Coated Electrodes for Microbial Fuel Cells.
ACS Sustainable Chemistry & Engineering, 3, (6), 1190-1196, (2015)
Lee MH et al., Recognition of Rhodobacter sphaeroides by microcontact-imprinted poly(ethylene-co-vinyl alcohol).
Colloids and Surfaces B: Biointerfaces, 135, 394-399, (2015)
Lee MH et al., The potential use of glucose oxidase-imprinted polymer-coated electrodes for biofuel cells.
New Journal of Chemistry, 41, (23), 14646-14651, (2017)
Analyst, 127, (7), 935-939, (2002)
Shiigi H et al., Highly selective molecularly imprinted overoxidized polypyrrole colloids: One-step preparation technique.
Analytical Sciences, 18, (1), 41-44, (2002)
Shiigi H et al., Fabrication process and characterization of a novel structural isomer sensor - Molecularly imprinted overoxidized polypyrrole film.
Electrochemical and Solid State Letters, 6, (1), H1-H3, (2003)
Shiigi H et al., Molecularly imprinted overoxidized polypyrrole colloids: Promising materials for molecular recognition.
Microchimica Acta, 143, (2-3), 155-162, (2003)
Shiigi H et al., Development of a Skin Cholesterol Sensing Method Using a Molecularly Imprinted Self-assembled Monolayer Electrode.
Transactions of Japanese Society for Medical and Biological Engineering, 42, (3), 181-186, (2004)
Shiigi H et al., Molecular recognition for bile acids using a molecularly imprinted overoxidized polypyrrole film.
Journal of The Electrochemical Society, 152, (8), H129-H134, (2005)
Shiigi H et al., Development of the Skin Cholesterol Sensing Method Using a Molecularly Imprinted Electrode.
ECS Meeting Abstracts, MA2006-02, (47), 2084-2084, (2006)
Shiigi H et al., Development of Molecularly Imprinted Sterol Sensor and Non-invasive Detection.
Chem Sens, 22, (Supplement A), 145-147, (2006)
Tokonami S et al., Review: Micro- and nanosized molecularly imprinted polymers for high-throughput analytical applications.
Analytica Chimica Acta, 641, (1-2), 7-13, (2009)
Nagaoka T et al., Entrapment of Whole Cell Bacteria into Conducting Polymers.
Journal of Flow Injection Analysis, 29, (1), 7-10, (2012)
Shiigi H et al., Placement of Nanospace on an Electrode for Biosensing.
Analytical Sciences, 28, (11), 1037-1048, (2012)
Tokonami S et al., Book chapter, Molecularly Imprinted Overoxidized Polypyrrole Films for Sensor Applications from Enantiorecognition to Trace Analysis,
In: Molecularly Imprinted Sensors, Li SJ, Ge Y, Piletsky SA, Lunec J (Eds.) Elsevier: Amsterdam, Ch. 4, 73-89, (2012)
Tokonami S et al., Label-Free and Selective Bacteria Detection Using a Film with Transferred Bacterial Configuration.
Analytical Chemistry, 85, (10), 4925-4929, (2013)
Tokonami S et al., Recognition of gram-negative and gram-positive bacteria with a functionalized conducting polymer film.
Research on Chemical Intermediates, 40, (6), 2327-2335, (2014)
Shiigi H, Application of a Functional Nanospace to Molecular Recognition.
Review of Polarography, 62, (1), 17-24, (2016)
Kinoshita T et al., Shape Memory Characteristics of O157-Antigenic Cavities Generated on Nanocomposites Consisting of Copolymer-Encapsulated Gold Nanoparticles.
Analytical Chemistry, 89, (8), 4680-4684, (2017)
Shan XL et al., Spontaneous and specific binding of enterohemorrhagic Escherichia coli to overoxidized polypyrrole-coated microspheres.
Chemical Communications, 53, (27), 3890-3893, (2017)
Shan XL et al., Binding Constant of the Cell-shaped Cavity Formed on a Polymer for Escherichia coli O157.
Analytical Sciences, 34, (4), 483-486, (2018)
Shan XL et al., A rapid and specific bacterial detection method based on cell-imprinted microplates.
Analyst, 143, (7), 1568-1574, (2018)
Applied Catalysis A: General, 356, (1), 1-17, (2009)
ACS Applied Nano Materials, 2, (3), 1525-1532, (2019)
Nano Letters, 4, (12), 2467-2471, (2004)
Sensors and Actuators B: Chemical, 329, Article129143-(2021)
Analytica Chimica Acta, 1141, 71-82, (2021)
Nano Letters, 4, (12), 2467-2471, (2004)
Journal of Nanoscience and Nanotechnology, 11, (8), 7206-7209, (2011)
Hwang MJ et al., Adsorption of toxic gases on molecularly imprinted polymer coated QCM: measurements and modeling for partial pressure in gas mixture.
Adsorption, 25, (4), 825-832, (2019)
Kim HS et al., Preparation and release properties of arbutin imprinted inulin/polyvinyl alcohol biomaterials.
International Journal of Biological Macromolecules, 161, 763-770, (2020)
Kim HS et al., Preparation and evaluation of functional allopurinol imprinted starch based biomaterials for transdermal drug delivery.
International Journal of Biological Macromolecules, 175, 217-228, (2021)
Analytica Chimica Acta, 762, 14-24, (2013)
Hussain KK et al., Electrochemical Detection of Hemoglobin: A Review.
Electroanalysis, 29, (10), 2190-2199, (2017)
Kim DM et al., A potentiometric non-enzymatic glucose sensor using a molecularly imprinted layer bonded on a conducting polymer.
Biosensors and Bioelectronics, 91, 276-283, (2017)
Cho SJ et al., A selective glucose sensor based on direct oxidation on a bimetal catalyst with a molecular imprinted polymer.
Biosensors and Bioelectronics, 99, 471-478, (2018)
Analyst, 129, (12), 1211-1215, (2004)
Analyst, 126, (6), 775-780, (2001)
Haruki M et al., Molecularly Imprinted Polymer-Assisted Refolding of Lysozyme.
Biotechnology Progress, 23, (5), 1254-1257, (2007)
Bulletin of the Chemical Society of Japan, 62, (2), 499-505, (1989)
Matsuishi T et al., Definitive evidence for enantioselective catalysis over molecular footprint catalytic cavities chirally imprinted on a silica(alumina) gel surface.
Chemistry Letters, 21, (10), 1921-1924, (1992)
Morihara K et al., Enzyme-like enantioselective catalysis over chiral molecular footprint cavities on a silica (alumina) gel surface.
Journal of the Chemical Society-Chemical Communications, (4), 358-360, (1992)
Shimada T et al., Footprint catalysis .4. Structural effects of templates on catalytic behavior of imprinted footprint cavities.
Bulletin of the Chemical Society of Japan, 65, (4), 954-958, (1992)
Morihara K et al., Footprint catalysis .6. Chiral molecular footprint catalytic cavities imprinted by a chiral template, bis(N-benzyloxycarbonyl-L-alanyl)Amine, and their stereoselective catalyses.
Bulletin of the Chemical Society of Japan, 66, (3), 906-913, (1993)
Morihara K et al., Footprint catalysis .7. Reinvestigation of the imprinting procedures for molecular footprint catalytic cavities - the effects of imprinting procedure temperature on the catalytic characteristics.
Bulletin of the Chemical Society of Japan, 66, (10), 2977-2982, (1993)
Morihara K et al., Footprint catalysis .8. Molecular imprinting for footprint cavities on an active clay surface.
Bulletin of the Chemical Society of Japan, 66, (10), 3047-3052, (1993)
Shimada T et al., Footprint catalysis .5. Substituent effects of template molecules on the catalytic behavior of imprinted molecular footprint cavities.
Bulletin of the Chemical Society of Japan, 66, (3), 836-840, (1993)
Matsuishi T et al., Footprint catalysis 9. Molecular footprint catalytic cavities imprinted with chiral hydantoins - enantioselective hydantoinase mimics.
Bulletin of the Chemical Society of Japan, 67, (3), 748-756, (1994)
Morihara K et al., Footprint catalysis .11. Molecular footprint cavities imprinted with chiral amines and their chiral molecular recognition.
Bulletin of the Chemical Society of Japan, 67, (4), 1078-1084, (1994)
Shimada T et al., Footprint catalysis .10. Surface modification of molecular footprint catalysts and its effects on their molecular recognition and catalysis.
Bulletin of the Chemical Society of Japan, 67, (1), 227-235, (1994)
Journal of Chromatography A, 1174, (1-2), 63-71, (2007)
Shimelis O et al., Selective Extraction of Chloramphenicol Using SupelMIP SPE.
The Reporter Europe, 26, 11-13, (2007)
Shimelis O et al., The Selective Extraction of Chloramphenicol using Molecular Imprinted Polymer SPE.
US Supelco Reporter, 25, (1), 9-11, (2007)
Shimelis O et al., Molecular imprinted polymer SPE increases sensitivity for the extraction and analysis of clenbuterol from urine.
US Supelco Reporter, 25, (2), 10-12, (2007)
Shimelis O et al., Molecularly Imprinted Polymer SPE Increases Sensitivity for the Extraction and Analysis of Clenbuterol from Urine.
The Reporter Europe, 27, 10-12, (2007)
Shimelis O et al., The selective extraction of clenbuterol using molecularly imprinted polymer SPE.
Lc Gc North America, 25, (6 SUPPL.), 19-(2007)
Shimelis O et al., Trace level analysis of NNAL in urine using SupelMIP SPE-NNAL and LC-MS-MS.
US Supelco Reporter, 25, (3), 3-5, (2007)
Widstrand C et al., Highly selectve trace level extraction using molecularly imprinted polymer solid-phase extraction.
The Column, 3, (11), 28-34, (2007)
Martínez Bueno MJ et al., Determination of malachite green residues in fish using molecularly imprinted solid-phase extraction followed by liquid chromatography-linear ion trap mass spectrometry.
Analytica Chimica Acta, 665, (1), 47-54, (2010)
Shimelis O et al., Extraction of Nitroimidazoles from Milk and Eggs using Molecularly Imprinted Polymers.
The Reporter, 27, (4), 15-17, (2010)
Shimelis O et al., Extraction and Analysis of PAHs in Olive Oil using Molecularly Imprinted Polymer SPE and GC-MS.
The Reporter, 27, (5), 12-13, (2010)
Wihlborg A-K et al., Molecularly Imprinted Polymer SPE for the Highly Selective Extraction of Fluoroquinolones from Bovine Kidney.
The Reporter, 27, (1), 18-20, (2010)
Analytical Sciences, 23, (1), 49-53, (2007)
Scientific Reports, 7, (1), AriticleNo16651-(2017)
Abstracts of Papers of the American Chemical Society, 220, (OLY), 361-361, (2000)
Umpleby RJ et al., Measurement of the continuous distribution of binding sites in molecularly imprinted polymers.
Analyst, 125, (7), 1261-1265, (2000)
Shimizu KD et al., Selective chemical modification of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 221, (MSE), 469-469, (2001)
Takeuchi T et al., Molecularly imprinted polymers with metalloporphyrin-based molecular recognition sites coassembled with methacrylic acid.
Analytical Chemistry, 73, (16), 3869-3874, (2001)
Umpleby RJ et al., Application of the Freundlich adsorption isotherm in the characterization of molecularly imprinted polymers.
Analytica Chimica Acta, 435, (1), 35-42, (2001)
Umpleby RJ et al., Toward a standard method for calculating the binding parameters of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 221, (OLY), 340-340, (2001)
Umpleby RJ et al., Recognition directed site-selective chemical modification of molecularly imprinted polymers.
Macromolecules, 34, (24), 8446-8452, (2001)
Umpleby RJ et al., Characterization of molecularly imprinted polymers with the Langmuir-Freundlich isotherm.
Analytical Chemistry, 73, (19), 4584-4591, (2001)
Chen YZ et al., Monodisperse core-shell molecularly imprinted polymer microspheres.
Abstracts of Papers of the American Chemical Society, 223, (OLY), 086-086, (2002)
Chen YZ et al., Measurement of enantiomeric excess using molecularly imprinted polymers.
Organic Letters, 4, (17), 2937-2940, (2002)
Shimizu KD, Understanding the fundamental recognition behavior of molecularly imprinted polymers.
Polymer Preprints, 44, (2), 481-482, (2003)
Shimizu KD, Understanding the fundamental recognition behavior of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 226, (POLY), 519-519, (2003)
Shimizu KD, New methods of synthesizing and characterizing molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 710-710, (2003)
Lavin JM et al., Reprogrammable imprinted polymers.
Abstracts of Papers of the American Chemical Society, 227, (POLY), 122-122, (2004)
Rampey AM et al., Characterization of the imprint effect and the influence of imprinting conditions on affinity, capacity, and heterogeneity in molecularly imprinted polymers using the Freundlich isotherm-affinity distribution analysis.
Analytical Chemistry, 76, (4), 1123-1133, (2004)
Umpleby RJ et al., Characterization of the heterogeneous binding site affinity distributions in molecularly imprinted polymers.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 141-149, (2004)
Degenhardt CF et al., Conformationally imprinted receptors: Atropisomers with "write", save, and "erase" recognition properties.
Organic Letters, 7, (19), 4079-4081, (2005)
Greene NT et al., Molecularly imprinted arrays implemented for analyte identification.
Abstracts of Papers of the American Chemical Society, 229, (POLY), U941-U941, (2005)
Greene NT et al., Molecular imprinted array for carbohydrate discrimination.
Abstracts of Papers of the American Chemical Society, 229, (ANYL), 392-392, (2005)
Greene NT et al., Colorimetric molecularly imprinted polymer sensor array using dye displacement.
Journal of the American Chemical Society, 127, (15), 5695-5700, (2005)
Lee JD et al., Carbohydrate recognition by porphyrin-based molecularly imprinted polymers.
Organic Letters, 7, (6), 963-966, (2005)
Rushton GT et al., A critical examination of the use of the Freundlich isotherm in characterizing molecularly imprinted polymers (MIPs).
Analytica Chimica Acta, 528, (1), 107-113, (2005)
Rushton GT et al., Plastic antibodies: Molecular recognition with imprinted polymers - An introductory polymer chemistry laboratory investigation.
Journal of Chemical Education, 82, (9), 1374-1377, (2005)
Shimizu KD, Molecularly imprinted polymer sensors and sensor arrays.
Polymer Preprints, 46, (2), 1132-1132, (2005)
Shimizu KD, Book chapter, Post modification of imprinted polymers,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 12, 329-345, (2005)
Shimizu KD, Book chapter, Binding isotherms,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 16, 419-434, (2005)
Shimizu KD, Molecularly imprinted polymer sensors and sensor arrays.
Abstracts of Papers of the American Chemical Society, 230, 296-POLY, (2005)
Stephenson CJ et al., Virus imprinting and reuptake in polymer films.
Polymer Preprints, 47, (2), 463-463, (2006)
Stephenson CJ et al., Colormetric imprinted polymers as sensors.
Polymer Preprints, 47, (1), 7-7, (2006)
Stephenson CJ et al., Formation of multi-channel colorimetric polymers as a sensor for biogenic amines.
Polymer Preprints, 47, (2), 1084-1084, (2006)
Stephenson CJ et al., Online method for dye displacement MIP array analysis.
Abstracts of Papers of the American Chemical Society, 231, (ANYL), 208-208, (2006)
Stephenson CJ et al., Colorimetric imprinted polymers as sensors.
Abstracts of Papers of the American Chemical Society, 231, (POLY), 191-191, (2006)
Wu XY et al., A molecularly imprinted polymer fiber-optic sensor for the detection of nonfluorescent analytes in aqueous media.
Abstracts of Papers of the American Chemical Society, (ANYL), 109-109, (2006)
Wu XY et al., Affinity distributions and selectivities of molecularly imprinted polymers simulated by a probability-based computer model.
Abstracts of Papers of the American Chemical Society, 231, (POLY), 85-85, (2006)
Wu XY et al., Affinity distributions and selectivities of molecularly imprinted polymers simulated by a probabilty-based computer model.
Polymer Preprints, 47, (1), 61-61, (2006)
Wu XY et al., Molecularly imprinted polymer fiber-optic chemical sensor based on dye displacement.
Abstracts of Papers of the American Chemical Society, 231, (ANYL), 203-203, (2006)
Wu XY et al., Development of molecularly imprinted polymers as catalysts in selective solid-state [2+2] photodimerization.
Polymer Preprints, 47, (2), 328-328, (2006)
Shimizu KD et al., Book chapter, Molecularly Imprinted Polymers,
In: Encyclopedia of Chemical Processing, Lee SG (Ed.) Taylor & Francis: 1737-1746, (2007)
Stephenson CJ et al., In focus: Colorimetric and fluorometric molecularly imprinted polymer sensors and binding assays.
Polymer International, 56, (4), 482-488, (2007)
Wu XY et al., Selective phosphate recognition by triurea-based molecularly imprinted polymers.
Polymer Preprints, 48, (1), 254-255, (2007)
Zhang YZ et al., Urea and thiourea based multi-armed functional monomers for molecular recognition and imprinting.
Polymer Preprints, 48, (1), 543-544, (2007)
Wu XY et al., Stochastic Lattice Model Simulations of Molecularly Imprinted Polymers.
Chemistry of Materials, 20, (13), 4335-4346, (2008)
Wu XY et al., Book chapter, Molecular Imprinting for Sensor Applications,
In: Molecular Recognition and Polymers, Rotello VM, Thayumanavan S (Eds.) Wiley: Hoboken, NJ, Ch. 15, 395-429, (2008)
Wu XY et al., Comparison of monofunctional and multifunctional monomers in phosphate binding molecularly imprinted polymers.
Journal of Molecular Recognition, 21, (6), 410-418, (2008)
Wu XY et al., Development of molecularly imprinted polymers as tailored templates for the solid-state [2+2] photodimerization.
Biosensors and Bioelectronics, 25, (3), 640-646, (2009)
Shimizu KD et al., Molecularly imprinted polymer sensor arrays.
Current Opinion in Chemical Biology, 14, (6), 743-750, (2010)
Zhang YG et al., Importance of Functional Monomer Dimerization in the Molecular Imprinting Process.
Macromolecules, 43, (15), 6284-6294, (2010)
Song D et al., Finding the importance of flexibility of the recognition sites in molecular imprinting.
Abstracts of Papers of the American Chemical Society, 241, (POLY), 177-(2011)
Zhang YG et al., Suppression of background sites in molecularly imprinted polymers via urea-urea monomer aggregation.
Organic & Biomolecular Chemistry, 9, (1), 120-126, (2011)
Zhang YG et al., Book chapter, Molecular Imprinting and Sensor Development,
In: Chemosensors, Wang B, Anslyn EV (Eds.) John Wiley & Sons, Inc.: Hoboken, N.J., Ch. 7, 107-120, (2011)
Song D et al., Characterization of molecularly imprinted polymers using a new polar solvent titration method.
Journal of Molecular Recognition, 27, (7), 448-457, (2014)
Li P et al., Book chapter, Molecularly Imprinted Polymer Sensor Arrays,
In: Molecularly Imprinted Polymers for Analytical Chemistry Applications, Kutner W, Sharma PS (Eds.) Royal Society of Chemistry: Ch. 14, 447-474, (2018)
Chemical Communications, (10), 1172-1173, (2004)
Abstracts of Papers of the American Chemical Society, 227, (POLY), 505-505, (2004)
Rushton GT et al., Selective byproduct removal via molecular imprinting.
Abstracts of Papers of the American Chemical Society, 227, (POLY), 83-83, (2004)
Analytical Sciences, 17, (Supplement (Proceedings of IUPAC International Congress on Analytical Sciences 2001 (ICAS 2001))), i609-i612, (2001)
Minoura N et al., Study of the factors influencing peak asymmetry on chromatography using a molecularly imprinted polymer prepared by the epitope approach.
Bioseparation, 10, (6), 399-407, (2002)
Minoura N et al., Detection of target dsDNA by electrophoresis through a molecularly imprinted gel matrix.
Polymer Preprints, Japan, 55, (1), 1671-(2006)
Ogiso M et al., Detection of a specific DNA sequence by electrophoresis through a molecularly imprinted polymer.
Biomaterials, 27, (22), 4177-4182, (2006)
Ogiso M et al., DNA detection system using molecularly imprinted polymer as the gel matrix in electrophoresis.
Biosensors and Bioelectronics, 22, (9-10), 1974-1981, (2007)
Journal of Polymer Science, Polymer Letters Edition, 23, (10), 545-548, (1985)
Langmuir, 26, (15), 12673-12679, (2010)
International Journal of Pharmaceutics, 293, (1-2), 165-170, (2005)
Chemical Communications, (48), 6035-6037, (2005)
In: Drug-development assay approaches including molecular imprinting and biomarkers, Reid E, Hill HM, Wilson ID (Eds.) Royal Society of Chemistry: Ch. A-6, 44-48, (1998)
Ju JY et al., Imprinted polymers as tools for the recovery of secondary metabolites produced by fermentation.
Biotechnology and Bioengineering, 64, (2), 232-239, (1999)
Ju JY et al., Binding properties of an aminostyrene-based polymer imprinted with glutamylated monascus pigments.
Biotechnology Techniques, 13, (10), 665-669, (1999)
Biotechnology Advances, 32, (2), 415-428, (2014)
Sensors and Actuators B: Chemical, 216, 476-481, (2015)
Scientific Reports, 9, (1), Article10293-(2019)
International Journal of Electrochemical Science, 9, (8), 4598-4616, (2014)
Chung JH et al., Inter-Laboratory Validation of Method to Determine Residual Enrofloxacin in Chicken Meat.
International Journal of Analytical Chemistry, 2018, ArticleNo6019549-(2018)
Current Applied Physics, 9, (2, Supplement 1), e136-e139, (2009)
Shin MJ et al., Sensing Capability of Molecularly Imprinted Self-Assembled Monolayer Using Terphenylpropanethiol.
Particulate Science and Technology, 30, (6), 543-552, (2012)
Shin MJ et al., Inorganic Molecularly Imprinted Polymer by Sol-Gel Process for Recognition of Caffeine.
Open Journal of Organic Polymer Materials, 3, 1-5, (2013)
Shin MJ et al., Recognizing Amino Acid Chirality with Surface-Imprinted Polymers Prepared in W/O Emulsions.
International Journal of Polymer Science, 2013, Article ID 290187, 5 pages-(2013)
Shin MJ et al., Recognizing Amino Acid Chirality with Surface-Imprinted Polymers Prepared in W/O Emulsions.
International Journal of Polymer Science, 2013, Article ID 290187, 5 pages-(2013)
Shin MJ et al., Sensing capability of molecularly imprinted self-assembled monolayer fabricated using dithiol compound.
Journal of Industrial and Engineering Chemistry, 20, (1), 91-95, (2014)
Yang DH et al., Molecularly imprinted titania microbeads for extraction of the metabolite 1-hydroxypyrene from urine prior to its determination by HPLC.
Microchimica Acta, 183, (5), 1601-1609, (2016)
Yang DH et al., An electrochemical nanofilm sensor for determination of 1-hydroxypyrene using molecularly imprinted receptors.
Journal of Industrial and Engineering Chemistry, 51, 106-112, (2017)
Shin MJ et al., Cholesterol recognition system by molecular imprinting on self-assembled monolayer.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 559, 365-371, (2018)
Shin MJ et al., A molecularly imprinted polymer undergoing a color change depending on the concentration of bisphenol A.
Microchimica Acta, 187, (1), Article44-(2019)
Shin MJ et al., Switchable cholesterol recognition system with Diels-Alder reaction using molecular imprinting technique on self-assembled monolayer.
Polymer International, 68, (10), 1722-1728, (2019)
Biochemical Engineering Journal, 54, (1), 57-61, (2011)
Shin MJ et al., Sensing Capability of Molecularly Imprinted Self-Assembled Monolayer Using Terphenylpropanethiol.
Particulate Science and Technology, 30, (6), 543-552, (2012)
Shin MJ et al., Inorganic Molecularly Imprinted Polymer by Sol-Gel Process for Recognition of Caffeine.
Open Journal of Organic Polymer Materials, 3, 1-5, (2013)
Shin MJ et al., Recognizing Amino Acid Chirality with Surface-Imprinted Polymers Prepared in W/O Emulsions.
International Journal of Polymer Science, 2013, Article ID 290187, 5 pages-(2013)
Shin MJ et al., Sensing capability of molecularly imprinted self-assembled monolayer fabricated using dithiol compound.
Journal of Industrial and Engineering Chemistry, 20, (1), 91-95, (2014)
Yang DH et al., Molecularly imprinted titania microbeads for extraction of the metabolite 1-hydroxypyrene from urine prior to its determination by HPLC.
Microchimica Acta, 183, (5), 1601-1609, (2016)
Shin MJ et al., Cholesterol recognition system by molecular imprinting on self-assembled monolayer.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 559, 365-371, (2018)
Shin MJ et al., A molecularly imprinted polymer undergoing a color change depending on the concentration of bisphenol A.
Microchimica Acta, 187, (1), Article44-(2019)
Shin MJ et al., Switchable cholesterol recognition system with Diels-Alder reaction using molecular imprinting technique on self-assembled monolayer.
Polymer International, 68, (10), 1722-1728, (2019)
Abstracts of Papers of the American Chemical Society, 214, (INOR), 251-251, (1997)
Dai S et al., Imprint coating: A novel synthesis of selective functionalized ordered mesoporous sorbents.
Angewandte Chemie International Edition, 38, (9), 1235-1239, (1999)
Open Journal of Organic Polymer Materials, 3, 1-5, (2013)
Shin MJ et al., Cholesterol recognition system by molecular imprinting on self-assembled monolayer.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 559, 365-371, (2018)
Chemistry of Materials, 9, (11), 2521-2525, (1997)
Dai S et al., Spectroscopic probing of adsorption of uranyl to uranyl-imprinted silica sol-gel glass via steady-state and time-resolved fluorescence measurement.
Journal of Physical Chemistry B, 101, (28), 5521-5524, (1997)
Dai S et al., Imprint coating: Novel synthesis of selective functionalized ordered mesoporous sorbents.
Abstracts of Papers of the American Chemical Society, 217, (IEC), 234-234, (1999)
Shin YS et al., Ordered Hierarchical Porous Materials: Towards Tunable Size- and Shape-Selective Microcavities in Nanoporous Channels.
Angewandte Chemie International Edition, 39, (15), 2702-2707, (2000)
Journal of Industrial and Engineering Chemistry, 20, (1), 91-95, (2014)
Polymer Preprints, Japan, 55, (1), 1671-(2006)
Ogiso M et al., Detection of a specific DNA sequence by electrophoresis through a molecularly imprinted polymer.
Biomaterials, 27, (22), 4177-4182, (2006)
Ogiso M et al., DNA detection system using molecularly imprinted polymer as the gel matrix in electrophoresis.
Biosensors and Bioelectronics, 22, (9-10), 1974-1981, (2007)
Chemistry - A European Journal, 14, (31), 9516-9529, (2008)
Ambrosini S et al., Synthesis and chromatographic evaluation of molecularly imprinted polymers prepared by the substructure approach for the class-selective recognition of glucuronides.
Journal of Chromatography A, 1218, (39), 6961-6969, (2011)
Helling S et al., Ultratrace Enrichment of Tyrosine Phosphorylated Peptides on an Imprinted Polymer.
Analytical Chemistry, 83, (5), 1862-1865, (2011)
Ambrosini S et al., Glucuronide directed molecularly imprinted solid-phase extraction: isolation of testosterone glucuronide from its parent drug in urine.
Analyst, 137, (1), 249-254, (2012)
Shinde S et al., Imprinted Polymers Displaying High Affinity for Sulfated Protein Fragments.
Angewandte Chemie International Edition, 51, (33), 8326-8329, (2012)
Kadhirvel P et al., Imidazolium-based functional monomers for the imprinting of the anti-inflammatory drug naproxen: Comparison of acrylic and sol-gel approaches.
Journal of Chromatography A, 1314, 115-123, (2013)
Chen J et al., Low-bias phosphopeptide enrichment from scarce samples using plastic antibodies.
Scientific Reports, 5, ArticleNo11438-(2015)
Shinde S et al., Sialic Acid-Imprinted Fluorescent Core-Shell Particles for Selective Labeling of Cell Surface Glycans.
Journal of the American Chemical Society, 137, (43), 13908-13912, (2015)
Chen J et al., Validation of molecularly imprinted polymers for side chain selective phosphopeptide enrichment.
Journal of Chromatography A, 1471, 45-50, (2016)
El-Schich Z et al., Different expression levels of glycans on leukemic cells - a novel screening method with molecularly imprinted polymers (MIP) targeting sialic acid.
Tumor Biology, 37, (10), 13763-13768, (2016)
Jagadeesan KK et al., Multiplexed MALDI-MS arrays for screening of MIP solid phase extraction materials.
Journal of Chromatography B, 1021, 213-220, (2016)
Shen XT et al., Reflux precipitation polymerization: a new synthetic insight in molecular imprinting at high temperature.
RSC Advances, 6, (85), 81491-81499, (2016)
Shen XT et al., Catalytic Formation of Disulfide Bonds in Peptides by Molecularly Imprinted Microgels at Oil/Water Interfaces.
ACS Applied Materials & Interfaces, 8, (44), 30484-30491, (2016)
Akhoundian M et al., Ultratrace Detection of Histamine Using a Molecularly-Imprinted Polymer-Based Voltammetric Sensor.
Sensors, 17, (3), ArticleNo645-(2017)
Bllaci L et al., Phosphotyrosine Biased Enrichment of Tryptic Peptides from Cancer Cells by Combining pY-MIP and TiO2 Affinity Resins.
Analytical Chemistry, 89, (21), 11332-11340, (2017)
Pan GQ et al., An Epitope-Imprinted Biointerface with Dynamic Bioactivity for Modulating Cell-Biomaterial Interactions.
Angewandte Chemie International Edition, 56, (50), 15959-15963, (2017)
Sulc R et al., Phospholipid imprinted polymers as selective endotoxin scavengers.
Scientific Reports, 7, ArticleNo44299-(2017)
Wan W et al., Ratiometric Fluorescence Detection of Phosphorylated Amino Acids Through Excited-State Proton Transfer by Using Molecularly Imprinted Polymer (MIP) Recognition Nanolayers.
Chemistry - A European Journal, 23, (63), 15974-15983, (2017)
Wierzbicka C et al., Hierarchically templated beads with tailored pore structure for phosphopeptide capture and phosphoproteomics.
RSC Advances, 7, (28), 17154-17163, (2017)
Ertürk G et al., Bisphosphonate ligand mediated ultrasensitive capacitive protein sensor: complementary match of supramolecular and dynamic chemistry.
New Journal of Chemistry, 43, (2), 847-852, (2019)
Mahajan R et al., Highly Efficient Synthesis and Assay of Protein-Imprinted Nanogels by Using Magnetic Templates.
Angewandte Chemie International Edition, 58, (3), 727-730, (2019)
Zhang YC et al., Determination of cytokine regulated glycan expression by using molecularly imprinted polymers targeting sialic acid.
Journal of Cancer Metastasis and Treatment, 5, Article56-(2019)
Ambaw YA et al., Tailored Polymer-Based Selective Extraction of Lipid Mediators from Biological Samples.
Metabolites, 11, (8), ArticleNo539-(2021)
Rouhi M et al., Role of Comonomers in the Recognition of Anionic Biomolecules in Water: Hydrogen-Bonded Imprinted Polymeric Receptor.
ACS Applied Polymer Materials, 3, (10), 4904-4912, (2021)
Tetrahedron Letters, 24, (33), 3501-3504, (1983)
Shiomi Y et al., Specific complexation of glucose with a diphenylmethane-3, 3'-diboronic acid-derivative - correlation between the absolute configuration of monosaccharide and disaccharide and the circular dichroic activity of the complex.
Journal of the Chemical Society-Perkin Transactions 1, (17), 2111-2117, (1993)
Inoue K et al., Chiroselective re-binding of saccharides to the fibrous aggregates prepared from organic gels of cholesterylphenylboronic acid.
Tetrahedron Letters, 39, (19), 2981-2984, (1998)
Ishii T et al., Regioselective introduction of two boronic acid groups into [60]fullerene using saccharides as imprinting templates.
Chemical Communications, 1047-1048, (1998)
Kanekiyo Y et al., Facile construction of a novel metal-imprinted polymer surface without a polymerisation process.
Journal of the Chemical Society-Perkin Transactions 2, (9), 2005-2008, (1998)
Kanekiyo Y et al., Facile design of a metal-imprinted surface from a poly(vinyl chloride-co-acrylic acid) poly(propylene glycol) blend.
Tetrahedron Letters, 39, (42), 7721-7724, (1998)
Ishii T et al., D/L selective re-binding of saccharide-imprinted [60]fullerene-bisadducts based on a saccharide-boronic acid interaction: Development of a molecular imprinting technique useful in a homogeneous system.
Tetrahedron, 55, 3883-3892, (1999)
Kanekiyo Y et al., Molecular-imprinting Kanekiyo Y et al., Molecular-imprinting Nakashima K et al., Saccharide libraries as potential templates for regio- and chiroselective introduction of two functional groups into [60]fullerene.
Journal of Organic Chemistry, 64, (3), 984-990, (1999)
Kanekiyo Y et al., Novel nucleotide-responsive hydrogels designed from copolymers of boronic acid and cationic units and their applications as a QCM resonator system to nucleotide sensing.
Journal of Polymer Science Part A: Polymer Chemistry, 38, (8), 1302-1310, (2000)
Friggeri A et al., From solutions to surfaces: A novel molecular imprinting method based on the conformational changes of boronic-acid-appended poly(L-lysine).
Angewandte Chemie International Edition, 40, (24), 4729-4731, (2001)
Shinkai S et al., Molecular design of synthetic receptors with dynamic, imprinting, and allosteric functions.
Biosensors and Bioelectronics, 20, (6), 1250-1259, (2004)
Shinkai S et al., Molecular design of synthetic receptors with dynamic, imprinting, and allosteric functions.
Bulletin of the Chemical Society of Japan, 78, (1), 40-51, (2005)
Kanekiyo Y et al., Book chapter, Supramolecular Chemistry of Boronic Acids,
In: Boron: Sensing, Synthesis and Supramolecular Self-Assembly, Li M, Fossey JS, James TD (Eds.) The Royal Society of Chemistry: Cambridge, Ch. 1, 1-43, (2015)
Bulletin of the Chemical Society of Japan, 71, (2), 513-519, (1998)
Chemical Record, 5, (6), 410-411, (2005)
Takeuchi T et al., Molecularly imprinted polymers with halogen bonding-based molecular recognition sites.
Tetrahedron Letters, 46, (52), 9025-9027, (2005)
Takeuchi T et al., Signaling molecularly imprinted polymers: Molecular recognition-based sensing materials.
Chemical Record, 5, (5), 263-275, (2005)
Akeda K et al., Photoresponsive imprinted polymers with azobenzene moieties.
Polymer Preprints, Japan, 55, (2), 4969-4970, (2006)
Kubo A et al., Atrazine-imprinted microspheres prepared using a microfluidic device.
Chemistry Letters, 35, (6), 588-589, (2006)
Murakami S et al., Amino acid-imprinted polymers with reconstitutable binding sites.
Polymer Preprints, Japan, 55, (2), 5241-5242, (2006)
Takeuchi T et al., Dopamine selective molecularly imprinted polymers via post-imprinting modification.
Organic & Biomolecular Chemistry, 4, (3), 565-568, (2006)
Yane T et al., Atrazine transforming polymer prepared by molecular imprinting with post-imprinting process.
Organic & Biomolecular Chemistry, 4, (24), 4469-4473, (2006)
Yane T et al., Artificial enzyme for atrazine decomposition prepared by molecular imprinting.
Polymer Preprints, Japan, 55, (2), 4806-(2006)
Takeuchi T et al., Protein profiling by protein imprinted polymer array.
Analyst, 132, (2), 101-103, (2007)
Takeuchi T et al., Photoresponsive porphyrin-imprinted polymers prepared using a novel functional monomer having diaminopyridine and azobenzene moieties.
Organic & Biomolecular Chemistry, 5, (15), 2368-2374, (2007)
Murakami S et al., A molecularly imprinted polymer for the reconstruction of a molecular recognition region.
Chemistry Letters, 37, (10), 1028-1029, (2008)
Taguchi Y et al., Formation of molecular recognition sites with urea moieties utilizing molecular imprinting.
Nippon Kagakkai Koen Yokoshu, 86, (2), 1416-(2009)
Analytica Chimica Acta, 504, (1), 137-140, (2004)
Journal of the Chemical Society-Chemical Communications, (1), 87-88, (1986)
Anraku Y et al., Molecular recognition at the surface of polymer brush as observed by localized surface plasmon resonance technique.
Polymer Preprints, Japan, 55, (2), 5107-5108, (2006)
Sensors, 16, (11), ArticleNo1974-(2016)
Shinohara S et al., Proceeding, Gas selective chemiresistor composed of molecularly imprinted polymer composite ink,
1-3, (2016)
Magnetic Resonance in Chemistry, 52, (11), 694-698, (2014)
Synthesis and Reactivity in Inorganic, Metal-Organic and Nano-Metal Chemistry, 37, (10), 771-777, (2007)
Journal of Membrane and Separation Technology, 5, (3), 103-114, (2016)
Biomaterials, 26, (27), 5564-5571, (2005)
Journal of the Chemical Society-Perkin Transactions 1, (17), 2111-2117, (1993)
IEEE Engineering in Medicine and Biology Magazine, 21, (6), 144-150, (2002)
Langmuir, 26, (15), 12673-12679, (2010)
Journal of Analytical Chemistry, 62, (9), 894-902, (2007)
Polymer Journal, 34, (6), 474-(2002)
Makromolekulare Chemie-Rapid Communications, 4, (2), 65-69, (1983)
Shirai M et al., Cation binding-properties of poly(crown ether)s with photodimerizable groups - Enhanced cation binding ability via a photochemical template effect.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 186, (3), 493-500, (1985)
Shirai M et al., Cation binding-properties of polyesters with photodimerizable groups and oxyethylene units - Effect of photo-cross-linking with template cations.
European Polymer Journal, 21, (12), 999-1003, (1985)
Chromatography, 27, (Supplement 1), 45-46, (2006)
Kubo T et al., Selective separation of hydroxy polychlorinated biphenyls (HO-PCBs) by the structural recognition on the molecularly imprinted polymers: Direct separation of the thyroid hormone active analogues from mixtures.
Analytica Chimica Acta, 589, (2), 180-185, (2007)
Yagishita M et al., Efficient extraction of estrogen receptor-active compounds from environmental surface water via a receptor-mimic adsorbent, a hydrophilic PEG-based molecularly imprinted polymer.
Chemosphere, 217, 204-212, (2019)
New Journal of Chemistry, 34, (4), 714-717, (2010)
Journal of the Chemical Society-Chemical Communications, (1), 87-88, (1986)
Macromolecular Rapid Communications, 36, (6), 515-519, (2015)
Bioconjugate Chemistry, 26, (1), 90-100, (2015)
Food Chemistry, 339, Article127920-(2021)
Polymer Preprints, Japan, 54, (1), 2117-(2005)
Matsui T et al., Improved Method of Molecular Imprinting of Cyclodextrin on Silica-gel Surface for the Preparation of Stable Stationary HPLC Phase.
Journal of Inclusion Phenomena and Macrocyclic Chemistry, 56, (1-2), 39-44, (2006)
Osawa T et al., Importance of the position of vinyl group on [beta]-cyclodextrin for the effective imprinting of amino acid derivatives and oligopeptides in water.
Macromolecules, 39, (7), 2460-2466, (2006)
Sumaoka J et al., Recognition of bioactive oligopeptide by imprinted cyclodextrin polymer in water.
Polymer Preprints, Japan, 55, (1), 1668-(2006)
Song SH et al., Recognition of Solution Structures of Peptides by Molecularly Imprinted Cyclodextrin Polymers.
Macromolecules, 40, (10), 3530-3532, (2007)
Song SH et al., Molecular imprinting of cyclodextrin to physiologically active oligopeptides in water.
Supramolecular Chemistry, 22, (3), 149-155, (2010)
Journal of Chromatography A, 728, (1-2), 139-147, (1996)
Yoshizako K et al., Uniformly sized polymer based stationary phase having multi-chiral selectors.
Chemistry Letters, 25, (8), 717-718, (1996)
Hosoya K et al., Study on molecular recognition by molecular imprinting.
Kuromatogurafi, 18, (2), 104-105, (1997)
Hosoya K et al., Molecularly imprinted chiral stationary phase prepared with racemic template.
Analytical Chemistry, 70, (5), 943-945, (1998)
Polymer Preprints, Japan, 54, (1), 1894-(2005)
Kikuchi M et al., Recognition of terpenes using molecular imprinted polymer coated quartz crystal microbalance in air phase.
Science and Technology of Advanced Materials, 7, (2), 156-161, (2006)
Tsuru N et al., A quartz crystal microbalance sensor coated with MIP for "Bisphenol A" and its properties.
Thin Solid Films, 499, (1-2), 380-385, (2006)
Tsuru N et al., Proceeding, QCM sensor covered with Molecular Imprinted polymer for Bisphenol A-The influence of sensor characteristics by polymer network structure-,
23-26, (2006)
Separation Science and Technology, 51, (2), 248-254, (2016)
International Journal of Biological Macromolecules, 87, 375-384, (2016)
Analytica Chimica Acta, 623, (1), 82-88, (2008)
Ahmadi SJ et al., Synthesis and characterization of new ion-imprinted polymer for separation and preconcentration of uranyl (UO22+) ions.
Journal of Hazardous Materials, 175, (1-3), 193-197, (2010)
Abedi M et al., Synthesis and characterization of a novel acryl amide-based yttrium imprinted sorbent via the ATRP approach for the preparation of medical-grade 90Y.
Radiochimica Acta, 104, (2), 117-129, (2016)
Journal of Molecular Liquids, 212, 96-102, (2015)
Shirzadmehr A et al., A new nano-composite potentiometric sensor containing an Hg2+ ion imprinted polymer for the trace determination of mercury ions in different matrices.
Journal of Molecular Liquids, 204, 227-235, (2015)
Khoshsafar H et al., Magnetic Carbon Paste Electrode Modified with a High Performance Composite Based on Molecularly Imprinted Carbon Nanotubes for Sensitive Determination of Levofloxacin.
Journal of The Electrochemical Society, 163, (8), B422-B427, (2016)
Shirzadmehr A et al., Novel potentiometric sensor for the trace-level determination of Zn2+ based on a new nanographene/ion imprinted polymer composite.
International Journal of Environmental Analytical Chemistry, 96, (10), 929-944, (2016)
Bagheri H et al., Determination of tramadol in pharmaceutical products and biological samples using a new nanocomposite carbon paste sensor based on decorated nanographene/tramadol-imprinted polymer nanoparticles/ionic liquid.
Ionics, 24, (3), 833-843, (2018)
Journal of the Chinese Advanced Materials Society, 4, (1), 24-35, (2016)
Abstracts of Papers of the American Chemical Society, 227, (COLL), 531-531, (2004)
Zhou YX et al., Potentiometric sensing of chemical warfare agents: Surface imprinted polymer integrated with an indium tin oxide electrode.
Analytical Chemistry, 76, (10), 2689-2693, (2004)
Drug Development and Industrial Pharmacy, 39, (8), 1247-1253, (2013)
Biopolymers and Cell, 29, (3), 188-206, (2013)
Journal of Separation Science, 40, (16), 3358-3367, (2017)
Journal of Applied Polymer Science, 100, (5), 4208-4211, (2006)
Polymer Preprints, Japan, 54, (2), 4749-4750, (2005)
Journal of Non-Crystalline Solids, 352, (30-31), 3302-3309, (2006)
New Journal of Chemistry, 18, 299-304, (1994)
Langmuir, 10, (7), 2382-2388, (1994)
Analytical Methods, 7, (22), 9641-9648, (2015)
Analytica Chimica Acta, 1097, 214-221, (2020)
In: Chemical, Biological and Environmental Engineering, Li K (Ed.) World Scientific: 231-234, (2009)
Shofiyani A et al., Cadmium adsorption on chitosan/chlorella biomass sorbent prepared by ionic-imprinting technique.
Indonesian Journal of Chemistry, 15, (2), 163-171, (2015)
Microchimica Acta, 185, (4), ArticleNo241-(2018)
Biosensors and Bioelectronics, 145, Article111611-(2019)
Angewandte Chemie International Edition, 50, (2), 495-498, (2011)
Nematollahzadeh A et al., Submicron nanoporous polyacrylamide beads with tunable size for verapamil imprinting.
Journal of Applied Polymer Science, 125, (1), 189-199, (2012)
Nematollahzadeh A et al., Molecularly imprinted polydopamine nano-layer on the pore surface of porous particles for protein capture in HPLC column.
Journal of Colloid and Interface Science, 404, 117-126, (2013)
Biotechnology and Bioprocess Engineering, 13, (5), 592-597, (2008)
Mirmohseni A et al., Experimental design and multi-objective optimization of molecularly imprinted polymers for monosaccharides.
RSC Advances, 4, (39), 20177-20184, (2014)
Mirmohseni A et al., Application of molecularly imprinted polymer for determination of glucose by quartz crystal nanobalance technique.
IEEE Sensors Journal, 14, (8), 2807-2812, (2014)
Food Analytical Methods, 9, (10), 2721-2731, (2016)
Biochemical Engineering Journal, 35, (3), 352-356, (2007)
Journal of Micromechanics and Microengineering, 28, (3), ArticleNo034002-(2018)
Analytical Chemistry, 75, (18), 4882-4886, (2003)
Shoji R et al., Atrazine sensor based on a nano chemical receptor modified electrode.
Bunseki Kagaku, 52, (12), 1141-1146, (2003)
Fuchiwaki Y et al., 6-Chloro-N, N-Diethyl-1, 3, 5-Triazine-2, 4-Diamine (Simazine) Electrochemical Sensing Chip Based on Biomimetic Recognition Utilizing a Molecularly Imprinted Polymer Layer on a Gold Chip.
Analytical Letters, 41, (8), 1398-1407, (2008)
Kubo I et al., Atrazine sensing chip based on molecularly imprinted polymer layer.
Electrochemistry, 76, (8), 541-544, (2008)
Iranian Journal of Chemical Engineering, 5, (4), 49-55, (2008)
International Journal of Electrochemical Science, 14, 6420-6430, (2019)
ACS Nano, 7, (10), 8379-8384, (2013)
Mahmoudi M et al., Correction to Cell-Imprinted Substrates Direct the Fate of Stem Cells.
ACS Nano, 8, (10), 11023-11023, (2014)
Mashinchian O et al., Cell-Imprinted Substrates Act as an Artificial Niche for Skin Regeneration.
ACS Applied Materials & Interfaces, 6, (15), 13280-13292, (2014)
Bonakdar S et al., Cell-Imprinted Substrates Modulate Differentiation, Redifferentiation, and Transdifferentiation.
ACS Applied Materials & Interfaces, 8, (22), 13777-13784, (2016)
Food Chemistry, 325, Article126902-(2020)
Sensors and Actuators B: Chemical, 297, Article126668-(2019)
The Journal of Physical Chemistry C, 117, (43), 22290-22297, (2013)
Journal of Materials Science, 44, (22), 6206-6211, (2009)
Journal of Environmental Chemical Engineering, 7, (6), Article103500-(2019)
Analytica Chimica Acta, 435, (1), 9-18, (2001)
Hedin-Dahlström J et al., Stereoselective reduction of menthone by molecularly imprinted polymers.
Tetrahedron: Asymmetry, 15, (15), 2431-2436, (2004)
Nicholls IA et al., Rational design of biomimetic molecularly imprinted materials: theoretical and computational strategies for guiding nanoscale structured polymer development.
Analytical and Bioanalytical Chemistry, 400, (6), 1771-1786, (2011)
Olsson GD et al., Mechanisms underlying molecularly imprinted polymer molecular memory and the role of crosslinker: resolving debate on the nature of template recognition in phenylalanine anilide imprinted polymers.
Journal of Molecular Recognition, 25, (2), 69-73, (2012)
Nicholls IA et al., Book chapter, Rational Molecularly Imprinted Polymer Design: Theoretical and Computational Strategies,
In: Molecular Imprinting: Principles and Applications of Micro- and Nanostructure Polymers, Ye L (Ed.) Taylor and Francis Group, LLC: Boca Raton, Fl, Ch. 3, 71-104, (2013)
Shoravi S et al., On the Influence of Crosslinker on Template Complexation in Molecularly Imprinted Polymers: A Computational Study of Prepolymerization Mixture Events with Correlations to Template-Polymer Recognition Behavior and NMR Spectroscopic Studies.
International Journal of Molecular Sciences, 15, (6), 10622-10634, (2014)
Shoravi S et al., In silico screening of molecular imprinting prepolymerization systems: oseltamivir selective polymers through full-system molecular dynamics-based studies.
Organic & Biomolecular Chemistry, 14, (18), 4210-4219, (2016)
Bulletin of the Chemical Society of Japan, 69, (1), 125-130, (1996)
Koide Y et al., Adsorption of metal ions to surface-template resins prepared with amphiphilic styrene monomers bearing amino carboxylic acid.
Bulletin of the Chemical Society of Japan, 71, (4), 789-796, (1998)
Koide Y et al., Book chapter, Selective adsorption of metal ions to surface-templated resins prepared by emulsion polymerization using a functional surfactant,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 18, 264-277, (1998)
Microchimica Acta, 186, (2), Article76-(2019)
Plasmonics, 10, (6), 1853-1861, (2015)
Sensors and Actuators B: Chemical, 212, 404-410, (2015)
Shrivastav AM et al., Localized and propagating surface plasmon resonance based fiber optic sensor for the detection of tetracycline using molecular imprinting.
Materials Research Express, 2, (3), 035007-(2015)
Shrivastav AM, Proceeding, Molecularly Imprinted Fiber Optic SPR Sensor for Parathion Methyl Detection,
Article:JW2A, (2015)
Agrawal H et al., Surface plasmon resonance based optical fiber sensor for atrazine detection using molecular imprinting technique.
Sensors and Actuators B: Chemical, 227, 204-211, (2016)
Gupta BD et al., Proceeding, Fiber optic SPR nanosensor for erythromycin detection using molecularly imprinted nanoparticles,
1-2, (2016)
Gupta BD et al., Surface Plasmon Resonance-Based Fiber Optic Sensors Utilizing Molecular Imprinting.
Sensors, 16, (9), ArticleNo1381-(2016)
Shrivastav AM et al., Fiber optic profenofos sensor based on surface plasmon resonance technique and molecular imprinting.
Biosensors and Bioelectronics, 79, 150-157, (2016)
Shrivastav AM et al., A localized and propagating SPR, and molecular imprinting based fiber-optic ascorbic acid sensor using an in situ polymerized polyaniline-Ag nanocomposite.
Nanotechnology, 27, (34), ArticleNo345501-(2016)
Shrivastav AM et al., SPR and Molecular Imprinting-Based Fiber-Optic Melamine Sensor With High Sensitivity and Low Limit of Detection.
IEEE Journal on Selected Topics in Quantum Electronics, 22, (4), ArticleNo6900207-(2016)
Gupta BD et al., Book chapter, Molecular-Imprinting-Based Sensors,
In: Optical Sensors for Biomedical Diagnostics and Environmental Monitoring, Gupta BD, Shrivastav AM, Usha SP (Eds.) CRC Press: Boca Raton, Ch. 6, (2017)
Shrivastav AM et al., Highly sensitive and selective erythromycin nanosensor employing fiber optic SPR/ERY imprinted nanostructure: Application in milk and honey.
Biosensors and Bioelectronics, 90, 516-524, (2017)
Usha SP et al., A contemporary approach for design and characterization of fiber-optic-cortisol sensor tailoring LMR and ZnO/PPY molecularly imprinted film.
Biosensors and Bioelectronics, 87, 178-186, (2017)
Shrivastav AM et al., Ion-imprinted nanoparticles for the concurrent estimation of Pb(II) and Cu(II) ions over a two channel surface plasmon resonance-based fiber optic platform.
Journal of Biomedical Optics, 23, (1), ArticleNo017001-(2018)
Shrivastav AM et al., Hypersensitive and selective biosensing based on microfiber interferometry and molecular imprinted nanoparticles.
Biosensors and Bioelectronics, 141, Article111347-(2019)
Journal of Electroanalytical Chemistry, 795, 103-109, (2017)
ACS Applied Materials & Interfaces, 7, (43), 23848-23856, (2015)
Microchimica Acta, 185, (3), ArticleNo203-(2018)
Water Science & Technology, 69, (1), 170-176, (2014)
RSC Advances, 6, (19), 15549-15557, (2016)
Ge YH et al., Selective analysis of aristolochic acid I in herbal medicines by dummy molecularly imprinted solid-phase extraction and HPLC.
Journal of Separation Science, 40, (13), 2791-2799, (2017)
Guo PQ et al., On-Line two dimensional liquid chromatography based on skeleton type molecularly imprinted column for selective determination of sulfonylurea additive in Chinese patent medicines or functional foods.
Journal of Pharmaceutical and Biomedical Analysis, 146, 292-301, (2017)
Xu XY et al., Fabrication of a novel magnetic mesoporous molecularly imprinted polymer based on pericarpium granati-derived carrier for selective absorption of bromelain.
Food Chemistry, 256, 91-97, (2018)
Ge YH et al., Combined magnetic porous molecularly imprinted polymers and deep eutectic solvents for efficient and selective extraction of aristolochic acid I and II from rat urine.
Materials Science and Engineering: C, 97, 650-657, (2019)
Guo PQ et al., Monodisperse molecularly imprinted microsphere cartridges coupled with HPLC for selective analysis of dexamethasone and hydrocortisone in cosmetics by using matrix solid-phase dispersion.
Analytical Methods, 11, (29), 3687-3696, (2019)
Luo ZM et al., Molecularly imprinted polymer solid-phase microextraction coupled with ultra high performance liquid chromatography and tandem mass spectrometry for rapid analysis of pyrrolizidine alkaloids in herbal medicine.
Journal of Separation Science, 42, (21), 3352-3362, (2019)
Bashir K et al., Synthesis, characterization, and application of griseofulvin surface molecularly imprinted polymers as the selective solid phase extraction sorbent in rat plasma samples.
Arabian Journal of Chemistry, 13, (2), 4082-4091, (2020)
Journal of the Chinese Chemical Society, 59, (3), 338-344, (2012)
Journal of Hazardous Materials, 192, (3), 949-955, (2011)
Luo XB et al., A magnetic copper(II)-imprinted polymer for the selective enrichment of trace copper(II) ions in environmental water.
Microchimica Acta, 179, (3), 283-289, (2012)
Process Biochemistry, 44, (2), 177-182, (2009)
Clinical Chemistry, 52, (8), 1486-1491, (2006)
Instrumentation Science & Technology, 43, (6), 669-680, (2015)
Zhou MC et al., Molecularly Imprinted Nanomicrospheres as Matrix Solid-Phase Dispersant Combined with Gas Chromatography for Determination of Four Phosphorothioate Pesticides in Carrot and Yacon.
Journal of Analytical Methods in Chemistry, 2015, ArticleID385167-(2015)
Journal of Food Engineering, 241, 41-50, (2019)
Journal of Molecular Liquids, 211, 621-627, (2015)
Food Analytical Methods, 10, (10), 3452-3461, (2017)
Wang J et al., A novel metronidazole electrochemical sensor based on surface imprinted vertically cross-linked two-dimensional Sn3O4 nanoplates.
Analytical Methods, 10, (41), 4985-4994, (2018)
Wang J et al., High sensitive visible light photoelectrochemical sensor based on in-situ prepared flexible Sn3O4 nanosheets and molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 271, 215-224, (2018)
Yang XY et al., Dual Functional Molecular Imprinted Polymer-Modified Organometal Lead Halide Perovskite: Synthesis and Application for Photoelectrochemical Sensing of Salicylic Acid.
Analytical Chemistry, 91, (15), 9356-9360, (2019)
Xiong XX et al., In situ grown TiO2 nanorod arrays functionalized by molecularly imprinted polymers for salicylic acid recognition and detection.
Journal of Electroanalytical Chemistry, 873, Article114394-(2020)
Yang XY et al., Molecularly imprinted polymers and PEG double engineered perovskite: an efficient platform for constructing aqueous solution feasible photoelectrochemical sensor.
Sensors and Actuators B: Chemical, 304, Article127321-(2020)
Progress In Chemistry, 21, (12), 2712-2717, (2009)
Journal of Separation Science, 36, (9-10), 1501-1508, (2013)
Chinese Journal of Analysis Laboratory, 36, (3), 316-321, (2017)
Journal of Electroanalytical Chemistry, 873, Article114394-(2020)
Frontiers of Environmental Science & Engineering in China, 3, (2), 171-177, (2009)
1-4, (2018)
Chan WCW, Yu K, Krull UJ, Hornsey RI, Wilson BC, Weersink RA (Eds.), Art. No.-59690F, (2005)
Shughart EL et al., Site selectively templated and tagged xerogels for chemical sensors.
Analytical Chemistry, 78, (9), 3165-3170, (2006)
Tao ZY et al., Templated xerogels as platforms for biomolecule-less biomolecule sensors.
Analytica Chimica Acta, 564, (1), 59-65, (2006)
Sensors and Actuators B: Chemical, 288, 363-372, (2019)
ACS Applied Materials & Interfaces, 13, (5), 6322-6330, (2021)
In: Metal-Organic Frameworks for Environmental Sensing, Kumar SS, Ghosh P, Singh L (Eds.) American Chemical Society: Washington DC, Ch. 6, 155-175, (2021)
Biosensors and Bioelectronics: X, 10, Article100090-(2022)
Analyst, 141, (23), 6463-6470, (2016)
Ashley J et al., Synthesis of Molecularly Imprinted Polymer Nanoparticles for [alpha]-Casein Detection Using Surface Plasmon Resonance as a Milk Allergen Sensor.
ACS Sensors, 3, (2), 418-424, (2018)
Biomeditsinskaya Khimiya, 61, (3), 325-331, (2015)
Shumyantseva VV et al., Electrosynthesis and binding properties of molecularly imprinted poly-o-phenylenediamine as artificial antibodies for electroanalysis of myoglobin.
Doklady Biochemistry and Biophysics, 464, (1), 275-278, (2015)
Shumyantseva VV et al., Molecularly imprinted polymers (MIP) in electroanalysis of proteins.
Biochemistry (Moscow) Supplement Series B: Biomedical Chemistry, 10, (2), 145-151, (2016)
Shumyantseva VV et al., Electrosynthesis and binding properties of molecularly imprinted poly-o-phenylenediamine for selective recognition and direct electrochemical detection of myoglobin.
Biosensors and Bioelectronics, 86, 330-336, (2016)
Shumyantseva VV et al., Electroanalysis of myoglobin based on electropolymerized molecularly imprinted polymer poly-o-phenylenediamine and carbon nanotubes/screen printed electrode.
Doklady Biochemistry and Biophysics, 468, (1), 213-216, (2016)
Shumyantseva VV et al., Polymer matrices with molecular memory as affine adsorbents for the determination of myoglobin as a cardiac marker of acute myocardial infarction by voltammetry.
Journal of Analytical Chemistry, 72, (4), 410-414, (2017)
Shumyantseva VV et al., Molecular imprinting coupled with electrochemical analysis for plasma samples classification in acute myocardial infarction diagnostic.
Biosensors and Bioelectronics, 99, 216-222, (2018)
Electroanalysis, 15, (5-6), 398-408, (2003)
Small, 10, (6), 1086-1089, (2014)
Microelectronic Engineering, 187-188, 58-65, (2018)
Si B et al., Recent Advances in the Detection of Neurotransmitters.
Chemosensors, 6, (1), ArticleNo1-(2018)
Ahmad HMN et al., Proceeding, Non-Enzymatic Electrochemical Detection Of Glutamate Using Templated Polymer-Based Target Receptors,
613-616, (2019)
Progress In Chemistry, 21, (9), 1813-1819, (2009)
Si BJ et al., Non-hydrolytic Sol-gel Methodology to Prepare a Molecularly Imprinted, Organic-silica Hybrid-based Stir Bar for Recognition of Sulfonylurea Herbicides.
Chinese Journal of Chemistry, 29, (11), 2487-2494, (2011)
Journal of Separation Science, 44, (13), 2536-2544, (2021)
Modern Food Science and Technology, 31, (9), 132-137, (2015)
Wang S et al., Preparation of magnetic molecularly imprinted polymer beads and their recognition for baicalein.
RSC Advances, 5, (11), 8028-8036, (2015)
Si HT et al., Synthesis of magnetic molecularly imprinted nanoparticles and their selective adsorption for dibenzothiophene.
Journal of Functional Materials, 47, (S1), 188-192, (2016)
QSAR & Combinatorial Science, 26, (1), 41-50, (2007)
Fresenius Environmental Bulletin, 22, (11), 3264-3273, (2013)
Yu XN et al., Preparation of rare earth metal ion/TiO2Hal-conducting polymers by ions imprinting technique and its photodegradation property on tetracycline.
Applied Clay Science, 99, 125-130, (2014)
Luo HY et al., Molecularly imprinted open porous membranes made from Pickering W/O HIPEs for selective adsorption and separation of methyl 4-hydroxybenzoate.
Chinese Chemical Letters, 26, (8), 1036-1041, (2015)
Zhou WC et al., Preparation and Performance of a Novel Magnetic Imprinted TiO2 Photocatalyst.
Nanoscience and Nanotechnology Letters, 7, (8), 678-684, (2015)
Yang L et al., Thermosensitive/magnetic molecularly imprinted polymers prepared by Pickering emulsion polymerization for selective separation of bifenthrin.
Desalination and Water Treatment, 57, (40), 18927-18938, (2016)
Chinese Journal of Analytical Chemistry, 35, (4), 555-558, (2007)
Cai ZF et al., Molecular imprinting and adsorption of metallothionein on nanocrystalline titania membranes.
Applied Surface Science, 254, (15), 4457-4461, (2008)
Chen X et al., Potentiometric urea biosensor based on immobilization of urease onto molecularly imprinted TiO2 film.
Journal of Electroanalytical Chemistry, 635, (1), 1-6, (2009)
Wang YH et al., Preparation and Application of Atrazine Molecularly Imprinted Solid Phase Extraction Pillar.
Chinese Journal of Analytical Chemistry, 38, (5), 678-682, (2010)
Zhang CJ et al., A highly selective photoelectrochemical biosensor for uric acid based on core-shell Fe3O4@C nanoparticle and molecularly imprinted TiO2.
Biosensors and Bioelectronics, 65, 115-120, (2015)
Zhang CJ et al., Design of molecularly imprinted TiO2/carbon aerogel electrode for the photoelectrochemical determination of atrazine.
Sensors and Actuators B: Chemical, 211, 206-212, (2015)
Zhang CJ et al., Facile synthesis of Fe3O4/SiO2/molecularly imprinted hydroxyapatite nanocomposite and its enhanced photocatalytic degradation of target contaminant.
Separation and Purification Technology, 143, 88-93, (2015)
Journal of Instrumental Analysis, 27, (8), 866-869, (2008)
Duan DD et al., A novel molecularly imprinted electrochemical sensor based on double sensitization by MOF/CNTs and Prussian blue for detection of 17[beta]-estradiol.
Bioelectrochemistry, 129, 211-217, (2019)
Microchemical Journal, 159, Article105376-(2020)
Food and Fermentation Industries, 42, (4), 183-188, (2016)
Analytical Chemistry, 90, (5), 3165-3173, (2018)
Si Y et al., Photo-assisted electrochemical detection of bisphenol A in water samples by renewable {001}-exposed TiO2 single crystals.
Water Research, 157, 30-39, (2019)
Acta Academiae Medicinae CPAPF, 14, (6), 536-538, (2005)
Food Chemistry, 355, Article129656-(2021)
Frontiers in Chemistry, 6, Article674-(2019)
Synthetic Metals, 233, 79-85, (2017)
Biosensors and Bioelectronics, 191, Article113387-(2021)
IOSR Journal of Applied Chemistry, 1, (4), 15-19, (2012)
Abstracts of Papers of the American Chemical Society, 221, (ORGN), 108-108, (2001)
Spivak DA et al., Development of an aspartic acid-based cross-linking monomer for improved bioseparations.
Bioseparation, 10, (6), 331-336, (2002)
Sibrian-Vazquez M et al., Synthesis and characterization of a novel L-serine based crosslinking monomer for molecular imprinting.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 90-90, (2003)
Sibrian-Vazquez M et al., Enhanced enantioselectivity of molecularly imprinted polymers formulated with novel cross-linking monomers.
Macromolecules, 36, (14), 5105-5113, (2003)
Sibrian-Vazquez M et al., Improving the strategy and performance of molecularly imprinted polymers using cross-linking functional monomers.
Journal of Organic Chemistry, 68, (25), 9604-9611, (2003)
Spivak DA et al., Shape selectivity in non-covalently imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 712-712, (2003)
Sibrian-Vazquez M et al., Characterization of molecularly imprinted polymers employing crosslinkers with nonsymmetric polymerizable groups.
Journal of Polymer Science Part A: Polymer Chemistry, 42, (15), 3668-3675, (2004)
Sibrian-Vazquez M et al., Molecular imprinting made easy.
Journal of the American Chemical Society, 126, (25), 7827-7833, (2004)
Spivak DA et al., Development of one monomer molecularly imprinted polymers (OmniMIPs).
Polymer Preprints, 46, (2), 1103-1104, (2005)
Spivak DA et al., Development of one monomer molecularly imprinted polymers (OMNiMIPs).
Abstracts of Papers of the American Chemical Society, 230, 297-POLY, (2005)
Spivak DA et al., Omnimips: One monomer molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 229, U526-U527, (2005)
Spivak DA et al., Proceeding, Discovery and Development of OMNiMIPs: One MoNomer Molecularly Imprinted Polymers,
Guymon A, Hoyle C, Shirai M, Nelson E (Eds.), Paper No. 1005-Q05-05, (2007)
Wang JL et al., Templated polymers enable selective capture and release of lysophosphatidic acid in human plasma via optimization of non-covalent binding to functional monomers.
Analyst, 140, (22), 7572-7577, (2015)
Nano Research, 10, (3), 1056-1063, (2017)
International Journal of Environmental Science and Technology, 10, (5), 1091-1102, (2013)
Sid Kalal H et al., Adsorption of Strontium (II) on new ion-imprinted solid-phase support: determination, isotherms, thermodynamic and kinetic studies.
Caspian Journal of Environmental Sciences, 11, (1), 53-63, (2013)
Environmental Science and Pollution Research, 25, (4), 3320-3334, (2018)
Journal of Environmental Chemical Engineering, 7, (3), Article103068-(2019)
Journal of Food Composition and Analysis, 43, 25-38, (2015)
Rovina K et al., Extraction, Analytical and Advanced Methods for Detection of Allura Red AC (E129) in Food and Beverages Products.
Frontiers in Microbiology, 7, ArticleNo798-(2016)
Rovina K et al., A Review of Extraction and Analytical Methods for the Determination of Tartrazine (E 102) in Foodstuffs.
Critical Reviews in Analytical Chemistry, 47, (4), 309-324, (2017)
Analytica Chimica Acta, 435, (1), 107-113, (2001)
International Journal of Pharmaceutical Investigation, 11, (3), 269-273, (2021)
Journal of Materials Research and Technology, 8, (1), 1400-1411, (2019)
Journal of Materials Research and Technology, 7, (3), 270-282, (2018)
Ahmad I et al., Synthesis and characterization of molecularly imprinted magnetite nanomaterials as a novel adsorbent for the removal of heavy metals from aqueous solution.
Journal of Materials Research and Technology, 8, (5), 4239-4252, (2019)
Ahmad I et al., Synthesis and characterization of molecularly imprinted ferrite (SiO2@Fe2O3) nanomaterials for the removal of nickel (Ni2+ ions) from aqueous solution.
Journal of Materials Research and Technology, 8, (1), 1400-1411, (2019)
Reactive Polymers, Ion Exchangers, Sorbents, 1, (4), 295-300, (1983)
Macromolecular Chemistry And Physics, 202, (1), 163-171, (2001)
Journal of Chromatography, 347, (1), 11-23, (1985)
Analyst, 137, (23), 5457-5482, (2012)
Journal of Pharmaceutical Sciences, 100, (10), 4401-4412, (2011)
Journal of Biological Inorganic Chemistry, 9, (2), 195-202, (2004)
Journal of Agricultural and Food Chemistry, 44, (1), 141-145, (1996)
Senholdt M et al., Determination of cyclosporin A and metabolites total concentration using a molecularly imprinted polymer based radioligand binding assay.
Analytical Letters, 30, (10), 1809-1821, (1997)
Siemann M et al., Separation and detection of macrolide antibiotics by HPLC using macrolide-imprinted synthetic polymers as stationary phases.
Journal of Antibiotics, 50, (1), 89-91, (1997)
Analytical and Bioanalytical Chemistry, 403, (10), 3025-3029, (2012)
Morante-Zarcero S et al., Comparative HPLC methods for [beta]-blockers separation using different types of chiral stationary phases in normal phase and polar organic phase elution modes. Analysis of propranolol enantiomers in natural waters.
Journal of Pharmaceutical and Biomedical Analysis, 62, (1), 33-41, (2012)
Morante-Zarcero S et al., Simultaneous Enantiomeric Determination of Propranolol, Metoprolol, Pindolol, and Atenolol in Natural Waters by HPLC on New Polysaccharide-Based Stationary Phase using a Highly Selective Molecularly Imprinted Polymer Extraction.
Chirality, 24, (10), 860-866, (2012)
Gańán J et al., Evaluation of a molecularly imprinted polymer for determination of steroids in goat milk by matrix solid phase dispersion.
Talanta, 126, 157-162, (2014)
Pérez-Quintanilla D et al., Factors affecting Hg(II) adsorption on hybrid nanostructured silicas: influence of the synthesis conditions.
Journal of Porous Materials, 21, (1), 71-80, (2014)
Pérez-Quintanilla D et al., Preparation of hybrid organic-inorganic mesoporous silicas applied to mercury removal from aqueous media: Influence of the synthesis route on adsorption capacity and efficiency.
Journal of Colloid and Interface Science, 472, 126-134, (2016)
Sierra I et al., Approaches for enantioselective resolution of pharmaceuticals by miniaturised separation techniques with new chiral phases based on nanoparticles and monolithis.
Electrophoresis, 37, (19), 2538-2553, (2016)
Casado N et al., Current development and applications of ordered mesoporous silicas and other sol-gel silica-based materials in food sample preparation for xenobiotics analysis.
TrAC Trends in Analytical Chemistry, 88, 167-184, (2017)
Gańán J et al., Evaluation of mesoporous imprinted silicas as MSPD selective sorbents of ketoprofen in powder milk.
Materials Letters, 197, 5-7, (2017)
Analyst, 131, (1), 98-105, (2006)
Advances in Colloid and Interface Science, 233, 25-37, (2016)
Advances in Colloid and Interface Science, 147-148, 88-108, (2009)
Chemistry of Materials, 20, (3), 768-781, (2008)
The Reporter, 46, (May), 16-17, (2011)
Siewing A, The Extraction of Acid NSAIDs from Muscle Tissue using Molecularly Imprinted Polymer SPE.
The Reporter, 29, (1), 18-19, (2011)
Nano Letters, 17, (4), 2307-2312, (2017)
Doklady Biochemistry and Biophysics, 464, (1), 275-278, (2015)
Shumyantseva VV et al., Electrosynthesis and binding properties of molecularly imprinted poly-o-phenylenediamine for selective recognition and direct electrochemical detection of myoglobin.
Biosensors and Bioelectronics, 86, 330-336, (2016)
Shumyantseva VV et al., Electroanalysis of myoglobin based on electropolymerized molecularly imprinted polymer poly-o-phenylenediamine and carbon nanotubes/screen printed electrode.
Doklady Biochemistry and Biophysics, 468, (1), 213-216, (2016)
Shumyantseva VV et al., Polymer matrices with molecular memory as affine adsorbents for the determination of myoglobin as a cardiac marker of acute myocardial infarction by voltammetry.
Journal of Analytical Chemistry, 72, (4), 410-414, (2017)
Shumyantseva VV et al., Molecular imprinting coupled with electrochemical analysis for plasma samples classification in acute myocardial infarction diagnostic.
Biosensors and Bioelectronics, 99, 216-222, (2018)
Analytical Chemistry, 74, (16), 4184-4190, (2002)
RSC Advances, 6, (56), 50414-50422, (2016)
In: Dynamic Combinatorial Chemistry, Reek JNH, Otto S (Eds.) Wiley-VCH: Weinheim, Germany, Ch. 6, 151-168, (2010)
Journal of Environmental Health Science and Engineering, 12, (1), Article No 82-(2014)
Materials Science and Engineering: C, 100, 1-10, (2019)
281-283, (1998)
Dickert FL et al., Proceeding, Chemical microsensors with molecularly imprinted sensitive layers,
Buettgenbach S (Ed.), 114-122, (1998)
Dickert FL et al., Supramolecular strategies in chemical sensing.
Materials Science & Engineering C-Biomimetic And Supramolecular Systems, 10, (1-2), 39-46, (1999)
Dickert FL et al., Book chapter, Development of materials for chemical sensors - From molecular cavities to imprinting techniques,
In: Smart Material Systems, Vincenzini P (Ed.) 175-182, (1999)
Dickert FL et al., Sensors based on fingerprints of neutral and ionic analytes in polymeric materials.
Sensors and Actuators B: Chemical, 76, (1-3), 295-298, (2001)
Dickert FL et al., Proceeding, Moulding of polymers for chemical sensors - Strategies of analyte detection and mixture characterization,
Vo-Dinh T, Buettgenbach S (Eds.), 57-64, (2001)
Latif U et al., Dual and tetraelectrode QCMs using imprinted polymers as receptors for ions and neutral analytes.
Analytical and Bioanalytical Chemistry, 400, (8), 2507-2515, (2011)
Analytical Chemistry, 84, (10), 4481-4488, (2012)
Journal of Liquid Chromatography & Related Technologies, 44, (3-4), 181-188, (2021)
Analytical and Bioanalytical Chemistry, 409, (13), 3393-3405, (2017)
International Journal of Biological Macromolecules, 131, 134-146, (2019)
Carbohydrate Polymers, 194, 274-284, (2018)
Journal of Chromatography A, 1314, 115-123, (2013)
Kadhirvel P et al., Chromatographycally efficient microspherical composites of molecularly imprinted xerogels deposited inside mesoporous silica.
Journal of Chromatography A, 1355, 158-163, (2014)
Kadhirvel P et al., Recognitive nano-thin-film composite beads for the enantiomeric resolution of the metastatic breast cancer drug aminoglutethimide.
Journal of Chromatography A, 1358, 93-101, (2014)
Kadhirvel P et al., Aminoglutethimide-imprinted xerogels in bulk and spherical formats, based on a multifunctional organo-alkoxysilane precursor.
Journal of Chromatography A, 1424, 59-68, (2015)
Ornelas M et al., Naproxen-imprinted xerogels in the micro- and nanospherical forms by emulsion technique.
Journal of Chromatography A, 1422, 43-52, (2015)
Ornelas M et al., Acylated-naproxen as the surface-active template in the preparation of micro- and nanospherical imprinted xerogels by emulsion techniques.
Journal of Chromatography A, 1437, 107-115, (2016)
Perez M et al., Measurement artifacts identified in the UV-vis spectroscopic study of adduct formation within the context of molecular imprinting of naproxen.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 153, 661-668, (2016)
Ferreira VRA et al., Preparation and evaluation of Pb(II)-imprinted fucoidan-based sorbents.
Reactive and Functional Polymers, 115, 53-62, (2017)
Ribeiro JA et al., Electrochemical detection of cardiac biomarker myoglobin using polyphenol as imprinted polymer receptor.
Analytica Chimica Acta, 981, 41-52, (2017)
Ferreira VRA et al., Molecularly imprinted polymers for enhanced impregnation and controlled release of l-tyrosine.
Reactive and Functional Polymers, 131, 283-292, (2018)
Ferreira VRA et al., Cationic imprinting of Pb(II) within composite networks based on bovine or fish chondroitin sulfate.
Journal of Molecular Recognition, 31, (3), ArticleNoe2614-(2018)
Ribeiro JA et al., Disposable electrochemical detection of breast cancer tumour marker CA 15-3 using poly(Toluidine Blue) as imprinted polymer receptor.
Biosensors and Bioelectronics, 109, 246-254, (2018)
Rebelo TSCR et al., Molecularly imprinted polymer SPE sensor for analysis of CA-125 on serum.
Analytica Chimica Acta, 1082, 126-135, (2019)
Biosensors and Bioelectronics, 77, 978-985, (2016)
Journal of Chromatography B, 1061, 399-410, (2017)
Silva CF et al., Rational design of a molecularly imprinted polymer for dinotefuran: theoretical and experimental studies aimed at the development of an efficient adsorbent for microextraction by packed sorbent.
Analyst, 143, (1), 141-149, (2018)
Silva CF et al., Computational study on acetamiprid-molecular imprinted polymer.
Journal of Molecular Modeling, 25, (4), Article104-(2019)
Nascimento TA et al., Magnetic molecularly imprinted conducting polymer for determination of praziquantel enantiomers in milk.
Analyst, 145, (12), 4245-4253, (2020)
Teixeira LS et al., Microextraction by packed molecularly imprinted polymer to selectively determine caffeine in soft and energy drinks.
Microchemical Journal, 158, Article105252-(2020)
Ferreira JB et al., Molecularly imprinted polymers as a selective sorbent for forensic applications in biological samples - a review.
Analytical and Bioanalytical Chemistry, 413, (24), 6013-6036, (2021)
Silva CF et al., Molecularly imprinted polymer for thiacloprid: a theoretical investigation [POLÍMERO DE IMPRESSĂO MOLECULAR PARA O TIACLOPRIDO: UMA INVESTIGAÇĂO TEÓRICA].
Quimica Nova, 43, (10), 1439-1446, (2021)
Teixeira RA et al., Microextraction by packed molecularly imprinted polymer followed by ultra-high performance liquid chromatography for determination of fipronil and fluazuron residues in drinking water and veterinary clinic wastewater.
Microchemical Journal, 168, Article106405-(2021)
Progress in Polymer Science, 38, (3-4), 445-461, (2013)
Environmental Pollution, 165, (1), 38-58, (2012)
Talanta, 184, 87-92, (2018)
Sensors and Actuators B: Chemical, 253, 180-186, (2017)
Analytica Chimica Acta, 802, 40-45, (2013)
Ornelas M et al., Synthesis of glycylglycine-imprinted silica microspheres through different water-in-oil emulsion techniques.
Journal of Chromatography A, 1297, 138-145, (2013)
Rebelo TSCR et al., Protein imprinted materials designed with charged binding sites on screen-printed electrode for microseminoprotein-beta determination in biological samples.
Sensors and Actuators B: Chemical, 223, 846-852, (2016)
Rebelo TSCR et al., Protein Imprinted Material electrochemical sensor for determination of Annexin A3 in biological samples.
Electrochimica Acta, 190, 887-893, (2016)
International Journal of Electrochemical Science, 13, 10564-10586, (2018)
Current Opinion in Solid State & Materials Science, 6, (4), 297-312, (2002)
Sensors and Actuators B: Chemical, 219, 301-307, (2015)
Ribeiro CM et al., Application of a nanostructured platform and imprinted sol-gel film for determination of chlorogenic acid in food samples.
Talanta, 156-157, 119-125, (2016)
Journal of Materials Research and Technology, 15, 511-523, (2021)
Journal of Food Science and Technology, 52, (12), 7735-7746, (2015)
Acta Biomaterialia, 41, 302-311, (2016)
Sierra I et al., Approaches for enantioselective resolution of pharmaceuticals by miniaturised separation techniques with new chiral phases based on nanoparticles and monolithis.
Electrophoresis, 37, (19), 2538-2553, (2016)
Polimeros-Ciencia e Tecnologia, 25, (6), 596-605, (2015)
TrAC Trends in Analytical Chemistry, 71, 9-25, (2015)
Sensors and Actuators B: Chemical, 256, 905-912, (2018)
Journal of Chromatographic Science, 57, (7), 671-678, (2019)
Pereira AC et al., Synthesis and characterization of molecularly imprinted polymer for ethinylestradiol.
Chemical Papers, 73, (1), 141-149, (2019)
Journal of Chromatography A, 1114, (2), 216-223, (2006)
Pilau EJ et al., Molecularly imprinted sol-gel silica for solid phase extraction of phenobarbital.
Journal of the Brazilian Chemical Society, 19, (6), 1136-1143, (2008)
Augusto F et al., New sorbents for extraction and microextraction techniques.
Journal of Chromatography A, 1217, (16), 2533-2542, (2010)
Silva RGC et al., Molecularly imprinted silica as a selective SPE sorbent for triazine herbicides.
Journal of Separation Science, 33, (9), 1319-1324, (2010)
Santos JL, Culshaw B, Lopez-Higuera JM, MacPherson WN (Eds.), Art. No. 76531N, (2010)
Queirós RB et al., Microcystin-LR detection in water by the Fabry-Pérot interferometer using an optical fibre coated with a sol-gel imprinted sensing membrane.
Biosensors and Bioelectronics, 26, (9), 3932-3937, (2011)
International Journal of Electrochemistry, 2011, Article ID 643683-(2011)
Moreira FTC et al., Host-tailored sensors for leucomalachite green potentiometric measurements.
Journal of Chemistry, 2013, Article ID 605403-(2013)
International Journal of Electrochemical Science, 13, 10564-10586, (2018)
Journal of Applied Polymer Science, 134, (2), ArticleNo44401-ArticleNo44n/a, (2017)
Biosensors and Bioelectronics, 20, (6), 1083-1090, (2004)
Ciardelli G et al., Book chapter, Engineering membranes for molecular recognition,
In: Molecularly Imprinted Polymers-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 14, 91-96, (2004)
Silvestri D et al., Molecularly imprinted bioartificial membranes for the selective recognition of biological molecules.
Journal of Biomaterials Science-Polymer Edition, 15, (3), 255-278, (2004)
Ciardelli G et al., The relevance of the transfer of molecular information between natural and synthetic materials in the realisation of biomedical devices with enhanced properties.
Journal of Biomaterials Science-Polymer Edition, 16, (2), 219-236, (2005)
Coluccio ML et al., Surface modification of poly(ethylene-co-vinyl alcohol) membranes by molecular imprinting technique for biomedical application.
European Cells and Materials, 10, (Suppl 5), BS7-BS7, (2005)
Silvestri D et al., Polymeric devices containing imprinted nanospheres: a novel approach to improve recognition in water for clinical uses.
Analytica Chimica Acta, 542, (1), 3-13, (2005)
Silvestri D et al., Molecularly imprinted bioartificial membranes for the selective recognition of biological molecules. Part 2: Release of components and thermal analysis.
Journal of Biomaterials Science-Polymer Edition, 16, (3), 397-410, (2005)
Ciardelli G et al., Proceeding, Molecular imprinted nanostructures in biomedical applications,
561-567, (2006)
Ciardelli G et al., Supported imprinted nanospheres for the selective recognition of cholesterol.
Biosensors and Bioelectronics, 21, (12), 2329-2338, (2006)
Silvestri D et al., Poly(ethylene-co-vinyl alcohol) membranes with specific adsorption properties for potential clinical application.
Desalination, 199, (1-3), 138-140, (2006)
Silvestri D et al., Molecularly imprinted membranes for an improved recognition of biomolecules in aqueous medium.
Journal of Membrane Science, 282, (1-2), 284-295, (2006)
Silvestri D et al., Composite membranes modified with recognition-able nanobeads as potential adsorbers for purification of biological fluids.
Journal of Applied Biomaterials & Biomechanics, 5, (3), 166-175, (2007)
Silvestri D et al., Poly(ethylene-co-vinyl alcohol) Membranes with Specific Adsorption Properties for Potential Clinical Application.
Separation Science and Technology, 42, (13), 2829-2847, (2007)
Silvestri D et al., Specific adsorbents (columns or membranes) through molecular imprinting technology for selected biological molecules.
Journal of Applied Biomaterials & Biomechanics, 5, (3), 219-219, (2007)
Pegoraro C et al., Molecularly imprinted poly(ethylene-co-vinyl alcohol) membranes for the specific recognition of phospholipids.
Biosensors and Bioelectronics, 24, (4), 748-755, (2008)
Silvestri D et al., Book chapter, Bioartificial Polymer Matrices as Biomaterials with Enzymatically Controlled Functional Properties,
In: Polymer Biocatalysis and Biomaterials II, Cheng HN, Gross RA (Eds.) American Chemical Society: Washington, DC, Ch. 4, 52-75, (2008)
Morelli I et al., Molecularly imprinted submicronspheres for applications in a novel model biosensor-film.
Sensors and Actuators B: Chemical, 150, (1), 394-401, (2010)
Silvestri D et al., Non Conventional Surface Functionalization of Porous Poly-[epsilon]-Caprolactone Scaffolds Using Bioactive Molecularly Imprinted Nanospheres.
Biomedical Engineering-Applications Basis Communications, 22, (5), 337-349, (2010)
Borrelli C et al., Selective Depletion of Riboflavine from Beer Using Membranes Incorporating Imprinted Polymer Particles.
Journal of Food Processing and Preservation, 35, (1), 112-128, (2011)
European Polymer Journal, 87, 124-135, (2017)
Chemistry - A European Journal, 14, (31), 9516-9529, (2008)
Industrial Crops and Products, 60, 226-232, (2014)
Revue Roumaine de Chimie, 52, (8-9), 875-+, (2007)
David G et al., Functional micro- and nanoparticles - A possible tool for nanostructured materials.
Revue Roumaine de Chimie, 52, (1-2), 105-112, (2007)
Revue Roumaine de Chimie, 52, (1-2), 105-112, (2007)
Revue Roumaine de Chimie, 52, (8-9), 875-+, (2007)
RSC Advances, 10, (10), 5978-5987, (2020)
Analyst, 144, (14), 4266-4280, (2019)
Abstracts of Papers of the American Chemical Society, 225, (POLY), 712-712, (2003)
Spivak DA et al., Evidence for shape selectivity in non-covalently imprinted polymers.
Analytica Chimica Acta, 504, (1), 23-30, (2004)
Simon R et al., Comparison of particle size and flow rate optimization for chromatography using one-monomer molecularly imprinted polymers versus traditional non-covalent molecularly imprinted polymers.
Analytica Chimica Acta, 542, (1), 104-110, (2005)
Simon R et al., Shape selectivity versus functional group pre-organization in molecularly imprinted polymers.
Analytica Chimica Acta, 591, (1), 7-16, (2007)
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 91-91, (2003)
Simon RL et al., Origins of selectivity in noncovalent molecular imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 89-89, (2003)
Simon RL et al., Performance analysis of molecularly imprinted polymers for carboxylate and aminophosphate templates using commercially available basic functional monomers.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 203-209, (2004)
Journal of the Chemical Society-Perkin Transactions 2, (8), 1261-1265, (1991)
Journal of Chromatography A, 1218, (4), 620-637, (2011)
Journal of Physical Chemistry Letters, 1, (1), 260-264, (2009)
Investigational New Drugs, 29, (5), 1081-1089, (2011)
Journal of Supercritical Fluids, 39, (1), 102-106, (2006)
In: Guide to Protein Purification, Burgess RR, Deutscher MP (Eds.) Academic Press: Ch. 26, 417-438, (2009)
Lacoste H (Ed.), 513-514, (2002)
Sims MR et al., The specific molecular identification of life experiment (SMILE).
Planetary and Space Science, 53, (8), 781-791, (2005)
Alanazi K et al., Disposable paracetamol sensor based on electroactive molecularly imprinted polymer nanoparticles for plasma monitoring.
Sensors and Actuators B: Chemical, 329, Article129128-(2021)
Microchimica Acta, 184, (9), 3389-3397, (2017)
Journal of Polymer Research, 21, (3), Article No 368-(2014)
Garcia R et al., Development of a selective sorbent for the solid-phase extraction of terbuthylazine in olive oil samples: A molecular imprinting strategy.
Journal of Separation Science, 38, (7), 1204-1212, (2015)
Martins N et al., An emerging approach for the targeting analysis of dimethoate in olive oil: The role of molecularly imprinted polymers based on photo-iniferter induced "living" radical polymerization.
Reactive and Functional Polymers, 86, 37-46, (2015)
Electrophoresis, 39, (20), 2581-2589, (2018)
de Oliveira HL et al., Microextraction by packed sorbent using a new restricted molecularly imprinted polymer for the determination of estrogens from human urine samples.
Microchemical Journal, 150, Article104162-(2019)
de Oliveira HL et al., Novel restricted access material combined to molecularly imprinted polymer for selective magnetic solid-phase extraction of estrogens from human urine.
Microchemical Journal, 149, Article104043-(2019)
Progress in Polymer Science, 38, (3-4), 445-461, (2013)
Talanta, 99, 833-839, (2012)
Mothéré M et al., Poly(ethylene glycol acrylate)-functionalized hydrogels for heparan sulfate oligosaccharide recognition.
Journal of Molecular Recognition, 30, (3), ArticleNo:e2584-(2017)
Advanced Functional Materials, 23, (14), 1789-1797, (2013)
Tian LM et al., Gold nanocages with built-in artificial antibodies for label-free plasmonic biosensing.
Journal of Materials Chemistry B, 2, (2), 167-170, (2014)
Luan JY et al., PEGylated Artificial Antibodies: Plasmonic Biosensors with Improved Selectivity.
ACS Applied Materials & Interfaces, 8, (36), 23509-23516, (2016)
Hu R et al., Aromatic Functionality of Target Proteins Influences Monomer Selection for Creating Artificial Antibodies on Plasmonic Biosensors.
ACS Applied Materials & Interfaces, 9, (1), 145-151, (2017)
Wang CZ et al., Single Molecule Force Spectroscopy to Compare Natural versus Artificial Antibody-Antigen Interaction.
Small, 13, (19), ArticleNo1604255-(2017)
Luan JY et al., Environmental Stability of Plasmonic Biosensors Based on Natural versus Artificial Antibody.
Analytical Chemistry, 90, (13), 7880-7887, (2018)
In: Surface-controlled nanoscale materials for high added value, Gonsalves KE, Baraton M-I, Singh R, Hofmann H, Chen JX, Akkara JA (Eds.) Materials Research Society: Warrendale, Ch. 57, 199-207, (1998)
Singh A et al., Towards achieving selectivity in metal ion binding by fixing ligand-chelator complex geometry in polymers.
Reactive and Functional Polymers, 44, (1), 79-89, (2000)
Cui A et al., Enzyme-based molecular imprinting with metals.
Biomacromolecules, 3, (6), 1353-1358, (2002)
Singh A et al., Horseradish peroxidase-catalysed combinatorial molecular imprinting.
Abstracts of Papers of the American Chemical Society, 223, (ORGN), 011-011, (2002)
Chauhan A et al., Application of nano-sized multi-template imprinted polymer for simultaneous extraction of polycyclic aromatic hydrocarbon metabolites in urine samples followed by ultra-high performance liquid chromatographic analysis.
Journal of Chromatography B, 985, 110-118, (2015)
Separation Science and Technology, 44, (8), 1829-1850, (2009)
Bioanalysis, 5, (7), 847-858, (2013)
Singh AK et al., QCM sensing of melphalan via electropolymerized molecularly imprinted polythiophene films.
Biosensors and Bioelectronics, 74, 711-717, (2015)
Singh AK et al., Book chapter, Molecularly Imprinted Polymers for Pharmaceutical Applications,
In: Handbook of Polymers for Pharmaceutical Technologies, Bioactive and Compatible Synthetic/Hybrid Polymers, Thakur VK, Thakur MK (Eds.) John Wiley & Sons: Ch. 2, 17-66, (2015)
Singh AK et al., Mesalmine Targeted Water-Compatible Molecularly Imprinted Polymer-Silver Nanoparticles with Surface-Enhanced Raman Spectroscopic (SERS) and Voltammetric Detection.
Sensor Letters, 14, (1), 76-83, (2016)
Singh AK et al., Designing L-serine targeted molecularly imprinted polymer via theoretical investigation.
Journal of Theoretical and Computational Chemistry, 15, (5), ArticleNo1650041-(2016)
Singh AK et al., Molecularly imprinted Au-nanoparticle composite-functionalized EQCM sensor for l-serine.
Journal of Electroanalytical Chemistry, 780, 169-175, (2016)
Singh AK et al., Electrochemical and piezoelectric monitoring of taurine via electropolymerized molecularly imprinted films.
Journal of Molecular Recognition, 30, (12), ArticleNoe2652-(2017)
Kushwaha A et al., Synthesis and characterization of antipyrine-imprinted polymers and their application for sustained release.
Polymer Bulletin, 75, (11), 5235-5252, (2018)
Kushwaha A et al., Epitope imprinting of Mycobacterium leprae bacteria via molecularly imprinted nanoparticles using multiple monomers approach.
Biosensors and Bioelectronics, 145, Article111698-(2019)
Kushwaha A et al., Development of highly sensitive and selective sensor for ethionamide guided by molecular modelling via electropolymerized molecularly imprinted films.
Microchemical Journal, 152, Article104355-(2020)
Singh AK et al., A simple detection platform based on molecularly imprinted polymer for AFB1 and FuB1 mycotoxins.
Microchemical Journal, 171, Article106730-(2021)
Harijan M et al., Design of molecularly imprinted sensor for detection of typhoid using immunoinformatics and molecular imprinting.
Biosensors and Bioelectronics: X, 10, Article100090-(2022)
Biosensors and Bioelectronics, 21, (12), 2339-2344, (2006)
Baghel A et al., Synthesis and characterization of metal ion imprinted nano-porous polymer for the selective recognition of copper.
Biosensors and Bioelectronics, 22, (12), 3326-3334, (2007)
Singh B et al., Preliminary evaluation of molecular imprinting of 5-fluorouracil within hydrogels for use as drug delivery systems.
Acta Biomaterialia, 4, (5), 1244-1254, (2008)
Singh B et al., Molecular Imprinted Polymers for use as Drug Delivery Devices: Preliminary Evaluation.
Journal of Macromolecular Science, Part A, 45, (9), 776-784, (2008)
Pradhan S et al., Molecularly imprinted nanopatterns for the recognition of biological warfare agent ricin.
Biosensors and Bioelectronics, 25, (3), 592-598, (2009)
Gupta G et al., Molecularly imprinted polymer for the recognition of biological warfare agent staphylococcal enterotoxin B based on Surface Plasmon Resonance.
Thin Solid Films, 519, (3), 1115-1121, (2010)
Gupta G et al., Supersensitive detection of T-2 toxin by the in situ synthesized [pi]-conjugated molecularly imprinted nanopatterns. An in situ investigation by surface plasmon resonance combined with electrochemistry.
Biosensors and Bioelectronics, 26, (5), 2534-2540, (2011)
Singh B et al., Design of Molecular Imprinted Hydrogels for Controlled Release of Cisplatin: Evaluation of Network Density of Hydrogels.
Industrial & Engineering Chemistry Research, 50, (24), 13742-13751, (2011)
Kaur K et al., Micelle enhanced and terbium sensitized spectrofluorimetric determination of danofloxacin in milk using molecularly imprinted solid phase extraction.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 96, 790-795, (2012)
Singh B et al., Recent Advances in Sample Preparation Methods for Analysis of Endocrine Disruptors from Various Matrices.
Critical Reviews in Analytical Chemistry, 44, (3), 255-269, (2014)
Chromatographia, 70, (11), 1539-1545, (2009)
Singh DK et al., Synthesis and characterization of UO22+-ion imprinted polymer for selective extraction of UO22+.
Analytica Chimica Acta, 644, (1-2), 42-47, (2009)
Singh DK et al., Synthesis, characterization and removal of Cd(II) using Cd(II)-ion imprinted polymer.
Journal of Hazardous Materials, 164, (2-3), 1547-1551, (2009)
Singh DK et al., Synthesis, characterization and analytical applications of Ni(II)-ion imprinted polymer.
Applied Surface Science, 256, (24), 7632-7637, (2010)
Singh DK et al., Synthesis and characterization of Hg(II)-ion-imprinted polymer: Kinetic and isotherm studies.
Desalination, 257, (1-3), 177-183, (2010)
Singh DK et al., Synthesis and characterization of Fe(III)-ion imprinted polymer for recovery of Fe(III) from water samples.
Journal of Scientific and Industrial Research, 69, (10), 767-772, (2010)
Mishra S et al., Th(IV) ion-imprinted polymer for selective solid-phase extraction of Th(IV) and its analytical applications.
Desalination and Water Treatment, 56, (5), 1364-1371, (2015)
Journal of Analytical Chemistry, 70, (10), 1213-1217, (2015)
Aggarwal S et al., Synthesis and characterization of oxytetracycline imprinted magnetic polymer for application in food.
Applied Nanoscience, 6, (2), 209-214, (2016)
Biosensors and Bioelectronics, 81, 532-545, (2016)
Journal of Basic and Clinical Pharmacy, 2, (2), 87-101, (2011)
Singh K et al., Computational and Experimental Studies of Molecularly Imprinted Polymers for Organochlorine Pesticides Heptachlor and DDT.
Current Analytical Chemistry, 8, (4), 562-568, (2012)
Singh K et al., Preparation of molecularly imprinted polymers for heptachlor: An organochlorine pesticide.
Chronicles of Young Scientists, 4, (1), 46-50, (2013)
Ingole PG et al., Enantiomeric separation of [alpha]-amino acids by imprinted terpolymer membrane.
Arabian Journal of Chemistry, 9, (Supplement 2), S960-S965, (2016)
Prasad BB et al., An electroconducting copper (II) imprinted sensor using algae as cheap substitute of multiwalled carbon nanotubes.
Electrochimica Acta, 187, 193-203, (2016)
Prasad BB et al., Development of highly electrocatalytic and electroconducting imprinted film using Ni nanomer for ultra-trace detection of thiamine.
Sensors and Actuators B: Chemical, 246, 38-45, (2017)
Prasad BB et al., Ultra-trace analysis of d-and l-aspartic acid applying one-by-one approach on a dual imprinted electrochemical sensor.
Sensors and Actuators B: Chemical, 240, 631-639, (2017)
Prasad BB et al., Molecularly imprinted polymer-based core-shells (solid vs hollow) @ pencil graphite electrode for electrochemical sensing of certain anti-HIV drugs.
Sensors and Actuators B: Chemical, 244, 167-174, (2017)
Singh K et al., One-by-one imprinting in two eccentric layers of hollow core-shells: Sequential electroanalysis of anti-HIV drugs.
Biosensors and Bioelectronics, 111, 82-89, (2018)
Fatma S et al., A reduced graphene oxide ceramic electrode modified with one MoNomer doubly imprinted acryloylated tetraamine cobalt phthalocyanine polymer for the simultaneous analysis of anticancerous drugs.
Sensors and Actuators B: Chemical, 281, 139-149, (2019)
Fatma S et al., Electrochemical simultaneous analysis of dopamine and epinephrine using double imprinted One MoNomer acryloylated graphene oxide-carbon black composite polymer.
Biosensors and Bioelectronics, 135, 36-44, (2019)
Jaiswal S et al., Enantioselective analysis of D- and l- Serine on a layer-by-layer imprinted electrochemical sensor.
Biosensors and Bioelectronics, 124-125, 176-183, (2019)
Ionics, 16, (6), 529-537, (2010)
Singh KP et al., Preparation of isoproturon and 2, 4-dichlorophenoxy acetic acid imprinted membranes: Ion transport study.
Desalination and Water Treatment, 24, (1-3), 176-189, (2010)
Mudiam MKR et al., Determination of t, t-muconic acid in urine samples using a molecular imprinted polymer combined with simultaneous ethyl chloroformate derivatization and pre-concentration by dispersive liquid-liquid microextraction.
Analytical and Bioanalytical Chemistry, 405, (1), 341-349, (2013)
Singh KP et al., Use of Isoproturon Imprinted Polymer Membranes as a Selective Recognition Platform in a Resistance Based Electrochemical Sensor.
Open Journal of Applied Biosensor, 2, (1), 20-28, (2013)
Singh KP et al., Selective Recognition and Detoxification of Deltamethrin Using Molecularly Imprinted Polymer (MIP) Matrices.
Analytical Chemistry Letters, 3, (1), 30-39, (2013)
Materials Science and Engineering: C, 45, 383-394, (2014)
Langmuir, 21, (20), 9322-9326, (2005)
Prasad BB et al., Molecularly imprinted polymer-based solid-phase microextraction fiber coupled with molecularly imprinted polymer-based sensor for ultratrace analysis of ascorbic acid.
Journal of Chromatography A, 1198-1199, (1-2), 59-66, (2008)
Prasad BB et al., Zwitterionic molecularly imprinted polymer-based solid-phase micro-extraction coupled with molecularly imprinted polymer sensor for ultra-trace sensing of L-histidine.
Journal of Separation Science, 32, (7), 1096-1105, (2009)
Prasad BB et al., Ultratrace analysis of uracil and 5-fluorouracil by molecularly imprinted polymer brushes grafted to silylated solid-phase microextraction fiber in combination with complementary molecularly imprinted polymer-based sensor.
Biomedical Chromatography, 23, (5), 499-509, (2009)
Prasad BB et al., Ultratrace Analysis of Dopamine Using a Combination of Imprinted Polymer-Brush-Coated SPME and Imprinted Polymer Sensor Techniques.
Chromatographia, 69, (9), 949-957, (2009)
Taranum N et al., Selective Recognition and Detection of L-Aspartic Acid by Molecularly Imprinted Polymer in Aqueous Solution.
American Journal of Analytical Chemistry, 2, (8), 909-918, (2011)
Tarannum N et al., Water-compatible surface imprinting of 'baclofen' on silica surface for selective recognition and detection in aqueous solution.
Analytical Methods, 4, (9), 3019-3026, (2012)
Singh M et al., Water-compatible 'aspartame'-imprinted polymer grafted on silica surface for selective recognition in aqueous solution.
Analytical and Bioanalytical Chemistry, 405, (12), 4245-4252, (2013)
Singh LK et al., Biopolymeric receptor for peptide recognition by molecular imprinting approach-Synthesis, characterization and application.
Materials Science and Engineering: C, 45, 383-394, (2014)
Singh LK et al., Biopolymeric receptor for peptide recognition by molecular imprinting approach-Synthesis, characterization and application.
Materials Science and Engineering: C, 45, 383-394, (2014)
Singh M et al., Selective recognition of fenbufen by surface-imprinted silica with iniferter technique.
Journal of Porous Materials, 21, (5), 677-684, (2014)
Singh AK et al., QCM sensing of melphalan via electropolymerized molecularly imprinted polythiophene films.
Biosensors and Bioelectronics, 74, 711-717, (2015)
Singh AK et al., Book chapter, Molecularly Imprinted Polymers for Pharmaceutical Applications,
In: Handbook of Polymers for Pharmaceutical Technologies, Bioactive and Compatible Synthetic/Hybrid Polymers, Thakur VK, Thakur MK (Eds.) John Wiley & Sons: Ch. 2, 17-66, (2015)
Gupta N et al., A Highly Sensitive and Selective Piezoelectric Molecularly Imprinted Sensor for RGD Peptides.
Sensor Letters, 14, (6), 616-622, (2016)
Gupta N et al., An epitope-imprinted piezoelectric diagnostic tool for Neisseria meningitidis detection.
Journal of Molecular Recognition, 29, (12), 572-579, (2016)
Singh AK et al., Mesalmine Targeted Water-Compatible Molecularly Imprinted Polymer-Silver Nanoparticles with Surface-Enhanced Raman Spectroscopic (SERS) and Voltammetric Detection.
Sensor Letters, 14, (1), 76-83, (2016)
Singh AK et al., Designing L-serine targeted molecularly imprinted polymer via theoretical investigation.
Journal of Theoretical and Computational Chemistry, 15, (5), ArticleNo1650041-(2016)
Singh AK et al., Molecularly imprinted Au-nanoparticle composite-functionalized EQCM sensor for l-serine.
Journal of Electroanalytical Chemistry, 780, 169-175, (2016)
Srivastava J et al., A biopolymeric nano-receptor for sensitive and selective recognition of albendazole.
Analytical Methods, 8, (5), 1026-1033, (2016)
Singh AK et al., Electrochemical and piezoelectric monitoring of taurine via electropolymerized molecularly imprinted films.
Journal of Molecular Recognition, 30, (12), ArticleNoe2652-(2017)
Singh M et al., Epitope Imprinting Approach to Monitor Diseases.
Journal of Molecular and Genetic Medicine, (2017)
Gupta N et al., Epitope imprinting of iron binding protein of Neisseria meningitidis bacteria through multiple monomers imprinting approach.
Journal of Molecular Recognition, 31, (7), ArticleNoe2709-(2018)
Kushwaha A et al., Synthesis and characterization of antipyrine-imprinted polymers and their application for sustained release.
Polymer Bulletin, 75, (11), 5235-5252, (2018)
Kushwaha A et al., Epitope imprinting of Mycobacterium leprae bacteria via molecularly imprinted nanoparticles using multiple monomers approach.
Biosensors and Bioelectronics, 145, Article111698-(2019)
Srivastava J et al., Highly sensitive and selective estimation of aspartame by chitosan nanoparticles - graphene nanocomposite tailored EQCM-MIP sensor.
Polymer Bulletin, 76, (9), 4431-4449, (2019)
Srivastava J et al., Glycoprotein imprinted RGO-starch nanocomposite modified EQCM sensor for sensitive and specific detection of transferrin.
Journal of Electroanalytical Chemistry, 835, 169-177, (2019)
Kushwaha A et al., Development of highly sensitive and selective sensor for ethionamide guided by molecular modelling via electropolymerized molecularly imprinted films.
Microchemical Journal, 152, Article104355-(2020)
Harijan M et al., Design of molecularly imprinted sensor for detection of typhoid using immunoinformatics and molecular imprinting.
Biosensors and Bioelectronics: X, 10, Article100090-(2022)
Ionics, 16, (6), 529-537, (2010)
Singh KP et al., Selective Recognition and Detoxification of Deltamethrin Using Molecularly Imprinted Polymer (MIP) Matrices.
Analytical Chemistry Letters, 3, (1), 30-39, (2013)
Bhatia T et al., Sol-gel approach for extracting highly versatile aspirin and its metabolites using MISPE followed by GC-MS/MS analysis.
Bioanalysis, 8, (8), 795-805, (2016)
Thin Solid Films, 519, (3), 1115-1121, (2010)
IEEE Sensors Journal, 20, (1), 39-46, (2020)
Analytical Chemistry Letters, 3, (1), 30-39, (2013)
Kaur P et al., Metal Assisted Approach to Develop Molecularly Imprinted Mesoporous Material Exhibiting Pockets for the Fast Uptake of Diethyl Phthalate as Copper Complex.
Analytical Sciences, 30, (5), 601-607, (2014)
Narula P et al., Recent Progress, Challenges and Prospects in Monitoring Plastic-Derived Xenoestrogens Using Molecularly Imprinted Sorbents.
Chromatographia, 77, (3-4), 207-221, (2014)
Narula P et al., Development of molecularly imprinted microspheres for the fast uptake of 4-cumylphenol from water and soil samples.
Journal of Separation Science, 37, (22), 3330-3338, (2014)
Ghai M et al., Imprinted silica nanoparticles coated with N-propylsilylmorpholine-4-carboxamide for the determination of m-cresol in synthetic and real samples.
Journal of Separation Science, 38, (19), 3442-3449, (2015)
Prasad BB et al., A new micro-contact imprinted l-cysteine sensor based on sol-gel decorated graphite/multiwalled carbon nanotubes/gold nanoparticles composite modified sandpaper electrode.
Sensors and Actuators B: Chemical, 212, 155-164, (2015)
Prasad BB et al., Development of imprinted polyneutral red/electrochemically reduced graphene oxide composite for ultra-trace sensing of 6-thioguanine.
Carbon, 102, 86-96, (2016)
Prasad BB et al., Development of water compatible imprinted polymer beads for piezoelectric sensing of ultra-trace 5, 6-dihydrouracil in biological fluids.
Sensors and Actuators B: Chemical, 235, 94-102, (2016)
Prasad BB et al., Molecularly imprinted polymer-based electrochemical sensor using functionalized fullerene as a nanomediator for ultratrace analysis of primaquine.
Carbon, 109, 196-207, (2016)
Prasad BB et al., Gold nanorods vs. gold nanoparticles: application in electrochemical sensing of cytosine [beta]-d-arabinoside using metal ion mediated molecularly imprinted polymer.
RSC Advances, 6, (84), 80679-80691, (2016)
Prasad BB et al., Development of highly electrocatalytic and electroconducting imprinted film using Ni nanomer for ultra-trace detection of thiamine.
Sensors and Actuators B: Chemical, 246, 38-45, (2017)
Prasad BB et al., Synthesis of novel monomeric graphene quantum dots and corresponding nanocomposite with molecularly imprinted polymer for electrochemical detection of an anticancerous ifosfamide drug.
Biosensors and Bioelectronics, 94, 1-9, (2017)
Prasad BB et al., Synthesis of fullerene (C60-monoadduct)-based water-compatible imprinted micelles for electrochemical determination of chlorambucil.
Biosensors and Bioelectronics, 94, 115-123, (2017)
Singh K et al., One-by-one imprinting in two eccentric layers of hollow core-shells: Sequential electroanalysis of anti-HIV drugs.
Biosensors and Bioelectronics, 111, 82-89, (2018)
Fatma S et al., A reduced graphene oxide ceramic electrode modified with one MoNomer doubly imprinted acryloylated tetraamine cobalt phthalocyanine polymer for the simultaneous analysis of anticancerous drugs.
Sensors and Actuators B: Chemical, 281, 139-149, (2019)
Fatma S et al., Electrochemical simultaneous analysis of dopamine and epinephrine using double imprinted One MoNomer acryloylated graphene oxide-carbon black composite polymer.
Biosensors and Bioelectronics, 135, 36-44, (2019)
Jaiswal S et al., Enantioselective analysis of D- and l- Serine on a layer-by-layer imprinted electrochemical sensor.
Biosensors and Bioelectronics, 124-125, 176-183, (2019)
Piletsky SS et al., Snapshot imprinting: rapid identification of cancer cell surface proteins and epitopes using molecularly imprinted polymers.
Nano Today, 41, Article101304-(2021)
Sensor Letters, 14, (1), 76-83, (2016)
Microchemical Journal, 171, Article106730-(2021)
Journal of Molecular Recognition, 31, (7), ArticleNoe2709-(2018)
Toxicon, 60, (5), 878-894, (2012)
Karfa P et al., Development of carbon dots modified fluorescent molecular imprinted Polymer@Ag/AgCl nanoparticle for hepatocellular carcinoma marker.
AIP Conference Proceedings, 1832, (1), ArticleNo050008-(2017)
Kumar S et al., Super paramagnetic iron oxide nanoparticle modified mancozeb imprinted polymer.
AIP Conference Proceedings, 1832, (1), ArticleNo050014-(2017)
Patra S et al., Imprinted magnetic graphene oxide for the mini-solid phase extraction of Eu (III) from coal mine area.
AIP Conference Proceedings, 1832, (1), ArticleNo050009-(2017)
Kushwaha A et al., Synthesis and characterization of antipyrine-imprinted polymers and their application for sustained release.
Polymer Bulletin, 75, (11), 5235-5252, (2018)
Pandey H et al., Carbon nanomaterials integrated molecularly imprinted polymers for biological sample analysis: A critical review.
Materials Chemistry and Physics, 239, Article121966-(2020)
RSC Advances, 6, (28), 23525-23536, (2016)
Analytica Chimica Acta, 578, (1), 59-74, (2006)
Pandey H et al., Carbon nanomaterials integrated molecularly imprinted polymers for biological sample analysis: A critical review.
Materials Chemistry and Physics, 239, Article121966-(2020)
Defence Life Science Journal, 4, (3), 153-157, (2019)
Separation Science and Technology, 44, (8), 1829-1850, (2009)
Electroanalysis, 28, (5), 920-935, (2016)
Defence Life Science Journal, 4, (3), 153-157, (2019)
E-Polymers, Art. No. 091-(2008)
Materials Letters, 306, Article130898-(2022)
Sensors and Actuators B: Chemical, 325, Article128973-(2020)
Journal of Molecular Recognition, 20, (3), 154-184, (2007)
Proceedings, 1, (4), ArticleNo510-(2017)
Chunta S et al., Sensing array based on molecularly imprinted polymers for simultaneous assessment of lipoproteins.
Sensors and Actuators B: Chemical, 298, Article126828-(2019)
Analytica Chimica Acta, 1029, 125-129, (2018)
Dhanjai et al., Advances in sensing and biosensing of bisphenols: A review.
Analytica Chimica Acta, 998, 1-27, (2018)
Advanced Functional Materials, 23, (1), 91-99, (2013)
Advanced Materials Letters, 2, (4), 294-297, (2011)
Journal of Materials Chemistry B, 2, (38), 6619-6625, (2014)
Scrivano L et al., Molecularly imprinted hydrogels for sustained release of sunitinib in breast cancer therapy.
Polymers for Advanced Technologies, 30, (3), 743-748, (2019)
Talanta, 220, Article121414-(2020)
Chemical Engineering Transactions, 70, 475-480, (2018)
Journal of Materials Chemistry, 15, (24), 2356-2361, (2005)
Journal of Separation Science, 34, (16-17), 1958-1973, (2011)
Macromolecules, 41, (21), 7834-7842, (2008)
Malosse L et al., Detection of degradation products of chemical warfare agents by highly porous molecularly imprinted microspheres.
Analyst, 133, (5), 588-595, (2008)
Separation and Purification Technology, 66, (3), 450-456, (2009)
Latin American Journal of Pharmacy, 28, (1), 70-79, (2009)
Biosensors and Bioelectronics, 191, Article113419-(2021)
Journal of Biomaterials Science-Polymer Edition, 31, (15), 1961-1976, (2020)
E-Polymers, Art. No. 117-(2007)
Abstracts of Papers of the American Chemical Society, 221, (AGRO), 61-61, (2001)
Journal of Chemical & Engineering Data, 59, (7), 2207-2214, (2014)
Laatikainen K et al., Effect of template ion-ligand complex stoichiometry on selectivity of ion-imprinted polymers.
Talanta, 134, 538-545, (2015)
Meouche W et al., Effect of porogen solvent on the properties of nickel ion imprinted polymer materials prepared by inverse suspension polymerization.
European Polymer Journal, 87, 124-135, (2017)
Udomsap D et al., Electrochemical molecularly imprinted polymers as material for pollutant detection.
Materials Today Communications, 17, 458-465, (2018)
Journal of the Taiwan Institute of Chemical Engineers, 45, (2), 338-346, (2014)
Journal of Physics: Conference Series, 1282, (1), Article012063-(2019)
Desalination and Water Treatment, 52, (10-12), 1885-1894, (2014)
Journal of Materials Chemistry B, 2, (38), 6619-6625, (2014)
Analytica Chimica Acta, 1186, Article339122-(2021)
Pure And Applied Chemistry, 85, (1), 211-223, (2013)
Djunaidi MC et al., Selective Transport of Fe(III) Using Polyeugenol as Functional Polymer with Ionic Imprinted Polymer Membrane Method.
Asian Journal of Chemistry, 27, (12), 4553-4562, (2015)
Djunaidi MC et al., Proceeding, Selective transport of Fe(III) using ionic imprinted polymer (IIP) membrane particle,
ArticleNo060001, (2015)
Djunaidi MC et al., Synthesis of Fe ionic-imprinted polyeugenol using polyethylene glycol diglycidilether as cross-linking agent for sorption of Fe(III).
Indonesian Journal of Chemistry, 15, (3), 305-314, (2015)
Analytica Chimica Acta, 1077, 255-265, (2019)
Journal of Applied Polymer Science, 66, (13), 2539-2542, (1997)
Sreenivasan K et al., Book chapter, Evaluation of a methyl b-cyclodextrin based molecularly imprinted copolymer as novel adsorbent for steroids,
In: Macromolecules - New Frontiers. Peoc. IUPAC Int. Symp. Adv. Polym. Sci. Technol, Srinivasan K (Ed.) Allied Publishers, Ltd: New Delhi, Ch. 2, 594-596, (1998)
Sreenivasan K et al., Imparting recognition sites in poly(HEMA) for two compounds through molecular imprinting.
Journal of Applied Polymer Science, 71, (11), 1823-1826, (1999)
Sreenivasan K et al., Ferric iron-containing molecularly imprinted polymer as an adsorbent for cholesterol.
Adsorption Science & Technology, 21, (3), 261-268, (2003)
Nanoscale, 3, (4), 1894-1903, (2011)
Tetrahedron, 57, (22), 4663-4686, (2001)
Motherwell WB et al., A study of some molecularly imprinted polymers as protic catalysts for the isomerisation of a-pinene oxide to trans-carveol.
Tetrahedron, 60, (14), 3231-3241, (2004)
81-86, (2005)
Vaughan AD et al., Enhancing molecularly imprinted polymer binding properties via controlled/living radical polymerization and reaction analysis.
Polymer, 48, (1), 74-81, (2007)
Venkatesh S et al., Biomimetic hydrogels for enhanced loading and extended release of ocular therapeutics.
Biomaterials, 28, (4), 717-724, (2007)
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 184, (11), 2213-2223, (1983)
Tetrahedron, 63, (8), 1857-1862, (2007)
Ikeda Y et al., Synthesis of a trisulfated heparan sulfate disaccharide analog and its use as a template for preliminary molecular imprinting studies.
Carbohydrate Research, 343, (4), 587-595, (2008)
Singabraya D et al., Molecular imprinting technology for specific recognition of heparan sulfate like disaccharides.
Talanta, 99, 833-839, (2012)
Mothéré M et al., Poly(ethylene glycol acrylate)-functionalized hydrogels for heparan sulfate oligosaccharide recognition.
Journal of Molecular Recognition, 30, (3), ArticleNo:e2584-(2017)
Journal of Liquid Chromatography & Related Technologies, 27, (17), 2715-2731, (2004)
Journal of Separation Science, 28, (18), 2468-2476, (2005)
Lachová M et al., Isolation of theanine from China green tea by using a molecularly imprinted polymer as a SPE sorbent.
Farmaceuticky Obzor, 76, (6-7), 147-151, (2007)
Lachová M et al., Isolation of L-theanine from plant material using a molecularly imprinted polymer.
Journal of Liquid Chromatography & Related Technologies, 30, (14), 2045-2058, (2007)
Lachová M et al., Possibility of using of molecular imprinted polymers on sorption selectivity of some phenyl carbamic derivatives.
Farmaceuticky Obzor, 77, (2), 37-40, (2008)
Lachová M et al., Selective solid-phase extraction of phenylcarbamic acid derivatives from a rat serum by molecularly imprinted polymer.
Acta Chimica Slovaca, 1, (1), 175-179, (2008)
Cizmárik A et al., Studies of local anesthetics. Part: 187 Extraction of 1-methyl-2- piperidinoethylesters of alkoxyphenylcarbamic acids from human plasma by imprinted polymers and its comparison with classic solid phase extraction.
Ceska a Slovenska Farmacie, 58, (2), 78-82, (2009)
Lachová M et al., Isolation of Some Derivatives of Phenylcarbamic Acid from Human Plasma using Molecularly Imprinted Polymers.
Journal of Liquid Chromatography & Related Technologies, 32, (2), 167-181, (2009)
Lachová M et al., Molecularly Imprinted Solid-Phase Extraction of 1-Methyl-2-piperidinoethylesters of Alkoxyphenylcarbamic Acid from Human Plasma, Comparison with Classical Solid-Phase Extraction.
Journal of Liquid Chromatography & Related Technologies, 32, (16), 2293-2306, (2009)
Lachová M et al., Study of Selectivity of Molecularly Imprinted Polymers Prepared Under Different Conditions.
Journal of Chromatographic Science, 48, (5), 395-398, (2010)
Journal of Separation Science, 29, (15), 2310-2321, (2006)
Talanta, 208, Article120445-(2020)
Analytical and Bioanalytical Chemistry, 406, (17), 4207-4215, (2014)
González N et al., Flow-batch analysis of clenbuterol based on analyte extraction on molecularly imprinted polymers coupled to an in-system chromogenic reaction. Application to human urine and milk substitute samples.
Talanta, 178, 934-942, (2018)
Novosvetská L et al., Fully automated method based on on-line molecularly imprinted polymer solid-phase extraction for determination of lovastatin in dietary supplements containing red yeast rice.
Analytical and Bioanalytical Chemistry, 411, (6), 1219-1228, (2019)
Chemistry Central Journal, 8, (1), Article No 60-(2014)
Polymer, 48, (1), 229-238, (2007)
Macromolecular Symposia, 235, (1), 39-51, (2006)
Karakhanov EA et al., Design of supramolecular metal complex catalytic systems for petrochemical and organic synthesis.
Russian Chemical Bulletin, 57, (4), 780-792, (2008)
Biosensors and Bioelectronics, 24, (3), 339-348, (2008)
Journal of Non-Crystalline Solids, 352, (30-31), 3302-3309, (2006)
International Journal of Molecular Sciences, 20, (7), ArticleNo1588-(2019)
Journal of Separation Science, 42, (17), 2858-2866, (2019)
Analytical Communications, 36, (9), 327-331, (1999)
Ramström O et al., Food analyses using molecularly imprinted polymers.
Journal of Agricultural and Food Chemistry, 49, (5), 2105-2114, (2001)
Biotechnology and Bioengineering, 57, (2), 211-215, (1998)
Slade CJ, Molecular (or bio-) imprinting of bovine serum albumin.
Journal of Molecular Catalysis B: Enzymatic, 9, (1-3), 97-105, (2000)
Reactive and Functional Polymers, 167, Article105031-(2021)
Analytica Chimica Acta, 821, 1-33, (2014)
Sensors and Actuators B: Chemical, 297, Article126786-(2019)
Nature Chemistry, 10, ArticleNo184-(2018)
Sensors, 10, (5), 4381-4409, (2010)
RSC Advances, 5, (102), 83558-83564, (2015)
Electrochimica Acta, 403, Article139581-(2022)
Analyst, 124, (3), 331-334, (1999)
Sergeyeva TA et al., Selective recognition of atrazine by molecularly imprinted polymer membranes. Development of conductometric sensor for herbicides detection.
Analytica Chimica Acta, 392, (2-3), 105-111, (1999)
Biosensors and Bioelectronics, 20, (6), 1091-1097, (2004)
Ukrainskii Biokhimicheskii Zhurnal, 81, (1), 41-51, (2009)
Sergeyeva TA et al., Towards development of colorimetric test-systems for phenols detection based on computationally-designed molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 30, (3), 431-436, (2010)
Sergeyeva TA et al., Catalytic molecularly imprinted polymer membranes: Development of the biomimetic sensor for phenols detection.
Analytica Chimica Acta, 659, (1-2), 274-279, (2010)
Journal of Physical Chemistry B, 105, (43), 10473-10483, (2001)
Polarz S et al., Nanoporous materials.
Journal of Nanoscience and Nanotechnology, 2, (6), 581-612, (2002)
Biosensors and Bioelectronics, 25, (3), 623-628, (2009)
Food Chemistry, 321, Article126673-(2020)
Advanced Materials, 22, (24), 2689-2693, (2010)
Biochemical Journal, 436, (1), 1-13, (2011)
Chemical Society Reviews, 42, (13), 5684-5713, (2013)
Doklady Akademii Nauk SSSR, 146, 707-709, (1962)
Polimeri (Zagreb), 26, (2), 63-68, (2005)
In: Combinatorial Materials Development, Malhotra R (Ed.) American Chemical Society: Washington, DC, Ch. 2, 23-47, (2002)
In: Synthetic Receptors for Biomolecules: Design Principles and Applications, Smith BD (Ed.) The Royal Society of Chemistry: Cambridge, Ch. 1, 1-38, (2015)
Christensen SD, Sedlacek AJ, Gillespie JB, Ewing KJ (Eds.), U231-U235, (2006)
Applied Spectroscopy, 62, (6), 604-610, (2008)
Smith CB et al., In Situ Surface-Etched Bacterial Spore Detection Using Dipicolinic Acid - Europium - Silica Nanoparticle Bioreporters.
Applied Spectroscopy, 65, (8), 866-875, (2011)
In: Separation for biotechnology 3, Pyle DL (Ed.) Royal Society of Chemistry: Cambridge, 22-28, (1994)
Smith CR et al., Book chapter, Novel boronophthalide-based polymers for the selective separation of sterols,
In: Separation for biotechnology 3, Pyle DL (Ed.) Royal Society of Chemistry: Cambridge, 482-488, (1994)
Alexander C et al., Imprinted polymers as protecting groups for regioselective modification of polyfunctional substrates.
Journal of the American Chemical Society, 121, (28), 6640-6651, (1999)
Combinatorial Chemistry & High Throughput Screening, 6, (3), 257-266, (2003)
In: Heterogeneous Enantioselective Hydrogenation, Klabunovskii E, Smith GV, Zsigmond A (Eds.) Springer Netherlands: Ch. 1, 1-29, (2006)
Biomaterials Science, 3, (8), 1208-1217, (2015)
Organic Letters, 7, (19), 4079-4081, (2005)
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 717, (1-2), 341-353, (1998)
Langmuir, 15, (11), 3987-3992, (1999)
Progress in Surface Science, 75, (1-2), 1-68, (2004)
Journal of Chromatography A, 1000, (1-2), 3-27, (2003)
Ridgway K et al., Sample preparation techniques for the determination of trace residues and contaminants in foods.
Journal of Chromatography A, 1153, (1-2), 36-53, (2007)
Journal of Separation Science, 39, (3), 552-558, (2016)
Journal of Research Innovations in Engineering & Technology, 2, (3), 55-59, (2016)
Membranes and Membrane Processes in Environmental Protection, 118, 277-281, (2014)
Smolinska-Kempisty K et al., A comparison of the performance of molecularly imprinted polymer nanoparticles for small molecule targets and antibodies in the ELISA format.
Scientific Reports, 6, ArticleNo37638-(2016)
Canfarotta F et al., Book chapter, Replacement of Antibodies in Pseudo-ELISAs: Molecularly Imprinted Nanoparticles for Vancomycin Detection,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 389-398, (2017)
Garcia Y et al., Development of competitive 'pseudo'-ELISA assay for measurement of cocaine and its metabolites using molecularly imprinted polymer nanoparticles.
Analytical Methods, 9, (31), 4592-4598, (2017)
Piletska E et al., Biomimetic Silica Nanoparticles Prepared by a Combination of Solid-Phase Imprinting and Ostwald Ripening.
Scientific Reports, 7, (1), ArticleNo11537-(2017)
Smolinska-Kempisty K et al., New potentiometric sensor based on molecularly imprinted nanoparticles for cocaine detection.
Biosensors and Bioelectronics, 96, 49-54, (2017)
Tang SP et al., A pseudo-ELISA based on molecularly imprinted nanoparticles for detection of gentamicin in real samples.
Analytical Methods, 9, (19), 2853-2858, (2017)
Wolska J et al., Polypropylene prefilters with surface imprinted layer.
Separation and Purification Technology, 174, 89-96, (2017)
Canfarotta F et al., Specific Drug Delivery to Cancer Cells with Double-Imprinted Nanoparticles against Epidermal Growth Factor Receptor.
Nano Letters, 18, (8), 4641-4646, (2018)
Munawar H et al., Molecularly imprinted polymer nanoparticle-based assay (MINA): application for fumonisin B1 determination.
Analyst, 143, (14), 3481-3488, (2018)
Garcia Y et al., Competitive pseudo-ELISA based on molecularly imprinted nanoparticles for microcystin-LR detection in water.
Pure And Applied Chemistry, 91, (10), 1593-1604, (2019)
Smolinska-Kempisty K et al., Negative selection of MIPs to create high specificity ligands for glycated haemoglobin.
Sensors and Actuators B: Chemical, 301, Article126967-(2019)
Reactive and Functional Polymers, 66, (11), 1199-1205, (2006)
Analytical and Bioanalytical Chemistry, 409, (13), 3393-3405, (2017)
Journal of Pharmaceutical and Biomedical Analysis, 16, (2), 319-325, (1997)
Walshe M et al., Separation of the enantiomers of propranolol by incorporation of molecularly imprinted polymer particles as chiral selectors in capillary electrophoresis.
Analytical Communications, 34, (4), 119-121, (1997)
Molinelli A et al., Analyzing the mechanisms of selectivity in biomimetic self-assemblies via IR and NMR spectroscopy of prepolymerization solutions and molecular dynamics simulations.
Analytical Chemistry, 77, (16), 5196-5204, (2005)
O’Mahony J et al., Towards the rational development of molecularly imprinted polymers: 1H NMR studies on hydrophobicity and ion-pair interactions as driving forces for selectivity.
Biosensors and Bioelectronics, 20, (9), 1884-1893, (2005)
O’Mahony J et al., Molecularly imprinted polymers - potential and challenges in analytical chemistry.
Analytica Chimica Acta, 534, (1), 31-39, (2005)
O’Mahony J et al., Anatomy of a successful imprint: Analysing the recognition mechanisms of a molecularly imprinted polymer for quercetin.
Biosensors and Bioelectronics, 21, (7), 1383-1392, (2006)
Journal of Applied Polymer Science, 86, (14), 3611-3615, (2002)
Applied Surface Science, 300, 22-28, (2014)
Journal of The Electrochemical Society, 164, (2), B54-B59, (2017)
Journal of Liquid Chromatography & Related Technologies, 22, (2), 183-204, (1999)
O’Brien TP et al., Evaluation of the origins of the selectivity of polymers imprinted with a HIV protease inhibitor using infrared spectroscopy and high performance liquid chromatography.
Enantiomer, 7, (2-3), 139-148, (2002)
Fish WP et al., Rational design of an imprinted polymer: Maximizing selectivity by optimizing the monomer-template ratio for a cinchonidine MIP, prior to polymerization, using microcalorimetry.
Journal of Liquid Chromatography & Related Technologies, 28, (1), 1-15, (2005)
Blair RJ, Williams PJ, Pretorius IS (Eds.), 301-302, (2004)
Colloid & Polymer Science, 289, (5), 625-646, (2011)
Current Opinion in Chemical Biology, 3, 740-746, (1999)
Journal of Physical Chemistry, 67, (12), 2622-2628, (1963)
Chirality, 29, (7), 340-347, (2017)
So J et al., Adsorption of 1-naphthyl methyl carbamate in water by utilizing a surface molecularly imprinted polymer.
Chemical Physics Letters, 699, 199-207, (2018)
Electroanalysis, 25, (4), 1085-1094, (2013)
International Journal of Chemical and Environmental Engineering, 4, (3), 177-183, (2013)
Romano EF et al., Preparation and Binding Evaluation of Histamine-Imprinted Microspheres via Conventional Thermal and RAFT-Mediated Free-Radical Polymerization.
ACS Omega, 1, (4), 518-531, (2016)
Romano EF et al., Assessment of the binding performance of histamine-imprinted microspheres by frontal analysis capillary electrophoresis.
Electrophoresis, 38, (9-10), 1251-1259, (2017)
Silverio OV et al., Development of dieldrin, endosulfan, and hexachlorobenzene-imprinted polymers for dye-displacement array sensing.
Journal of Applied Polymer Science, 134, (2), ArticleNo44401-ArticleNo44n/a, (2017)
Romano EFJ et al., Room temperature synthesis and binding studies of solution-processable histamine-imprinted microspheres.
Journal of Molecular Recognition, 31, (1), ArticleNoe2659-(2018)
Angewandte Chemie International Edition, 47, (45), 8657-8660, (2008)
Analytica Chimica Acta, 612, (1), 99-104, (2008)
Warwick C et al., Sensing and analysis of soluble phosphates in environmental samples: A review.
Biosensors and Bioelectronics, 41, 1-11, (2013)
Warwick C et al., Conductance based sensing and analysis of soluble phosphates in wastewater.
Biosensors and Bioelectronics, 52, 173-179, (2014)
Warwick C et al., A molecular imprinted polymer based sensor for measuring phosphate in wastewater samples.
Water Science & Technology, 69, (1), 48-54, (2014)
Protein Science, 20, (2), 379-386, (2011)
Lousa D et al., A molecular perspective on nonaqueous biocatalysis: contributions from simulation studies.
Physical Chemistry Chemical Physics, 15, (33), 13723-13736, (2013)
Journal of Inclusion Phenomena and Macrocyclic Chemistry, 57, (1), 79-82, (2007)
Oliveira GR et al., Neural modelling in adsorption column of cholesterol-removal efficiency from milk.
LWT - Food Science and Technology, 64, (2), 632-638, (2015)
Balieiro AL et al., Adsorption process of molecularly imprinted silica for extraction of lactose from milk.
Brazilian Journal of Chemical Engineering, 33, (2), 361-372, (2016)
Analytical Methods, 12, (7), 894-911, (2020)
Chemosensors, 8, (1), ArticleNo5-(2020)
RSC Advances, 2, (12), 5075-5079, (2012)
Ferreira JP et al., Integrated desulfurization of diesel by combination of metal-free oxidation and product removal by molecularly imprinted polymers.
RSC Advances, 4, (98), 54948-54952, (2014)
Analytical Chemistry, 85, (17), 8361-8368, (2013)
Huynh TP et al., Electrochemically synthesized molecularly imprinted polymer of thiophene derivatives for flow-injection analysis determination of adenosine-5'-triphosphate (ATP).
Biosensors and Bioelectronics, 41, 634-641, (2013)
Sharma PS et al., Fullerene derived molecularly imprinted polymer for chemosensing of adenosine-5'-triphosphate (ATP).
Analytica Chimica Acta, 844, 61-69, (2014)
Huynh TP et al., Nicotine molecularly imprinted polymer: Synergy of coordination and hydrogen bonding.
Biosensors and Bioelectronics, 64, 657-663, (2015)
ChemistrySelect, 3, (16), 4277-4282, (2018)
Gast M et al., Enhanced Selectivity by Passivation: Molecular Imprints for Viruses with Exceptional Binding Properties.
Analytical Chemistry, 90, (9), 5576-5585, (2018)
Gast M et al., Understanding the viral load during the synthesis and after rebinding of virus imprinted particles via real-time quantitative PCR.
Analyst, 143, (11), 2616-2622, (2018)
Schauer N et al., Selective binding of matrix metalloproteases MMP-9 and MMP-12 to inhibitor-assisted thermolysin-imprinted beads.
RSC Advances, 8, (57), 32387-32394, (2018)
Gast M et al., Advances in imprinting strategies for selective virus recognition a review.
TrAC Trends in Analytical Chemistry, 114, 218-232, (2019)
Gast M et al., Selective virus capture via hexon imprinting.
Materials Science and Engineering: C, 99, 1099-1104, (2019)
Gast M et al., Use of Super-Resolution Optical Microscopy To Reveal Direct Virus Binding at Hybrid Core-Shell Matrixes.
Analytical Chemistry, 92, (4), 3050-3057, (2020)
Dietl S et al., Epitope-imprinted polymers for biomacromolecules: Recent strategies, future challenges and selected applications.
TrAC Trends in Analytical Chemistry, 143, Article116414-(2021)
Dietl S et al., Core-Shell Imprinted Particles for Adenovirus Binding.
Materials, 14, (24), ArticleNo7692-(2021)
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 214, 451-458, (2019)
Analytica Chimica Acta, 488, (2), 173-182, (2003)
Talanta, 129, 155-164, (2014)
Sobiech M et al., A computational exploration of imprinted polymer affinity based on voriconazole metabolites.
Analyst, 139, (7), 1779-1788, (2014)
Sobiech M et al., Separation of octopamine racemate on (R, S)-2-amino-1-phenylethanol imprinted polymer - Experimental and computational studies.
Talanta, 146, 556-567, (2016)
Sobiech M et al., The selective response of a templated polymer for the cationic drug pentamidine: implications from molecular simulations and experimental data.
RSC Advances, 7, (74), 46881-46893, (2017)
Maciejewska D et al., Book chapter, Molecularly Imprinted Polymer-based Materials for Quantifying Pharmaceuticals,
In: Molecularly Imprinted Polymers for Analytical Chemistry Applications, Kutner W, Sharma PS (Eds.) Royal Society of Chemistry: Ch. 5, 145-166, (2018)
Sobiech M et al., Book chapter, Imprinted polymeric nanoparticles as nanodevices, biosensors and biolabels,
In: Nanostructures for the Engineering of Cells, Tissues and Organs, Grumezescu AM (Ed.) William Andrew Publishing: Ch. 9, 331-374, (2018)
Sobiech M et al., Book chapter, Imprinted Polymeric Gels for Pharmaceutical and Biomedical Purposes,
In: Polymer Gels: Perspectives and Applications, Thakur VK, Thakur MK, Voicu SI (Eds.) Springer Singapore: Singapore, 153-183, (2018)
Sobiech M et al., Semiconductor nanocrystal-polymer hybrid nanomaterials and their application in molecular imprinting.
Nanoscale, 11, (25), 12030-12074, (2019)
Sobiech M et al., Theoretical and experimental proof for selective response of imprinted sorbent - analysis of hordenine in human urine.
Journal of Chromatography A, 1613, Article460677-(2020)
Janczura M et al., Imprinting Technology for Effective Sorbent Fabrication: Current State-of-Art and Future Prospects.
Materials, 14, (8), ArticleNo1850-(2021)
Procedia Technology, 27, 185-186, (2017)
Macromolecular Bioscience, 16, (7), 944-957, (2016)
TrAC Trends in Analytical Chemistry, 44, 58-77, (2013)
González-Sálamo J et al., Evaluation of two molecularly imprinted polymers for the solid-phase extraction of natural, synthetic and mycoestrogens from environmental water samples before liquid chromatography with mass spectrometry.
Journal of Separation Science, 38, (15), 2692-2699, (2015)
Analytica Chimica Acta, 1077, 255-265, (2019)
Denki Kagaku, 65, 435-439, (1997)
Sode K et al., A new concept for the construction of an artificial dehydrogenase for fructosylamine compounds and its application for an amperometric fructosylamine sensor.
Analytica Chimica Acta, 435, (1), 151-156, (2001)
Yamazaki T et al., A novel amperometric sensor for organophosphotriester insecticides detection employing catalytic polymer mimicking phosphotriesterase catalytic center.
Electrochemistry, 69, (12), 969-972, (2001)
Yamazaki T et al., Towards the use of molecularly imprinted polymers containing imidazoles and bivalent metal complexes for the detection and degradation of organophosphotriester pesticides.
Analytica Chimica Acta, 435, (1), 209-214, (2001)
Meng ZH et al., Enhancement of the catalytic activity of an artificial phosphotriesterase using a molecular imprinting technique.
Biotechnology Letters, 25, (13), 1075-1080, (2003)
Sode K et al., Construction of a molecular imprinting catalyst using target analogue template and its application for an amperometric fructosylamine sensor.
Biosensors and Bioelectronics, 18, (12), 1485-1490, (2003)
Yamazaki T et al., Molecular imprinting catalyst based artificial enzyme sensor for fructosylamines.
Analytical Letters, 36, (1), 75-89, (2003)
Meng ZH et al., A molecularly imprinted catalyst designed by a computational approach in catalysing a transesterification process.
Biosensors and Bioelectronics, 20, (6), 1068-1075, (2004)
Meng ZH et al., The molecular reaction vessels for a transesterification process created by molecular imprinting technique.
Journal of Molecular Recognition, 18, (3), 262-266, (2005)
Meng ZH et al., Construction of artificial cyclic amide amidohydrolases using molecular imprinting technique.
Biotechnology Letters, 27, (7), 471-475, (2005)
Yamazaki T et al., Molecular recognition of AGEs using molecularly imprinted polymer.
Nippon Kagakkai Koen Yokoshu, 86, (2), 944-(2006)
Yoshimatsu K et al., Uniform molecularly imprinted microspheres and nanoparticles prepared by precipitation polymerization: The control of particle size suitable for different analytical applications.
Analytica Chimica Acta, 584, (1), 112-121, (2007)
Yamazaki T et al., Operational condition of a molecular imprinting catalyst-based fructosyl-valine sensor.
Electrochemistry, 76, (8), 590-593, (2008)
Yoshimatsu K et al., Corrigendum to "Uniform molecularly imprinted microspheres and nanoparticles prepared by precipitation polymerization: The control of particle size suitable for different analytical applications" [Anal. Chim. Acta 584 (2007) 112-121].
Analytica Chimica Acta, 657, (2), 215-215, (2010)
Sode K et al., Molecular recognition of fructosyl amine compounds by molecularly imprinted polymers.
Nippon Kagakkai Koen Yokoshu, 79, (2), 840-(2011)
Journal of AOAC International, 88, (1), 331-341, (2005)
Chemical Communications, (30), 3217-3219, (2006)
Matsui J et al., Face-to-face porphyrin moieties assembled with spacing for pyrazine recognition in molecularly imprinted polymers.
Biosensors and Bioelectronics, 25, (3), 635-639, (2009)
Analytica Chimica Acta, 1076, 64-72, (2019)
IOP Conference Series: Materials Science and Engineering, 349, (1), ArticleNo012064-(2018)
Wirawan T et al., Adsorption of Zinc(II) onto Zn(II)-Ionic Imprinted Polymer.
IOP Conference Series: Materials Science and Engineering, 546, (2), Article022036-(2019)
IOP Conference Series: Materials Science and Engineering, 188, ArticleNo012048-(2017)
Fauziah S et al., Molecularly Imprinted Polymers as [beta]-sitosterol selective adsorbent using combination of Methacrylate Acid and Trimethylpropane Trimethacrylate.
International Journal of ChemTech Research, 11, (2), 40-50, (2018)
Fauziah S et al., Selectivity of [beta]-Sitosterol Imprinted Polymers as Adsorbent.
Journal of Physics: Conference Series, 979, (1), ArticleNo012059-(2018)
International Journal of Molecular Sciences, 13, (9), 11333-11342, (2012)
Polymer Preprints, 46, (2), 46-47, (2005)
Chemical Communications, 49, (53), 5954-5956, (2013)
Journal of Colloid and Interface Science, 529, 568-574, (2018)
IEEE Sensors Journal, 18, (19), 7924-7931, (2018)
Journal of Liquid Chromatography & Related Technologies, 41, (9), 552-560, (2018)
Abstracts of Papers of the American Chemical Society, 213, (IEC), 148-148, (1997)
Miyajima T et al., Book chapter, A physicochemical study on the origin of the imprinting effect,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 20, 290-297, (1998)
Food Chemistry, 293, 226-232, (2019)
Clinica Chimica Acta, 314, (1-2), 1-26, (2001)
Biosensors and Bioelectronics, 24, (1), 162-166, (2008)
Wang YT et al., Potentiometric sensors based on surface molecular imprinting: Detection of cancer biomarkers and viruses.
Sensors and Actuators B: Chemical, 146, (1), 381-387, (2010)
Wang YT et al., Surface-imprinted biosensors for the detection of proteins, cancer markers and viruses.
Current Trends in Polymer Science, 18, 1-13, (2018)
Inorganic Materials, 54, (14), 1387-1391, (2018)
Journal of Chemical Physics, 116, (10), 4286-4292, (2002)
Applied Physics Letters, 90, (19), Art. No. 193101-(2007)
Analyst, 129, (12), 1211-1215, (2004)
SPAST Abstracts 1 (2021)
Microchemical Journal, 171, Article106730-(2021)
Microchemical Journal, 142, 329-334, (2018)
Sensors and Actuators B: Chemical, 320, Article128316-(2020)
Biopolymers and Cell, 29, (3), 188-206, (2013)
Biopolymers and Cell, 29, (3), 188-206, (2013)
Food and Chemical Toxicology, 78, 26-32, (2015)
Soledad-Rodríguez B, Use of Molecularly Imprinted Polymers as Sample Pre-concentrators in Chemical Trace Analysis (Empleo De Polímeros De Impronta Molecular Como Pre-Concentradores De Muestras En El Análisis Químico De Trazas).
Revista Techné, 20, (2), 3-22, (2017)
Soledad-Rodríguez B et al., Effective determination of ampicillin in cow milk using a molecularly imprinted polymer as sorbent for sample preconcentration.
Food Chemistry, 224, 432-438, (2017)
Soledad-Rodríguez B, Technological Innovations in the Industry. A Proposal for the Analysis of Environmental Contaminants with Molecular Imprint Polymers (Innovaciones Tecnológicas En La Industria. Una Propuesta Para El Análisis De Contaminantes Ambientales Con Polímeros De Impronta Molecular).
Revista Techné, 21, (2), 19-51, (2018)
Revista Internacional de Contaminación Ambiental, 36, (1), 197-207, (2020)
Journal of Chromatography B, 1061, 65-71, (2017)
Soleimani E et al., Selective determination of mandelic acid in urine using molecularly imprinted polymer in microextraction by packed sorbent.
Archives of Toxicology, 92, (1), 213-222, (2018)
Soleimani E et al., Correction to: Selective determination of mandelic acid in urine using molecularly imprinted polymer in microextraction by packed sorbent.
Archives of Toxicology, 92, (1), 223-223, (2018)
Hassanpour A et al., Increasing the anticancer activity of azidothymidine toward the breast cancer via rational design of magnetic drug carrier based on molecular imprinting technology.
Materials Science and Engineering: C, 103, Article109771-(2019)
(2011)
Soleimani M et al., Synthesis of molecularly imprinted polymer as a sorbent for solid phase extraction of bovine albumin from whey, milk, urine and serum.
Microchemical Journal, 100, (1), 1-7, (2012)
Madrakian T et al., Selective solid-phase extraction of naproxen drug from human urine samples using molecularly imprinted polymer-coated magnetic multi-walled carbon nanotubes prior to its spectrofluorometric determination.
Analyst, 138, (16), 4542-4549, (2013)
Soleimani M et al., High Selective Methadone Sensor Based on Molecularly Imprinted Polymer Carbon Paste Electrode Modified with Carbon Nanotubes.
Sensor Letters, 11, (10), 1983-1991, (2013)
Soleimani M et al., High-Selective Tramadol Sensor Based on Modified Molecularly Imprinted Polymer-Carbon Paste Electrode with Multiwalled Carbon Nanotubes.
Electroanalysis, 25, (5), 1159-1168, (2013)
Soleimani M et al., Highly selective solid phase extraction of mercury ion based on novel ion imprinted polymer and its application to water and fish samples.
Journal of Analytical Chemistry, 70, (1), 5-12, (2015)
Soleimani M et al., Magnetic solid phase extraction of rizatriptan in human urine samples prior to its spectrofluorimetric determination.
Sensors and Actuators B: Chemical, 254, 1225-1233, (2018)
Amlashi HS et al., Molecularly imprinted polymer solid phase extraction followed by high-performance liquid chromatography as an efficient and sensitive technique for determination of meropenem in human plasma and urine.
South African Journal of Chemistry, 72, (1), 32-39, (2019)
Tavakoli Z et al., Evaluation of an Experimentally Designed Molecular Imprinted Polyurethane Foam Performance for Extraction of Alprazolam.
Journal of Chromatographic Science, 57, (7), 662-670, (2019)
Tavakoli Z et al., Characterization and performance evaluation of functional monomer effect on molecular imprinted polyurethane foam.
Journal of Chromatography A, 1602, 30-40, (2019)
Bakhshi A et al., A Molecularly Imprinted Polymer as the Adsorbent for the Selective Determination of Oxazepam in Urine and Plasma Samples by High-Performance Liquid Chromatography with Diode Array Detection.
Journal of Analytical Chemistry, 76, (12), 1414-1421, (2021)
Microchemical Journal, 100, (1), 1-7, (2012)
Abstracts of Papers of the American Chemical Society, 230, 89-PMSE, (2005)
Microchimica Acta, 187, (9), Article512-(2020)
Hassan Oghli A et al., Ultrasensitive electrochemical sensor for simultaneous determination of sumatriptan and paroxetine using molecular imprinted polymer/sol-gel/polyoxometalate/rGO modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 344, Article130215-(2021)
Analytica Chimica Acta, 704, (1-2), 33-46, (2011)
Boonjob W et al., Retention and selectivity of basic drugs on solid-phase extraction sorbents: Application to direct determination of [beta]-blockers in urine.
Analytical and Bioanalytical Chemistry, 406, (17), 4207-4215, (2014)
Lhotská I et al., Critical comparison of the on-line and off-line molecularly imprinted solid-phase extraction of patulin coupled with liquid chromatography.
Journal of Separation Science, 40, (23), 4599-4609, (2017)
González N et al., Flow-batch analysis of clenbuterol based on analyte extraction on molecularly imprinted polymers coupled to an in-system chromogenic reaction. Application to human urine and milk substitute samples.
Talanta, 178, 934-942, (2018)
Lhotská I et al., Molecularly imprinted vs. reversed-phase extraction for the determination of zearalenone: a method development and critical comparison of sample clean-up efficiency achieved in an on-line coupled SPE chromatography system.
Analytical and Bioanalytical Chemistry, 410, (14), 3265-3273, (2018)
Lhotská I et al., Preparation of citrinin-selective molecularly imprinted polymer and its use for on-line solid-phase extraction coupled to liquid chromatography.
Analytical and Bioanalytical Chemistry, 411, (11), 2395-2404, (2019)
Kholová A et al., Comparison study of nanofibers, composite nano/microfiber materials, molecularly imprinted polymers, and core-shell sorbents used for on-line extraction-liquid chromatography of ochratoxins in Tokaj wines.
Microchemical Journal, 170, Article106680-(2021)
Biomacromolecules, 5, (4), 1615-1623, (2004)
Journal of Chemical Physics, 121, (12), 6011-6020, (2004)
Journal of the American Chemical Society, 128, (11), 3737-3747, (2006)
Journal of AOAC International, 99, (5), 1363-1369, (2016)
Applied Radiation and Isotopes, 90, 8-14, (2014)
Journal of The Electrochemical Society, 163, (3), B68-B75, (2016)
Biomimetics, 4, (1), ArticleNo18-(2019)
Microchemical Journal, 159, Article105489-(2020)
Industrial & Engineering Chemistry Research, 52, (25), 8550-8557, (2013)
Tarley CRT et al., Preparation of new ion-selective cross-linked poly(vinylimidazole-co-ethylene glycol dimethacrylate) using a double-imprinting process for the preconcentration of Pb2+ ions.
Journal of Colloid and Interface Science, 450, 254-263, (2015)
Tarley CRT et al., On-line micro-solid phase preconcentration of Cd2+ coupled to TS-FF-AAS using a novel ion-selective bifunctional hybrid imprinted adsorbent.
Microchemical Journal, 131, 57-69, (2017)
ACS Applied Materials & Interfaces, 5, (15), 7258-7267, (2013)
Eersels K et al., Improving the sensitivity of the heat-transfer method (HTM) for cancer cell detection with optimized sensor chips.
physica status solidi (a), 212, (6), 1320-1326, (2015)
Eersels K et al., Heat-Transfer-Method-Based Cell Culture Quality Assay through Cell Detection by Surface Imprinted Polymers.
Langmuir, 31, (6), 2043-2050, (2015)
Analyst, 146, (20), 6270-6280, (2021)
Analytical Chemistry, 85, (11), 5316-5320, (2013)
Electrophoresis, 31, (1), 44-54, (2010)
Shirangi M et al., Methyleneation of Peptides by N, N, N, N-Tetramethylethylenediamine (TEMED) under Conditions Used for Free Radical Polymerization: A Mechanistic Study.
Bioconjugate Chemistry, 26, (1), 90-100, (2015)
Journal of Separation Science, 32, (19), 3327-3333, (2009)
Son LT et al., Using molecularly imprinted polymeric spheres for hybrid membranes with selective adsorption of bisphenol A derivatives.
Journal of Membrane Science, 375, (1-2), 295-303, (2011)
Son LT et al., Hollow-fiber membrane absorbents embedded molecularly imprinted polymeric spheres for bisphenol A target.
Journal of Membrane Science, 384, (1-2), 117-125, (2011)
International Food Research Journal, 16, (2), 127-140, (2009)
Journal of Chromatography B, 983-984, 32-38, (2015)
Journal of Applied Polymer Science, 104, (3), 1866-1872, (2007)
Sensors and Actuators B: Chemical, 210, 519-532, (2015)
Materials Letters, 162, 44-47, (2016)
Journal of Polymer Science Part A: Polymer Chemistry, 55, (9), 1558-1565, (2017)
Tetrahedron Letters, 24, (33), 3501-3504, (1983)
Acta Chimica Sinica, 69, (23), 2877-2881, (2011)
Microchemical Journal, 116, 183-190, (2014)
Song B et al., Determination of erythromycin residue in pork samples using molecularly imprinted solid phase extraction coupled with high performance liquid chromatography.
Chinese Journal of Chromatography, 32, (10), 1111-1116, (2014)
Zhou YS et al., Rapid and selective extraction of multiple macrolide antibiotics in foodstuff samples based on magnetic molecularly imprinted polymers.
Talanta, 137, 1-10, (2015)
Zhou TT et al., Fabrication of a Selective and Sensitive Sensor Based on Molecularly Imprinted Polymer/Acetylene Black for the Determination of Azithromycin in Pharmaceuticals and Biological Samples.
PLoS ONE, 11, (1), ArticleIDe0147002-(2016)
Fu X et al., Highly-Controllable Imprinted Polymer Nanoshell on the Surface of Silica Nanoparticles for Selective Adsorption of 17[beta]-Estradiol.
Journal of Encapsulation and Adsorption Sciences, 8, 210-224, (2018)
Chinese Journal of Analysis Laboratory, 37, (4), 419-423, (2018)
Ion Exchange and Adsorption, 26, (6), 514-523, (2010)
Chinese Journal of Reactive Polymers, 17, (2), 66-73, (2008)
Guo LF et al., Research and application of molecular imprinting technique in separating functional factors of traditional Chinese medicines.
Chinese Journal of Pharmaceutical Analysis, 29, (6), 1055-1058, (2009)
He MQ et al., Recognition property and mechanism of molecularly imprinted polymers of Apigenin.
Journal of Jiangsu University (Natural Science Edition), 31, (5), 596-600, (2010)
He MQ et al., Synthesis and recognition of molecularly imprinted polymers for gastrodin based on surface-modified silica nanoparticles.
Journal of Applied Polymer Science, 121, (4), 2354-2360, (2011)
Advances in Organic Synthesis, 1, (1), 233-260, (2005)
Food Analytical Methods, 12, (9), 1957-1963, (2019)
Marine Pollution Bulletin, 173, Article113068-(2021)
Analyst, 136, (14), 3016-3022, (2011)
Xu ZG et al., Molecularly imprinted stir bar sorptive extraction coupled with high performance liquid chromatography for trace analysis of sulfa drugs in complex samples.
Talanta, 85, (1), 97-103, (2011)
Hu YL et al., Fiber-in-tube solid-phase microextraction with molecularly imprinted coating for sensitive analysis of antibiotic drugs by high performance liquid chromatography.
Journal of Chromatography A, 1263, 21-27, (2012)
Macromolecules, 43, (15), 6284-6294, (2010)
Song D et al., Finding the importance of flexibility of the recognition sites in molecular imprinting.
Abstracts of Papers of the American Chemical Society, 241, (POLY), 177-(2011)
Zhang YG et al., Suppression of background sites in molecularly imprinted polymers via urea-urea monomer aggregation.
Organic & Biomolecular Chemistry, 9, (1), 120-126, (2011)
Song D et al., Characterization of molecularly imprinted polymers using a new polar solvent titration method.
Journal of Molecular Recognition, 27, (7), 448-457, (2014)
Li P et al., Book chapter, Molecularly Imprinted Polymer Sensor Arrays,
In: Molecularly Imprinted Polymers for Analytical Chemistry Applications, Kutner W, Sharma PS (Eds.) Royal Society of Chemistry: Ch. 14, 447-474, (2018)
Liu KK et al., Plasticizer-free polymer membrane potentiometric sensors based on molecularly imprinted polymers for determination of neutral phenols.
Analytica Chimica Acta, 1121, 50-56, (2020)
Angewandte Chemie International Edition, 49, (14), 2556-2559, (2010)
Journal of Biomedical Engineering, 30, (2), 428-431, (2013)
Applied Surface Science, 357, (Part B), 1490-1498, (2015)
Li J et al., Preparation of "dummy" l-phenylalanine molecularly imprinted microspheres by using ionic liquid as a template and functional monomer.
Journal of Separation Science, 38, (18), 3279-3287, (2015)
Microelectronic Engineering, 187-188, 58-65, (2018)
Si B et al., Recent Advances in the Detection of Neurotransmitters.
Chemosensors, 6, (1), ArticleNo1-(2018)
Journal of Membrane Science, 467, 13-22, (2014)
Applied Surface Science, 423, 810-816, (2017)
Chen LZ et al., Preparation of five high-purity iridoid glycosides from Gardenia jasminoides Eills by molecularly imprinted solid-phase extraction integrated with preparative liquid chromatography.
Journal of Separation Science, 41, (13), 2759-2766, (2018)
RSC Advances, 11, (52), 32841-32851, (2021)
Microchimica Acta, 171, (1), 203-209, (2010)
Separation and Purification Technology, 284, Article120240-(2022)
Microchemical Journal, 170, Article106737-(2021)
Microchimica Acta, 183, (1), 431-439, (2016)
Science and Technology of Food Industry, 32, (3), 393-395, (2011)
Journal of Molecular Catalysis A: Chemical, 318, (1-2), 21-29, (2010)
Li YC et al., Novel Electrochemical Sensing Platform Based on a Molecularly Imprinted Polymer Decorated 3D Nanoporous Nickel Skeleton for Ultrasensitive and Selective Determination of Metronidazole.
ACS Applied Materials & Interfaces, 7, (28), 15474-15480, (2015)
Liu J et al., Preparation of molecularly imprinted polymer with double templates for rapid simultaneous determination of melamine and dicyandiamide in dairy products.
Talanta, 134, 761-767, (2015)
Li YC et al., Supportless electrochemical sensor based on molecularly imprinted polymer modified nanoporous microrod for determination of dopamine at trace level.
Biosensors and Bioelectronics, 78, 308-314, (2016)
Song H et al., Molecularly imprinted polymer functionalized nanoporous Au-Ag alloy microrod: Novel supportless electrochemical platform for ultrasensitive and selective sensing of metronidazole.
Electrochimica Acta, 208, 10-16, (2016)
Song H et al., An ultrasensitive and selective electrochemical sensor for determination of estrone 3-sulfate sodium salt based on molecularly imprinted polymer modified carbon paste electrode.
Analytical and Bioanalytical Chemistry, 409, (27), 6509-6519, (2017)
Chen SY et al., Highly selective recognition of L-phenylalanine with molecularly imprinted polymers based on imidazolyl amino acid chiral ionic liquid.
Chirality, 31, (10), 824-834, (2019)
Chen Q et al., Preparation and evaluation of magnetic graphene oxide molecularly imprinted polymers (MIPs-GO-Fe3O4@SiO2) for the analysis and separation of tripterine.
Reactive and Functional Polymers, 169, Article105055-(2021)
Talanta, 220, Article121367-(2020)
Hao Y et al., Fabrication of metal coordination-synergistic magnetic imprinted microspheres based on ligand-free Fe3O4-Cu for specific recognition of bovine hemoglobin.
Talanta, 233, Article122496-(2021)
Song HJ et al., Novel bayberry-and-honeycomb-like magnetic surface molecularly imprinted polymers for the selective enrichment of rutin from Sophora japonica.
Food Chemistry, 356, Article129722-(2021)
Zhang HP et al., Magnetic imprinted nanoparticles with synergistic tailoring of covalent and non-covalent interactions for purification and detection of procyanidin B2.
Microchimica Acta, 188, (1), Article17-(2021)
Journal of Colloid and Interface Science, 539, 235-244, (2019)
SCIENTIA SINICA Technologica, 46, (9), 931-939, (2016)
Chinese Journal of Chromatography, 34, (11), 1063-1069, (2016)
Journal of Hazardous Materials, 365, 53-63, (2019)
Journal of Agricultural and Food Chemistry, 59, (24), 12745-12751, (2011)
Song JM et al., Molecularly imprinted solid-phase extraction combined with high-performance liquid chromatography for analysis of trace olaquindox residues in chick feeds.
Journal of the Science of Food and Agriculture, 91, (13), 2378-2385, (2011)
Xu ZX et al., Preparation and Characterization of Hydrophilic Olaquindox Molecularly Imprinted Polymer in Aqueous Environment.
International Journal of Polymer Analysis and Characterization, 16, (1), 67-77, (2011)
Xu ZX et al., Development of an on-line molecularly imprinted chemiluminescence sensor for determination of trace olaquindox in chick feeds.
Journal of the Science of Food and Agriculture, 92, (13), 2696-2702, (2012)
Separation and Purification Technology, 280, Article119865-(2022)
Journal of Hunan University Natural Sciences, 34, (12), 54-57, (2007)
Applied Biochemistry and Biotechnology, 167, (8), 2305-2317, (2012)
Chinese Journal of Bioprocess Engineering, 10, (3), 61-66, (2012)
Journal of Chromatography A, 1218, (24), 3763-3770, (2011)
Chinese Journal of Analysis Laboratory, 30, (7), 58-61, (2011)
Guo HY et al., Molecular Imprinting-Chemiluminescence Determination of Sulfanilamide.
Journal of Analytical Science, 29, (2), 196-200, (2013)
Chen H et al., Synthesis, characterization, and evaluation of selective molecularly imprinted polymers for the fast determination of synthetic cathinones.
RSC Advances, 11, (47), 29752-29761, (2021)
Journal of Separation Science, 38, (7), 1172-1178, (2015)
Journal of Food Safety and Quality, 5, (11), 3587-3591, (2014)
Yuan LL et al., Application of magnetic molecularly imprinted polymers in the analysis of food safety.
Journal of Food Safety and Quality, 5, (11), 3582-3586, (2014)
He J et al., Novel restricted access materials combined to molecularly imprinted polymers for selective solid-phase extraction of organophosphorus pesticides from honey.
Food Chemistry, 187, 331-337, (2015)
Song LX et al., Combined biocompatible medium with molecularly imprinted polymers for determination of aflatoxins B1 in real sample.
Journal of Separation Science, 42, (24), 3679-3687, (2019)
Wang HG et al., Etching of halloysite nanotubes hollow imprinted materials as adsorbent for extracting of Zearalenone from grain samples.
Microchemical Journal, 157, Article104953-(2020)
Zhang YX et al., Application of surface-imprinted polymers supported by hydroxyapatite in the extraction of zearalenone in various cereals.
Analytical and Bioanalytical Chemistry, 412, (17), 4045-4055, (2020)
Song LX et al., Preparation and properties of aflatoxins imprinted polymer grafted onto the surface of mesoporous silica SBA-15 functionalized with double bonds.
Journal of Separation Science, 44, (22), 4181-4189, (2021)
Food Analytical Methods, 8, (10), 2496-2503, (2015)
ACS Applied Materials & Interfaces, 8, (5), 2881-2898, (2016)
Chinese Journal of Reactive Polymers, 12, (1), 92-96, (2003)
Guo TY et al., Adsorptive separation of hemoglobin by molecularly imprinted chitosan beads.
Biomaterials, 25, (27), 5905-5912, (2004)
Guo TY et al., Preparation of uniform-sized molecularly imprinted polymer microspheres using N-Cbz-L-Trp as template.
Chemical Journal of Chinese Universities, 25, (4), 762-765, (2004)
Guo TY et al., Molecular imprinting polymers for chiral separation of amino acid derivatives.
Progress In Chemistry, 16, (4), 638-642, (2004)
Guo TY et al., Uniform-sized molecularly imprinted polymer for N-carbobenzoxy-L-tryptophan and its chromatographic properties.
Chinese Journal of Analytical Chemistry, 32, (6), 705-709, (2004)
Guo TY et al., Chitosan beads as molecularly imprinted polymer matrix for selective separation of proteins.
Biomaterials, 26, (28), 5737-5745, (2005)
Guo TY et al., Preparation and properties of uniform-sized polymer beads imprinted with N-CBZ-L-phenylalanine.
International Journal of Polymeric Materials, 54, (8), 743-755, (2005)
Xia YQ et al., Hemoglobin recognition by imprinting in semi-interpenetrating polymer network hydrogel based on polyacrylamide and chitosan.
Biomacromolecules, 6, (5), 2601-2606, (2005)
Xia YQ et al., Selective separation of quercetin by molecular imprinting using chitosan beads as functional matrix.
Reactive and Functional Polymers, 66, (12), 1734-1740, (2006)
Xia YQ et al., Adsorption dynamics and thermodynamics of Hb on the Hb-imprinted polymer beads.
Reactive and Functional Polymers, 68, (1), 63-69, (2008)
Zhao HL et al., Hemoglobin-imprinted polymer gel prepared using modified glucosamine as functional monomer.
Chinese Chemical Letters, 19, (2), 233-236, (2008)
Xia YQ et al., Protein recognition onto silica particles using chitosan as intermedium substrate.
Journal of Biomedical Materials Research Part A, 90A, (2), 326-332, (2009)
ACS Applied Materials & Interfaces, 13, (31), 37212-37222, (2021)
Modern Chemical Industry, 35, (11), 27-31, (2015)
Chemical Engineering Journal, 249, 15-26, (2014)
Yu XN et al., Preparation of rare earth metal ion/TiO2Hal-conducting polymers by ions imprinting technique and its photodegradation property on tetracycline.
Applied Clay Science, 99, 125-130, (2014)
Han WJ et al., A fluorescent molecularly imprinted polymer sensor synthesized by atom transfer radical precipitation polymerization for determination of ultra trace fenvalerate in the environment.
RSC Advances, 6, (84), 81346-81353, (2016)
Lu ZY et al., A novel hollow capsule-like recyclable functional ZnO/C/Fe3O4 endowed with three-dimensional oriented recognition ability for selectively photodegrading danofloxacin mesylate.
Catalysis Science & Technology, 6, (17), 6513-6524, (2016)
Wang YS et al., Enhanced selective photocatalytic properties of a novel magnetic retrievable imprinted ZnFe2O4/PPy composite with specific recognition ability.
RSC Advances, 6, (57), 51877-51887, (2016)
Lu ZY et al., Construction of stable core-shell imprinted Ag-(poly-o-phenylenediamine)/CoFe2O4 photocatalyst endowed with the specific recognition capability for selective photodegradation of ciprofloxacin.
RSC Advances, 7, (77), 48894-48903, (2017)
Lu ZY et al., Facile microwave synthesis of a Z-scheme imprinted ZnFe2O4/Ag/PEDOT with the specific recognition ability towards improving photocatalytic activity and selectivity for tetracycline.
Chemical Engineering Journal, 337, 228-241, (2018)
He F et al., Selective reduction of Cu2+ with simultaneous degradation of tetracycline by the dual channels ion imprinted POPD-CoFe2O4 heterojunction photocatalyst.
Chemical Engineering Journal, 360, 750-761, (2019)
He F et al., Construction of ion imprinted layer modified ZnFe2O4 for selective Cr(VI) reduction with simultaneous organic pollutants degradation based on different reaction channels.
Applied Surface Science, 483, 453-462, (2019)
Lu ZY et al., Magnetic Hierarchical Photocatalytic Nanoreactors: Toward Highly Selective Cd2+ Removal with Secondary Pollution Free Tetracycline Degradation.
ACS Applied Nano Materials, 2, (3), 1664-1674, (2019)
Peng JY et al., Enhanced selectivity for photodegrading ciprofloxacin by a magnetic photocatalyst modified with a POPD-CdS heterojunction embedded imprinted layer.
New Journal of Chemistry, 43, (6), 2610-2623, (2019)
Lu ZY et al., Pollutant template method synthesis of oxygen vacancy and template cavity riched TB-TiO2@MFA towards selective photodegradation of ciprofloxacin.
Applied Surface Science, 569, Article151027-(2021)
Lu ZY et al., Heterotopic reaction strategy for enhancing selective reduction and synergistic oxidation ability through trapping Cr (VI) into specific reaction site: A stable and self-cleaning ion imprinted CdS/HTNW photocatalytic membrane.
Applied Catalysis B: Environmental, 301, Article120787-(2022)
Yan H et al., Aqueous-phase synthesis of heterojunction molecular imprinted photocatalytic nanoreactor via stable interaction forces for improved selectivity and photocatalytic property.
Applied Surface Science, 579, Article152174-(2022)
Journal of Chromatography A, 1217, (33), 5420-5426, (2010)
Yin JF et al., Dummy molecularly imprinted polymer for selective screening of trace bisphenols in river water.
Analytical Methods, 3, (1), 173-180, (2011)
Yin JF et al., Plastic antibody for DNA damage: fluorescent imaging of BPDE-dG adducts in genomic DNA.
Analyst, 138, (17), 4958-4966, (2013)
Microchimica Acta, 180, (7-8), 599-605, (2013)
Chinese Journal of Analytical Chemistry, 44, (4), 647-653, (2016)
Liu D et al., Synthesis of graphene oxide functionalized surface-imprinted polymer for the preconcentration of tetracycline antibiotics.
RSC Advances, 6, (14), 11742-11748, (2016)
Langmuir, 29, (21), 6348-6353, (2013)
Tang T et al., Determination of semicarbazide in fish by molecularly imprinted stir bar sorptive extraction coupled with high performance liquid chromatography.
Journal of Chromatography B, 1076, 8-14, (2018)
Microchemical Journal, 91, (2), 222-226, (2009)
Liu Y et al., Preparation and properties of a triclosan molecularly imprinted polymers sensor.
Chinese Journal of Analysis Laboratory, 28, (8), 107-109, (2009)
Liu Y et al., Preparation and Properties of Diethylstilbestrol Molecular Imprinted Polymers Sensor.
Chinese Journal of Analytical Chemistry, 38, (4), 569-572, (2010)
Qi WJ et al., A Molecular Imprinting Electrochemical Sensor for L-Tryptophan Determination.
Journal of Analytical Science, 27, (3), 331-335, (2011)
Qi YB et al., A Salbutamol Sensor Based on Carbon Nanotubes Modified Electrode and Molecularly Imprinted Polymers.
Chinese Journal of Analytical Chemistry, 39, (7), 1053-1057, (2011)
Zhang YG et al., Determination of melamine based on a sol-gel molecular imprinting technique.
Chinese Journal of Analysis Laboratory, 30, (2), 21-24, (2011)
Ding ZY et al., Determination of clenbuterol with multi-walled carbon nanotubes-molecular imprinted sensors.
Chinese Journal of Analysis Laboratory, 31, (9), 121-124, (2012)
Han CF et al., Detection of hidden drugs with a molecularly imprinted electrochemiluminescence sensor.
Analytical Methods, 5, (21), 6064-6070, (2013)
Shang ZY et al., Advance Research of Molecular Imprinted Chemical Sensors Based on Electropolymerization.
Journal of Instrumental Analysis, 32, (11), 1401-1408, (2013)
Shang ZY et al., An Electrochemiluminescence Sensor with Molecularly Imprinted Polymer for Heroin Detection.
Chinese Journal of Analytical Chemistry, 42, (6), 904-908, (2014)
Yu RP et al., Rational selection of the monomer for molecularly imprinted polymer preparation for selective and sensitive detection of 3-methylindole in water.
Journal of Electroanalytical Chemistry, 832, 129-136, (2019)
Zhou JY et al., Highly selective detection of l-Phenylalanine by molecularly imprinted polymers coated Au nanoparticles via surface-enhanced Raman scattering.
Talanta, 211, Article120745-(2020)
Chinese Journal of Analytical Chemistry, 35, (9), 1319-1322, (2007)
Journal of Inorganic and Organometallic Polymers and Materials, 29, (3), 659-666, (2019)
Wei PJ et al., An ion-imprinted sensor based on chitosan-graphene oxide composite polymer modified glassy carbon electrode for environmental sensing application.
Electrochimica Acta, 317, 93-101, (2019)
Hydrometallurgy, 100, (1-2), 82-86, (2009)
Yu JY et al., Proceeding, Molecularly imprinted polymer microspheres prepared by precipitation polymerization for atenolol recognition,
Liu XH, Jiang ZY, Han JT (Eds.), 1192-1198, (2010)
Yin YN et al., Study on Adsorption Properties of Glycylglycine Molecular Imprinted Polymer Microspheres.
Chemistry Bulletin, 75, (1), 58-62, (2012)
Song RY et al., Proceeding, Synthesis of Surface Imprinted Polymer Microspheres with Ultrathin Polymer Shells via Surface-Initiated Iniferter Polymerization,
Zeng Q (Ed.), 68-73, (2013)
Song RY et al., Preparation and properties of molecularly imprinted polymer microspheres for erythromycin.
Ion Exchange and Adsorption, 29, (2), 97-107, (2013)
Song RY et al., Molecularly imprinted solid-phase extraction of glutathione from urine samples.
Materials Science and Engineering: C, 44, 69-75, (2014)
Zhao N et al., Preparation of Erythromycin Imprinted Polymeric Microspheres by Emulsion Polymerization and Their Adsorption Properties.
Acta Physico-Chimica Sinica, 30, (1), 121-128, (2014)
Du CB et al., Synthesis of water-compatible surface-imprinted composite microspheres with core-shell structure for selective recognition of thymopentin from aqueous solution.
Journal of Materials Science, 50, (1), 427-438, (2015)
Du CB et al., Water-compatible surface-imprinted microspheres for high adsorption and selective recognition of peptide drug from aqueous media.
Journal of Materials Chemistry B, 3, (15), 3044-3053, (2015)
Guo LX et al., Facile preparation of superparamagnetic surface-imprinted microspheres using amino acid as template for specific capture of thymopentin.
Applied Surface Science, 357, (Part B), 1490-1498, (2015)
Li J et al., Preparation of molecularly imprinted polymers using ion-pair dummy template imprinting and polymerizable ionic liquids.
RSC Advances, 5, (77), 62697-62705, (2015)
Li J et al., Preparation of "dummy" l-phenylalanine molecularly imprinted microspheres by using ionic liquid as a template and functional monomer.
Journal of Separation Science, 38, (18), 3279-3287, (2015)
Li J et al., Preparation of Core-Shell Structural Surface Molecular Imprinting Microspheres and Recognition of L-Asparagine Based on [N1111]Asn Ionic Liquid as Template.
Reactive and Functional Polymers, 88, 8-15, (2015)
Qian LW et al., An effective way to imprint protein with the preservation of template structure by using a macromolecule as the functional monomer.
RSC Advances, 5, (73), 59062-59069, (2015)
Qian LW et al., The effectively specific recognition of bovine serum albumin imprinted silica nanoparticles by utilizing a macromolecularly functional monomer to stabilize and imprint template.
Analytica Chimica Acta, 884, 97-105, (2015)
Song RY et al., Synthesis of porous molecularly imprinted polymers for selective adsorption of glutathione.
Applied Surface Science, 332, 159-166, (2015)
Song RY et al., Synthesis of glutathione imprinted polymer particles via controlled living radical precipitation polymerization.
Chinese Journal of Polymer Science, 33, (3), 404-415, (2015)
Wang CL et al., Lysozyme Molecular Imprinted Membranes with Ionic Liquids as Functional Monomer.
Acta Polymerica Sinica, (3), 259-265, (2015)
Wang CL et al., Separation and purification of thymopentin with molecular imprinting membrane by solid phase extraction disks.
Journal of Pharmaceutical and Biomedical Analysis, 102, 137-143, (2015)
Du CB et al., Preparation of surface-imprinted microspheres effectively controlled by orientated template immobilization using highly cross-linked raspberry-like microspheres for the selective recognition of an immunostimulating peptide.
Journal of Materials Chemistry B, 4, (8), 1510-1519, (2016)
Gao XM et al., Synthesis of core-shell imprinting polymers with uniform thin imprinting layer via iniferter-induced radical polymerization for the selective recognition of thymopentin in aqueous solution.
RSC Advances, 6, (111), 110019-110031, (2016)
Li J et al., Preparation of l-phenylalanine-imprinted solid-phase extraction sorbent by Pickering emulsion polymerization and the selective enrichment of l-phenylalanine from human urine.
Journal of Separation Science, 39, (10), 1863-1872, (2016)
Song RY et al., Surface modification of imprinted polymer microspheres with ultrathin hydrophilic shells to improve selective recognition of glutathione in aqueous media.
Materials Science and Engineering: C, 60, 1-6, (2016)
Polymer Preprints, Japan, 55, (1), 1668-(2006)
Nagaoka S et al., Reconfirmation of Recognition Site in Composites of Imprinted beta-Cyclodextrin Polymer/Solid Support as Stationary Phase of HPLC.
Chemistry Letters, 37, (11), 1148-1149, (2008)
Macromolecules, 40, (10), 3530-3532, (2007)
Song SH et al., Molecular imprinting of cyclodextrin to physiologically active oligopeptides in water.
Supramolecular Chemistry, 22, (3), 149-155, (2010)
Process Biochemistry, 43, (11), 1209-1214, (2008)
Song SQ et al., Development and application of molecularly imprinted polymers as solid-phase sorbents for erythromycin extraction.
Analytical and Bioanalytical Chemistry, 390, (8), 2141-2150, (2008)
Zheng SL et al., Newly Combined Method of Molecularly Imprinted Solid-Phase Extraction with ELISA for Rapid Detection of Clenbuterol in Animal-Tissue Samples.
Analytical Letters, 42, (3), 600-614, (2009)
Shi XZ et al., Determination of Chloramphenicol Residues in Foods by ELISA and LC-MS/MS Coupled with Molecularly Imprinted Solid Phase Extraction.
Analytical Letters, 43, (17), 2798-2807, (2010)
Shi XZ et al., Water Compatible Molecularly Imprinted Polymer Microspheres for Extraction of Ampicillin in Foods.
Analytical Letters, 43, (5), 757-767, (2010)
Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
Shao MY et al., Carbon Quantum Dots Encapsulated Molecularly Imprinted Fluorescence Quenching Particles for Sensitive Detection of Zearalenone in Corn Sample.
Toxins, 10, (11), ArticleNo438-(2018)
Russian Journal of Physical Chemistry A, 89, (12), 2294-2297, (2015)
Zheng XF et al., Molecularly imprinted polymer for L-tyrosine recognition and controlled release.
Russian Journal of Applied Chemistry, 88, (1), 160-168, (2015)
Bioorganic & Medicinal Chemistry, 15, (18), 6089-6095, (2007)
Zhang HT et al., Synthesis and characterization of molecularly imprinted polymers for phenoxyacetic acids.
International Journal of Molecular Sciences, 9, (1), 98-106, (2008)
Journal of Solid State Electrochemistry, 14, (10), 1909-1914, (2010)
Han F et al., Determination of Triazines Residues in Food Samples Using Dummy Molecularly Imprinted Solid Phase Extraction Based on Molecular Simulation.
Chinese Journal of Analytical Chemistry, 40, (11), 1648-1653, (2012)
Zhang L et al., Selective trace analysis of chloroacetamide herbicides in food samples using dummy molecularly imprinted solid phase extraction based on chemometrics and quantum chemistry.
Analytica Chimica Acta, 729, (1), 36-44, (2012)
Li WJ et al., Molecular simulation and adsorption property of molecularly imprinted polymerization system using triadimefon as template.
Chemical Journal of Chinese Universities, 34, (5), 1219-1225, (2013)
Hu YY et al., Selective Detection of 20 Triazoles Residues in Food Uusing Molecularly Imprinted Solid Phase Extraction coupled with Liquid Chromatography Tandem Mass Spectrometry.
Chinese Journal of Analytical Chemistry, 42, (2), 227-232, (2014)
Han F et al., Computational design and synthesis of molecular imprinted polymers for selective solid phase extraction of sulfonylurea herbicides.
Journal of Chromatography A, 1651, Article462321-(2021)
Microchimica Acta, 180, (13-14), 1325-1332, (2013)
Microchimica Acta, 186, (1), Article22-(2018)
Sensor Letters, 9, (2), 557-562, (2011)
Niu BL et al., Intermediate accumulation and toxicity reduction during the selective photoelectrochemical process of atrazine in complex water bodies.
Water Research, 205, Article117663-(2021)
Analytical and Bioanalytical Chemistry, 406, (28), 7221-7231, (2014)
Qian LW et al., The effectively specific recognition of bovine serum albumin imprinted silica nanoparticles by utilizing a macromolecularly functional monomer to stabilize and imprint template.
Analytica Chimica Acta, 884, 97-105, (2015)
Qian LW et al., Utilizing Macromolecular Chain as Functional Monomer and Crosslinker to Imprint BSA with Preserving the Structural Integrity of Template.
Chemical Journal of Chinese Universities, 37, (11), 2092-2100, (2016)
Song WQ et al., Synthesis of l-phenylalanine imprinted hydrogels with anti-biofouling capability by using a novel zwitterionic functional monomer.
Separation and Purification Technology, 182, 247-254, (2017)
Qian LW et al., Fabrication of Raspberry-like Cytochrome C Surface-Imprinted Nanoparticles Based on MOF Composites for High-Performance Protein Separation.
ACS Applied Materials & Interfaces, 13, (26), 31010-31020, (2021)
Song WQ et al., Constructing High-Recognition Protein-Imprinted Materials Using "Specially Designed" Block Macromolecular Chains as Functional Monomers and Crosslinkers.
ACS Applied Materials & Interfaces, 13, (45), 54428-54438, (2021)
Journal of Shanghai Jiaotong University (Agricultural Science), 24, (6), 499-502, (2006)
Zhang NW et al., Preparation of chloramphenicol succinate molecularly imprinted membrane and study of its absorption characteristic.
Acta Chimica Sinica, 66, (17), 1961-1966, (2008)
Zhang NW et al., Molecularly Imprinted Membrane-Based Sensor for the Detection of Chloramphenicol Succinate Residue in Milk.
Chinese Journal of Analytical Chemistry, 36, (10), 1380-1384, (2008)
Zhang NW et al., Preparation of Chloramphenicol Succinate Molecularly Imprinted Polysulfone Membrane and Preliminary Studies on Its Electrochemical and Absorption Ability.
Journal of Huazhong Agricultural University, 28, (5), 591-594, (2009)
Industrial & Engineering Chemistry Research, 51, (34), 11261-11265, (2012)
Zhang SW et al., Determination of low urinary 8-hydroxy-2'-deoxyguanosine excretion with capillary electrophoresis and molecularly imprinted monolith solid phase microextraction.
Science of The Total Environment, 450 - 451, 266-270, (2013)
Wang L et al., Determination of ciprofloxacin in milk by new magnetic molecular imprinting- high performance liquid chromatography.
Journal of Food Safety and Quality, 9, (15), 3999-4005, (2018)
Wang L et al., Determination of atrazine in vegetables by magnetic molecularly imprinted polymer flow injection preconcentration and gas chromatography.
Journal of Hygiene Research, 48, (2), 289-294, (2019)
Chemistry Bulletin, 68, (7), 504-509, (2005)
Dong B et al., Advances in Study on Lipase Bio-imprinting.
China Biotechnology, 26, (3), 78-82, (2006)
Gong W et al., Study on lipase conformation recording and its stability.
Journal of Zhejiang University (Engineering Science), 40, (5), 841-844, (2006)
Materials Research-Ibero-American Journal of Materials, 12, (3), 299-304, (2009)
Song XL et al., Quercetin molecularly imprinted polymers: Preparation, recognition characteristics and properties as sorbent for solid-phase extraction.
Talanta, 80, (2), 694-702, (2009)
Wang JT et al., Synthesis, Evaluation and Adsorption Behavior of Naphthalene Analog-Imprinted Polymer by Immobilized Template on Modified Silica Gel in Seawater.
Chinese Journal of Analytical Chemistry, 38, (8), 1121-1126, (2010)
Song XL et al., Determination of 16 polycyclic aromatic hydrocarbons in seawater using molecularly imprinted solid-phase extraction coupled with gas chromatography-mass spectrometry.
Talanta, 99, 75-82, (2012)
Song XL et al., Synthesis, properties and adsorption behavior of double molecularly imprinted polymeric microsphere in seawater.
Environmental Chemistry, 31, (1), 9-15, (2012)
Xu SF et al., Photonic and magnetic dual responsive molecularly imprinted polymers: preparation, recognition characteristics and properties as a novel sorbent for caffeine in complicated samples.
Analytical Methods, 5, (1), 124-133, (2013)
Xu SF et al., Dummy Molecularly Imprinted Polymers-Capped CdTe Quantum Dots for the Fluorescent Sensing of 2, 4, 6-Trinitrotoluene.
ACS Applied Materials & Interfaces, 5, (16), 8146-8154, (2013)
Cai XQ et al., Chemodosimeter-based fluorescent detection of l-cysteine after extracted by molecularly imprinted polymers.
Talanta, 120, 297-303, (2014)
Song XL et al., Recent advances in molecularly imprinted polymers in food analysis.
Journal of Applied Polymer Science, 131, (16), Article40766-(2014)
Zhang Z et al., Hg2+ ion-imprinted polymers sorbents based on dithizone-Hg2+ chelation for mercury speciation analysis in environmental and biological samples.
RSC Advances, 4, (87), 46444-46453, (2014)
Jin XY et al., Synthesis and Characterization of Fomesafen Imprinted Polymers.
Journal of Macromolecular Science, Part A, 52, (4), 316-321, (2015)
Li JH et al., One-pot synthesis of magnetic molecularly imprinted microspheres by RAFT precipitation polymerization for the fast and selective removal of 17[beta]-estradiol.
RSC Advances, 5, (14), 10611-10618, (2015)
Song XL et al., Preparation of analog-molecularly imprinted microspheres and their adsorbent performance for microcystin in aqueous solution.
Environmental Chemistry, 35, (3), 451-459, (2016)
Ming WN et al., Magnetic molecularly imprinted polymers for the fluorescent detection of trace 17[beta]-estradiol in environmental water.
Sensors and Actuators B: Chemical, 238, 1309-1315, (2017)
Song XL et al., Effective and selective adsorption of As(III) via imprinted magnetic Fe3O4/HTCC composite nanoparticles.
Journal of Environmental Chemical Engineering, 5, (1), 16-25, (2017)
Yang Q et al., Simultaneous phase-inversion and imprinting based sensor for highly sensitive and selective detection of bisphenol A.
Talanta, 176, 595-603, (2018)
Fu KY et al., Rapid and selective recognition of Vibrio parahaemolyticus assisted by perfluorinated alkoxysilane modified molecularly imprinted polymer film.
RSC Advances, 10, (24), 14305-14312, (2020)
Separation and Purification Technology, 234, Article116085-(2020)
Chinese Journal of Analytical Chemistry, 42, (6), 878-884, (2014)
Yang JW et al., Determination of cyproheptadine in feeds using molecularly imprinted solid-phase extraction coupled with HPLC.
Journal of Chromatography B, 990, 39-44, (2015)
Song XQ et al., Molecularly imprinted solid-phase extraction for the determination of ten macrolide drugs residues in animal muscles by liquid chromatography-tandem mass spectrometry.
Food Chemistry, 208, 169-176, (2016)
Zhou T et al., Determination of azithromycin residue in pork using a molecularly imprinted monolithic microcolumn coupled to liquid chromatography with tandem mass spectrometry.
Journal of Separation Science, 39, (7), 1339-1346, (2016)
Song XQ et al., Determination of macrolide antibiotics residues in pork using molecularly imprinted dispersive solid-phase extraction coupled with LC-MS/MS.
Journal of Separation Science, 41, (5), 1138-1148, (2018)
Song XQ et al., Determination of Ten Macrolide Drugs in Environmental Water Using Molecularly Imprinted Solid-Phase Extraction Coupled with Liquid Chromatography-Tandem Mass Spectrometry.
Molecules, 23, (5), ArticleNo1172-(2018)
Song XQ et al., Preparation and Application of Molecularly Imprinted Monolithic Extraction Column for the Selective Microextraction of Multiple Macrolide Antibiotics from Animal Muscles.
Polymers, 11, (7), ArticleNo1109-(2019)
Zhou H et al., Preparation of surface molecularly imprinted polymer and its application for the selective extraction of teicoplanin from water.
RSC Advances, 11, (22), 13615-13623, (2021)
Separation and Purification Technology, 177, 142-151, (2017)
Hu SW et al., An Electrochemical Sensor Based on ion Imprinted PPy/rGO Composite for Cd(II) Determination in Water.
International Journal of Electrochemical Science, 14, 11714-11730, (2019)
Sensors and Actuators B: Chemical, 253, 108-114, (2017)
Song YH et al., A dopamine-imprinted chitosan Film/Porous ZnO NPs@carbon Nanospheres/Macroporous carbon for electrochemical sensing dopamine.
Sensors and Actuators B: Chemical, 298, Article126949-(2019)
Liu KK et al., Plasticizer-free polymer membrane potentiometric sensors based on molecularly imprinted polymers for determination of neutral phenols.
Analytica Chimica Acta, 1121, 50-56, (2020)
Adsorption Science & Technology, 30, (5), 409-424, (2012)
Song YJ et al., Ion-Imprinted Polymers Based on Hollow Silica with Yeasts as Sacrificial Supports for Sr2+ Selective Adsorption.
Journal of Inorganic and Organometallic Polymers and Materials, 23, (6), 1325-1334, (2013)
Chemical Journal on Internet, 12, (1), (2010)
Lv YK et al., Preparation and Characterization of Imprinted Polymers Based on Cobalt(II)-Enrofloxacin Coordination.
Asian Journal of Chemistry, 23, (9), 4037-4041, (2011)
Hou J et al., Hydrophilic-Hydrophobic Patterned Molecularly Imprinted Photonic Crystal Sensors for High-Sensitive Colorimetric Detection of Tetracycline.
Small, 11, (23), 2738-2742, (2015)
Song YL et al., Application of molecularly imprinted technology for separation of PGG from Guizhi Fuling capsule.
China Journal of Chinese Materia Medica, 40, (6), 1012-1016, (2015)
Talanta, 204, 238-247, (2019)
Food Control, 82, 233-242, (2017)
Song YP et al., Dummy template molecularly imprinted polymer for solid phase extraction of phenothiazines in meat based on computational simulation.
Food Chemistry, 233, 422-428, (2017)
Wang GN et al., Application of molecularly imprinted polymer based matrix solid phase dispersion for determination of fluoroquinolones, tetracyclines and sulfonamides in meat.
Journal of Chromatography B, 1065, 104-111, (2017)
Water Science And Technology, 74, (5), 1193-1201, (2016)
Song YQ et al., Synthesis of an inorganic-framework molecularly imprinted Fe-doped TiO2 composite and its selective photo-Fenton-like degradation of acid orange II.
Journal of Chemical Technology & Biotechnology, 92, (8), 2038-2049, (2017)
Song YQ et al., Selective Fenton-like catalytic oxidation of acid orange II on inorganic heterogeneous molecular imprinted catalysts.
Journal of Advanced Oxidation Technologies, 20, (1), ArticleNo20160195-(2017)
Zhang YY et al., Selective Fenton-like oxidation of methylene blue on modified Fe-zeolites prepared via molecular imprinting technique.
Water Science And Technology, 75, (3), 659-(2017)
Song ZH et al., Chromatographic performance of zidovudine imprinted polymers coated silica stationary phases.
Talanta, 239, Article123115-(2022)
Asian Journal of Chemistry, 26, (21), 7249-7254, (2014)
Microchemical Journal, 166, Article106232-(2021)
Journal of Chromatography B, 945-946, 127-134, (2014)
Acta Biomaterialia, 10, (2), 769-775, (2014)
Tang T et al., Determination of semicarbazide in fish by molecularly imprinted stir bar sorptive extraction coupled with high performance liquid chromatography.
Journal of Chromatography B, 1076, 8-14, (2018)
Talanta, 125, 14-23, (2014)
Han S et al., A kanamycin sensor based on an electrosynthesized molecularly imprinted poly-o-phenylenediamine film on a single-walled carbon nanohorn modified glassy carbon electrode.
Analyst, 142, (1), 218-223, (2017)
Talanta, 239, Article123115-(2022)
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 436, 693-703, (2013)
Liu CB et al., Molecular Imprinting in Fluorescent Particle Stabilized Pickering Emulsion for Selective and Sensitive Optosensing of [lambda]-Cyhalothrin.
Journal of Physical Chemistry C, 117, (20), 10445-10453, (2013)
Cao ZJ et al., Preparation of Magnetic Imprinted Core-Shell Particles Through Reverse Atom Transfer Radical Precipitation Polymerization for Selective Removal of Sulfamethazine.
Journal of Computational and Theoretical Nanoscience, 6, (8), 657-665, (2014)
Gao L et al., Molecularly imprinted polymer microspheres for optical measurement of ultra trace nonfluorescent cyhalothrin in honey.
Food Chemistry, 156, 1-6, (2014)
Wang J et al., Surface molecularly imprinted polymers based on yeast prepared by atom transfer radical emulsion polymerization for selective recognition of ciprofloxacin from aqueous medium.
Journal of Applied Polymer Science, 131, (11), Article No 40310-(2014)
Wei X et al., Synthesis of molecularly imprinted silica nanospheres embedded mercaptosuccinic acid-coated CdTe quantum dots for selective recognition of [lambda]-cyhalothrin.
Journal of Luminescence, 153, 326-332, (2014)
Xie QJ et al., Molecularly imprinted [beta]-cyclodextrin/Kaoline particles for the selective recognition and binding of bisphenol A.
The Canadian Journal of Chemical Engineering, 92, (4), 720-728, (2014)
Journal of Environmental Chemical Engineering, 9, (6), Article106352-(2021)
Jpc-Journal Of Planar Chromatography-Modern Tlc, 11, 272-276, (1998)
Suedee R et al., Direct enantioseparation of adrenergic drugs via thin-layer chromatography using molecularly imprinted polymers.
Journal of Pharmaceutical and Biomedical Analysis, 19, (3), 519-527, (1999)
International Journal of Pharmaceutics, 349, (1-2), 212-225, (2008)
Suedee R et al., Development of a pH-responsive drug delivery system for enantioselective-controlled delivery of racemic drugs.
Journal of Controlled Release, 142, (1), 122-131, (2010)
Drug Delivery, 23, (8), 3017-3026, (2016)
Kobunshi Ronbunshu, 50, (5), 403-410, (1993)
352-353, (2010)
Sontimuang C et al., Interdigitated capacitive biosensor based on molecularly imprinted polymer for rapid detection of Hev b1 latex allergen.
Analytical Biochemistry, 410, (2), 224-233, (2011)
Sontimuang C et al., Proceeding, Development of a Rubber Elongation Factor Surface-Quartz Crystal Microbalance Sensor for Determination of Natural Rubber Latex Allergens in Glove Samples,
26-29, (2011)
Sontimuang C et al., Proceeding, Development of Interdigitated Capacitance Electrodes Based on Rubber Elongation Factor-Imprinted Polymer for Determination of Rubber Elongation Factor Proteins in Rubber Latex Gloves,
53-56, (2011)
Sontimuang C et al., Development of a rubber elongation factor, surface-imprinted polymer-quartz crystal microbalance sensor, for quantitative determination of Hev b1 rubber latex allergens present in natural rubber latex products.
Analytica Chimica Acta, 687, (2), 184-192, (2011)
Kueseng P et al., Rapid preparation of molecularly imprinted polymers by custom-made microwave heating for analysis of atrazine in water.
Journal of Separation Science, 41, (13), 2783-2789, (2018)
RSC Advances, 8, (1), 206-212, (2018)
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 201, 382-391, (2018)
Journal of Applied Polymer Science, 131, (20), n/a-n/a, (2014)
Sooraj MP et al., Artificial Recognition Sorbents on Multiwalled Carbon Nanotubes for the Separation of Aspirin from its Structural Analogues.
International Journal of Scientific & Engineering Research, 6, (9), 723-733, (2015)
Sooraj MP et al., Highly selective nanocomposite sorbents for the specific recognition of S-ibuprofen from structurally related compounds.
Applied Nanoscience, 6, (5), 659-671, (2016)
Sooraj MP et al., Fabrication of a Structure-Specific Molecular Imprinted Polymer-Based Electrochemical Sensor Based on CuNP-Decorated Vinyl-Functionalized Graphene for the Detection of Parathion Methyl in Vegetable and Fruit Samples.
Food Analytical Methods, 12, (4), 1028-1039, (2019)
Sooraj MP et al., CuNPs decorated molecular imprinted polymer on MWCNT for the electrochemical detection of l-DOPA.
Arabian Journal of Chemistry, 13, (1), 2483-2495, (2020)
Analyst, 138, (10), 2821-2824, (2013)
Chemistry of Materials, 23, (16), 3645-3651, (2011)
Fuchs Y et al., Photopolymerization and photostructuring of molecularly imprinted polymers for sensor applications - A review.
Analytica Chimica Acta, 717, (1), 7-20, (2012)
Fuchs Y et al., Proceeding, Photopolymerization and photostructuring of molecularly imprinted polymers for sensor applications,
Article Number 6411425, (2012)
Fuchs Y et al., Holographic Molecularly Imprinted Polymers for Label-Free Chemical Sensing.
Advanced Materials, 25, (4), 566-570, (2013)
Ton XA et al., A Versatile Fiber-Optic Fluorescence Sensor Based on Molecularly Imprinted Microstructures Polymerized in Situ.
Angewandte Chemie International Edition, 52, (32), 8317-8321, (2013)
Fuchs Y et al., Molecularly Imprinted Silver-Halide Reflection Holograms for Label-Free Opto-Chemical Sensing.
Advanced Functional Materials, 24, (5), 688-694, (2014)
Gomez LPC et al., Rapid Prototyping of Chemical Microsensors Based on Molecularly Imprinted Polymers Synthesized by Two-Photon Stereolithography.
Advanced Materials, 28, (28), 5931-5937, (2016)
Paruli E et al., Photopolymerization and Photostructuring of Molecularly Imprinted Polymers.
ACS Applied Polymer Materials, 3, (10), 4769-4790, (2021)
Journal of Chromatography A, 1569, 36-43, (2018)
Journal of Molecular Recognition, 33, (7), Article_e2836-(2020)
Regasa MB et al., Novel multifunctional molecular recognition elements based on molecularly imprinted poly (aniline-co-itaconic acid) composite thin film for melamine electrochemical detection.
Sensing and Bio-Sensing Research, 27, Article100318-(2020)
Iranian Journal of Medical Sciences, 39, (6), 552-558, (2014)
Science of The Total Environment, 609, 885-895, (2017)
ACS Omega, 6, (46), 31282-31291, (2021)
Analytical Methods, 4, (9), 3007-3012, (2012)
(2011)
Sorouraddin MH et al., Proceeding, Very fast synthesis of molecularly imprinted polymer for Napoxen separation,
(2011)
(2011)
Djozan D et al., Synthesis and Application of High Selective Monolithic Fibers Based on Molecularly Imprinted Polymer for SPME of Trace Methamphetamine.
Chromatographia, 73, (9), 975-983, (2011)
Djozan D et al., Determination of methamphetamine, amphetamine and ecstasy by inside-needle adsorption trap based on molecularly imprinted polymer followed by GC-FID determination.
Microchimica Acta, 179, (3), 209-217, (2012)
Djozan D et al., Molecularly imprinted-solid phase extraction combined with simultaneous derivatization and dispersive liquid-liquid microextraction for selective extraction and preconcentration of methamphetamine and ecstasy from urine samples followed by gas chromatography.
Journal of Chromatography A, 1248, 24-31, (2012)
Djozan D et al., Inside-Needle Extraction Method Based on Molecularly Imprinted Polymer for Solid-Phase Dynamic Extraction and Preconcentration of Triazine Herbicides Followed by GC-FID Determination.
Chromatographia, 75, (3), 139-148, (2012)
Sorouraddin SM et al., Development of molecularly imprinted-solid phase extraction combined with dispersive liquid-liquid microextraction for selective extraction and preconcentration of triazine herbicides from aqueous samples.
Journal of the Iranian Chemical Society, 13, (6), 1093-1104, (2016)
Journal of Chromatography A, 1481, 23-30, (2017)
Sorribes-Soriano A et al., Magnetic molecularly imprinted polymers for the selective determination of cocaine by ion mobility spectrometry.
Journal of Chromatography A, 1545, 22-31, (2018)
Sorribes-Soriano A et al., Trace analysis by ion mobility spectrometry: From conventional to smart sample preconcentration methods. A review.
Analytica Chimica Acta, 1026, 37-50, (2018)
Aria MM et al., Uptake and translocation monitoring of imidacloprid to chili and tomato plants by molecularly imprinting extraction - ion mobility spectrometry.
Microchemical Journal, 144, 195-202, (2019)
Sorribes-Soriano A et al., Development of a molecularly imprinted monolithic polymer disk for agitation-extraction of ecgonine methyl ester from environmental water.
Talanta, 199, 388-395, (2019)
Sorribes-Soriano A et al., Amphetamine-type stimulants analysis in oral fluid based on molecularly imprinting extraction.
Analytica Chimica Acta, 1052, 73-83, (2019)
Sorribes-Soriano A et al., Molecularly imprinted polymer-based device for field collection of oral fluid samples for cocaine identification.
Journal of Chromatography A, 1633, Article461629-(2020)
Sorribes-Soriano A et al., Tuning the selectivity of molecularly imprinted polymer extraction of arylcyclohexylamines: From class-selective to specific.
Analytica Chimica Acta, 1124, 94-103, (2020)
Journal of Materials Chemistry, 22, (2), 301-318, (2012)
Analytica Chimica Acta, 704, (1-2), 33-46, (2011)
Guedes-Alonso R et al., Molecularly imprinted solid-phase extraction coupled with ultra high performance liquid chromatography and fluorescence detection for the determination of estrogens and their metabolites in wastewater.
Journal of Separation Science, 38, (22), 3961-3968, (2015)
Bioorganic & Medicinal Chemistry, 21, 653-659, (2013)
Analytical Chemistry, 85, (17), 8361-8368, (2013)
Cieplak M et al., Selective electrochemical sensing of human serum albumin by semi-covalent molecular imprinting.
Biosensors and Bioelectronics, 74, 960-966, (2015)
Huynh TP et al., Nicotine molecularly imprinted polymer: Synergy of coordination and hydrogen bonding.
Biosensors and Bioelectronics, 64, 657-663, (2015)
Huynh TP et al., Cytosine derivatized bis(2, 2'-bithienyl)methane molecularly imprinted polymer for selective recognition of 6-thioguanine, an antitumor drug.
Biosensors and Bioelectronics, 70, 153-160, (2015)
Huynh TP et al., Functionalized polythiophenes: Recognition materials for chemosensors and biosensors of superior sensitivity, selectivity, and detectability.
Progress in Polymer Science, 47, 1-25, (2015)
Iskierko Z et al., Extended-gate field-effect transistor (EG-FET) with molecularly imprinted polymer (MIP) film for selective inosine determination.
Biosensors and Bioelectronics, 74, 526-533, (2015)
Sharma PS et al., Potentiometric chemosensor for neopterin, a cancer biomarker, using an electrochemically synthesized molecularly imprinted polymer as the recognition unit.
Biosensors and Bioelectronics, 77, 565-572, (2016)
Wojnarowicz A et al., An electropolymerized molecularly imprinted polymer for selective carnosine sensing with impedimetric capacity.
Journal of Materials Chemistry B, 4, (6), 1156-1165, (2016)
Bartold K et al., Programmed Transfer of Sequence Information into a Molecularly Imprinted Polymer for Hexakis(2, 2'-bithien-5-yl) DNA Analogue Formation toward Single-Nucleotide-Polymorphism Detection.
ACS Applied Materials & Interfaces, 9, (4), 3948-3958, (2017)
Lach P et al., Self-Reporting Molecularly Imprinted Polymer for Label-Free Selective Electrochemical Sensing of p-synephrine.
Proceedings, 1, (8), ArticleNo772-(2017)
Expert Opinion on Drug Delivery, 13, (12), 1671-1680, (2016)
Chemistry of Materials, 21, (8), 1439-1450, (2009)
Talanta, 170, 244-251, (2017)
Foguel MV et al., Molecularly Imprinted Polymer (MIP): A Promising Recognition System for Development of Optical Sensor for Textile Dyes.
Procedia Technology, 27, 299-300, (2017)
Pedroso MM et al., Electrochemical sensor for dodecyl gallate determination based on electropolymerized molecularly imprinted polymer.
Sensors and Actuators B: Chemical, 253, 180-186, (2017)
Khan S et al., Synthesis and characterization of magnetic-molecularly imprinted polymers for the HPLC-UV analysis of ametryn.
Reactive and Functional Polymers, 122, 175-182, (2018)
Hassan AHA et al., Biomimetic magnetic sensor for electrochemical determination of scombrotoxin in fish.
Talanta, 194, 997-1004, (2019)
Pupin RR et al., Magnetic molecularly imprinted polymers obtained by photopolymerization for selective recognition of penicillin G.
Journal of Applied Polymer Science, 137, (13), Article48496-(2020)
Silva LM et al., Use of two functional monomers for a new approach to the synthesis of a magnetic molecularly imprinted polymer for ciprofloxacin.
Journal of Materials Research and Technology, 15, 511-523, (2021)
Sensors and Actuators B: Chemical, 218, 222-228, (2015)
Toro MJU et al., A new biomimetic sensor based on molecularly imprinted polymers for highly sensitive and selective determination of hexazinone herbicide.
Sensors and Actuators B: Chemical, 208, 299-306, (2015)
Wong A et al., Development of an electrochemical sensor modified with MWCNT-COOH and MIP for detection of diuron.
Electrochimica Acta, 182, 122-130, (2015)
Marestoni LD et al., Semi-Empirical Quantum Chemistry Method for Pre-Polymerization Rational Design of Ciprofloxacin Imprinted Polymer and Adsorption Studies.
Journal of the Brazilian Chemical Society, 27, (1), 109-118, (2016)
Silva BVM et al., An ultrasensitive human cardiac troponin T graphene screen-printed electrode based on electropolymerized-molecularly imprinted conducting polymer.
Biosensors and Bioelectronics, 77, 978-985, (2016)
Uzuriaga-Sánchez RJ et al., Magnetically separable polymer (Mag-MIP) for selective analysis of biotin in food samples.
Food Chemistry, 190, 460-467, (2016)
Ben Aissa A et al., Magnetic molecularly imprinted polymer for the isolation and detection of biotin and biotinylated biomolecules.
Biosensors and Bioelectronics, 88, 101-108, (2017)
Uzuriaga-Sánchez RJ et al., Synthesis of a new magnetic-MIP for the selective detection of 1-chloro-2, 4-dinitrobenzene, a highly allergenic compound.
Materials Science and Engineering: C, 74, 365-373, (2017)
Baeza-Fonte AN et al., Determination of Cephalosporins by UHPLC-DAD Using Molecularly Imprinted Polymers.
Journal of Chromatographic Science, 56, (2), 187-193, (2018)
Hassan AHA et al., Electrochemical sensing of methyl parathion on magnetic molecularly imprinted polymer.
Biosensors and Bioelectronics, 118, 181-187, (2018)
Moura SL et al., Theoretical and experimental study for the biomimetic recognition of levothyroxine hormone on magnetic molecularly imprinted polymer.
Biosensors and Bioelectronics, 107, 203-210, (2018)
Ruiz-Córdova GA et al., Electrochemical sensing using magnetic molecularly imprinted polymer particles previously captured by a magneto-sensor.
Talanta, 181, 19-23, (2018)
Bergamin B et al., A New Electrochemical Platform Based on a Polyurethane Composite Electrode Modified with Magnetic Nanoparticles Coated with Molecularly Imprinted Polymer for the Determination of Estradiol Valerate in Different Matrices.
Journal of the Brazilian Chemical Society, 30, (11), 2344-2354, (2019)
Khan S et al., Electrochemical sensors based on biomimetic magnetic molecularly imprinted polymer for selective quantification of methyl green in environmental samples.
Materials Science and Engineering: C, 103, Article109825-(2019)
de Liss Meza López F et al., Systematic study on the synthesis of novel ion-imprinted polymers based on rhodizonate for the highly selective removal of Pb(II).
Reactive and Functional Polymers, 159, Article104805-(2021)
Mortari B et al., A spot test for direct quantification of acid green 16 adsorbed on a molecularly imprinted polymer through diffuse reflectance measurements.
Analytical Methods, 13, (4), 453-461, (2021)
Santos AM et al., Voltammetric determination of ethinylestradiol using screen-printed electrode modified with functionalized graphene, graphene quantum dots and magnetic nanoparticles coated with molecularly imprinted polymers.
Talanta, 224, Article121804-(2021)
Zeb S et al., Using magnetic nanoparticles/MIP-based electrochemical sensor for quantification of tetracycline in milk samples.
Journal of Electroanalytical Chemistry, 900, Article115713-(2021)
Neres LCS et al., Development of a selective molecularly imprinted polymer for troponin T detection: a theoretical-experimental approach.
Materials Today Communications, 30, Article102996-(2022)
Quimica Nova, 36, (8), 1194-1207, (2013)
Analytical and Bioanalytical Chemistry, 413, (24), 6141-6157, (2021)
Angewandte Chemie International Edition, 53, (34), 8919-8923, (2014)
Journal of the Brazilian Chemical Society, 32, (9), 1789-1801, (2021)
Quimica Nova, 32, (6), 1609-1619, (2009)
Microchimica Acta, 188, (10), Article334-(2021)
Polimeros-Ciencia e Tecnologia, 25, (6), 596-605, (2015)
Biosensors and Bioelectronics, 146, Article111761-(2019)
Davis BR, Moats MS, Wang SJ, Gregurek D, Kapusta J, Battle TP, Schlesinger ME, Alvear Flores GR, Jak E, Goodall G, Free ML, Asselin E, Chagnes A, Dreisinger D, Jeffrey M, Lee J, Miller G, Petersen J, Ciminelli VST, Xu Q, Molnar R, Adams J, Liu WY, Verbaan N, Goode J, London IM, Azimi G, Forstner A, Kappes R, Bhambhani T (Eds.), 1943-1960, (2018)
Johns Hopkins APL Technical Digest, 25, (1), 44-49, (2004)
Murray G et al., Synthetic and spectroscopic characterization of molecularly imprinted polymer phosphonate sensors.
Abstracts of Papers of the American Chemical Society, 227, (POLY), 593-593, (2004)
Murray GM et al., Book chapter, Optical transduction schemes for molecularly imprinted polymer sensors,
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 10, 61-70, (2004)
Murray GM et al., Book chapter, Metal ion selective molecularly imprinted polymers,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 22, 579-602, (2005)
Owens GS et al., Molecularly imprinted ion-exchange resin for Fe3+.
Separation Science and Technology, 40, (11), 2205-2211, (2005)
Van Houten KA et al., Soluble and processable molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 230, (ANYL), 401-401, (2005)
Southard GE et al., Book chapter, Synthesis and spectroscopic characterization of molecularly imprinted polymer phosphonate sensors,
In: Antiterrorism and Homeland Defense: Polymers and Materials, Reynolds JG, Lawson GE (Eds.) Oxford University Press, USA: Ch. 2, 19-38, (2007)
Southard GE et al., Luminescent sensing of organophosphates using europium(III) containing imprinted polymers prepared by RAFT polymerization.
Analytica Chimica Acta, 581, (2), 202-207, (2007)
Southard GE et al., Soluble and Processable Phosphonate Sensing Star Molecularly Imprinted Polymers.
Macromolecules, 40, (5), 1395-1400, (2007)
Southard GE et al., Book chapter, Molecularly Imprinted Polymer Receptors for Sensors and Arrays,
In: Recognition Receptors in Biosensors, Zourob M (Ed.) Springer: Ch. 19, 751-775, (2010)
Analytica Chimica Acta, 397, (1-3), 173-181, (1999)
Journal of Pharmaceutical Sciences, 91, (10), 2182-2192, (2002)
Analytica Chimica Acta, 932, 49-59, (2016)
Journal of Chromatography A, 1620, Article460977-(2020)
In: Green Extraction Techniques Principles, Advances and Applications, Ibáńez E, Cifuentes A (Eds.) Elsevier: Ch. 16, 483-517, (2017)
4475-4478, (2012)
Electroanalysis, 25, (5), 1278-1285, (2013)
Muti M et al., A Novel DNA Probe Based on Molecularly Imprinted Polymer Modified Electrode for the Electrochemical Monitoring of DNA.
Electroanalysis, 27, (6), 1368-1377, (2015)
Toxins, 5, (10), 1827-1844, (2013)
Reactive and Functional Polymers, 72, (4), 287-293, (2012)
Nature Materials, 13, (7), 748-755, (2014)
Molecules, 23, (1), ArticleNo63-(2018)
Advanced Materials, 28, (28), 5931-5937, (2016)
Journal of Separation Science, 38, (20), 3661-3668, (2015)
Spano G et al., Full vs. partial competitive binding behaviour in molecularly imprinted polymers. The case for a chlorinated phenoxyacids-binding polymer.
RSC Advances, 6, (82), 78317-78321, (2016)
Spano G et al., Development of a biomimetic enzyme-linked immunosorbent assay based on a molecularly imprinted polymer for the detection of cortisol in human saliva.
Analytical Methods, 11, (17), 2320-2326, (2019)
Cavalera S et al., Stoichiometric molecular imprinting using polymerisable urea and squaramide receptors for the solid phase extraction of organo-arsenic compound roxarsone.
Analytical Methods, 12, (47), 5729-5736, (2020)
MRS Proceedings, 1797, ArticleNo:mrss15-2132190-(2015)
Macromolecular Chemistry And Physics, 203, (10-11), 1532-1538, (2002)
Analyst, 136, (18), 3753-3757, (2011)
Polymer Engineering & Science, 54, (7), 1484-1494, (2014)
Journal of AOAC International, 92, (3), 703-714, (2009)
Biosensors and Bioelectronics, 22, (9-10), 2322-2328, (2007)
Journal of Molecular Recognition, 25, (9), 451-473, (2012)
Environmental Science and Pollution Research, 21, (23), 13215-13221, (2014)
Speltini A et al., Newest applications of molecularly imprinted polymers for extraction of contaminants from environmental and food matrices: A review.
Analytica Chimica Acta, 974, 1-26, (2017)
Journal of Biomedical Materials Research Part A, 105, (6), 1565-1574, (2017)
Biofabrication, 7, (2), ArticleNo025002-(2015)
Farmaceuticky Obzor, 80, (10), 251-256, (2011)
Hrobonová K et al., Application of umbelliferone molecularly imprinted polymer in analysis of plant samples.
Chemical Papers, 67, (5), 477-483, (2013)
Spevak A et al., Use of polymer molecules imprinted umbeliferonu the analysis of plant samples.
Chemicke Listy, 107, (SPEC. ISSUE 2), s270-s272, (2013)
Spevak A et al., Group-selective molecularly imprinted polymer as a sorbent for extraction of coumarins from medicinal plants.
Chemicke Listy, 108, (3), 251-255, (2014)
Journal of Applied Biomaterials & Funtional Materials, 14, (2), e129-e136, (2016)
Journal of Materials Chemistry, 9, (9), 2259-2264, (1999)
Procedia Engineering, 168, 561-564, (2016)
Poller AM et al., Surface Imprints: Advantageous Application of Ready2use Materials for Bacterial Quartz-Crystal Microbalance Sensors.
ACS Applied Materials & Interfaces, 9, (1), 1129-1135, (2017)
Abstracts of Papers of the American Chemical Society, 236, (AGFD), 193-(2008)
Macromolecules, 35, (10), 3977-3983, (2002)
Chemical Society Reviews, 39, (11), 4524-4537, (2010)
Spietelun A et al., Understanding Solid-Phase Microextraction: Key Factors Influencing the Extraction Process and Trends in Improving the Technique.
Chemical Reviews, 113, (3), 1667-1685, (2013)
IEEE Sensors Journal, 15, (2), 1012-1019, (2015)
Polimeros, 23, (4), 509-513, (2013)
Applied Catalysis B: Environmental, 238, 509-517, (2018)
Fiorenza R et al., Preferential removal of pesticides from water by molecular imprinting on TiO2 photocatalysts.
Chemical Engineering Journal, 379, Article122309-(2020)
Journal of the American Chemical Society, 119, (19), 4388-4393, (1997)
Spivak D et al., Molecular imprinting of carboxylic acids employing novel functional macroporous polymers.
Journal of Organic Chemistry, 64, (13), 4627-4634, (1999)
Spivak D, Book chapter, Molecular Imprinting,
In: Kirk-Othmer Encyclopedia of Chemical Technology, John Wiley & Sons, Inc.: (2000)
Horemans F et al., Towards water compatible MIPs for sensing in aqueous media.
Journal of Molecular Recognition, 25, (6), 344-351, (2012)
Journal of the American Chemical Society, 115, (8), 3368-3369, (1993)
Spivak DA et al., Binding of nucleotide bases by imprinted polymers.
Macromolecules, 31, (7), 2160-2165, (1998)
Spivak DA et al., Systematic study of steric and spatial contributions to molecular recognition by non-covalent imprinted polymers.
Analyst, 126, (6), 793-797, (2001)
Spivak DA et al., Investigation into the scope and limitations of molecular imprinting with DNA molecules.
Analytica Chimica Acta, 435, (1), 65-74, (2001)
Spivak DA et al., Molecular imprinting in nanometer scale particles.
Abstracts of Papers of the American Chemical Society, 221, (IEC), 95-95, (2001)
Spivak DA et al., Synthesis of amino-acid based crosslinking monomers for molecular imprinting.
Abstracts of Papers of the American Chemical Society, 221, (ORGN), 108-108, (2001)
Spivak DA, Development of novel crosslinking monomers for molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 221, (ORGN), 694-694, (2001)
Spivak DA, Proceeding, Development of improved crosslinking monomers for molecularly imprinted materials,
Shea KJ, Yan M, Roberts MJ, Cremer PS, Crooks RM, Sailor MJ (Eds.), 5-10, (2002)
Spivak DA et al., Development of an aspartic acid-based cross-linking monomer for improved bioseparations.
Bioseparation, 10, (6), 331-336, (2002)
Campbell JN et al., Influences on MIP selectivity by structural features close to the primary binding.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 91-91, (2003)
Kim H et al., An orthogonal approach to multifunctional molecularly imprinted polymers.
Organic Letters, 5, (19), 3415-3418, (2003)
Kim H et al., New insight into modeling non-covalently imprinted polymers.
Journal of the American Chemical Society, 125, (37), 11269-11275, (2003)
Sibrian-Vazquez M et al., Synthesis and characterization of a novel L-serine based crosslinking monomer for molecular imprinting.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 90-90, (2003)
Sibrian-Vazquez M et al., Enhanced enantioselectivity of molecularly imprinted polymers formulated with novel cross-linking monomers.
Macromolecules, 36, (14), 5105-5113, (2003)
Sibrian-Vazquez M et al., Improving the strategy and performance of molecularly imprinted polymers using cross-linking functional monomers.
Journal of Organic Chemistry, 68, (25), 9604-9611, (2003)
Simon RL et al., Origins of selectivity in noncovalent molecular imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 89-89, (2003)
Spivak DA et al., Shape selectivity in non-covalently imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 712-712, (2003)
Spivak DA et al., Influence of template-monomer ratio on binding sites within molecular imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 714-714, (2003)
Sibrian-Vazquez M et al., Characterization of molecularly imprinted polymers employing crosslinkers with nonsymmetric polymerizable groups.
Journal of Polymer Science Part A: Polymer Chemistry, 42, (15), 3668-3675, (2004)
Sibrian-Vazquez M et al., Molecular imprinting made easy.
Journal of the American Chemical Society, 126, (25), 7827-7833, (2004)
Simon RL et al., Performance analysis of molecularly imprinted polymers for carboxylate and aminophosphate templates using commercially available basic functional monomers.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 203-209, (2004)
Spivak DA et al., Evidence for shape selectivity in non-covalently imprinted polymers.
Analytica Chimica Acta, 504, (1), 23-30, (2004)
Spivak DA, Book chapter, A new mechanistic diagram for molecularly imprinted polymers,
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 4, 23-28, (2004)
Simon R et al., Comparison of particle size and flow rate optimization for chromatography using one-monomer molecularly imprinted polymers versus traditional non-covalent molecularly imprinted polymers.
Analytica Chimica Acta, 542, (1), 104-110, (2005)
Spivak DA, Optimization, evaluation, and characterization of molecularly imprinted polymers.
Advanced Drug Delivery Reviews, 57, (12), 1779-1794, (2005)
Spivak DA, Book chapter, Selectivity in molecularly imprinted matrices,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 15, 395-417, (2005)
Spivak DA et al., Development of one monomer molecularly imprinted polymers (OmniMIPs).
Polymer Preprints, 46, (2), 1103-1104, (2005)
Spivak DA et al., Development of one monomer molecularly imprinted polymers (OMNiMIPs).
Abstracts of Papers of the American Chemical Society, 230, 297-POLY, (2005)
Spivak DA et al., Omnimips: One monomer molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 229, U526-U527, (2005)
Spivak DA, Corrigendum to "Optimization, evaluation, and characterization of molecularly imprinted polymers" [Advanced Drug Delivery Reviews 57 (2005) 1779-1794].
Advanced Drug Delivery Reviews, 58, (1), 116-116, (2006)
Spivak DA, Book chapter, MIPs in biotechnology, perspective and reality,
In: Molecular imprinting of polymers, Piletsky S, Turner A (Eds.) Landes Bioscience: Georgetown, Texas, Ch. 13, 182-190, (2006)
Le Jeune J et al., Chiral effects of alkyl-substituted derivatives of N, O-bismethacryloyl ethanolamine on the performance of one monomer molecularly imprinted polymers (OMNiMIPs).
Analytical and Bioanalytical Chemistry, 389, (2), 433-440, (2007)
Simon R et al., Shape selectivity versus functional group pre-organization in molecularly imprinted polymers.
Analytica Chimica Acta, 591, (1), 7-16, (2007)
Spivak DA et al., Proceeding, Discovery and Development of OMNiMIPs: One MoNomer Molecularly Imprinted Polymers,
Guymon A, Hoyle C, Shirai M, Nelson E (Eds.), Paper No. 1005-Q05-05, (2007)
Spivak DA, Discovery-based materials approach to development of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 235, (ORGN), 335-(2008)
Yoshimatsu K et al., Molecularly imprinted polymer microspheres (spherical OMNiMIPs) prepared by precipitation polymerization using a single bifunctional monomer.
Abstracts of Papers of the American Chemical Society, 236, (ANYL), 388-(2008)
LeJeune J et al., Analyte separation by OMNiMIPs imprinted with multiple templates.
Biosensors and Bioelectronics, 25, (3), 604-608, (2009)
Meng AC et al., Multi-analyte imprinting capability of OMNiMIPs versus traditional molecularly imprinted polymers.
Journal of Molecular Recognition, 22, (2), 121-128, (2009)
Yoshimatsu K et al., Peptide-imprinted polymer microspheres prepared by precipitation polymerization using a single bi-functional monomer.
Analyst, 134, (4), 719-724, (2009)
Balamurugan S et al., Molecular imprinting in monolayer surfaces.
Journal of Molecular Recognition, 24, (6), 915-929, (2011)
Mondal R et al., Thin-film molecularly imprinted chemosensors based on fluorescent conjugated polymers.
Abstracts of Papers of the American Chemical Society, 241, (POLY), 70-(2011)
Spivak DA, Novel approaches to molecular imprinting in different matrices.
Abstracts of Papers of the American Chemical Society, 241, (POLY), 18-(2011)
Spivak DA et al., MIP2010: The Future of Molecular Imprinting.
Journal of Molecular Recognition, 25, (6), 319-319, (2012)
Bai W et al., Macromolecular Amplification of Binding Response in Superaptamer Hydrogels.
Journal of the American Chemical Society, 135, (18), 6977-6984, (2013)
Spivak DA, Book chapter, Enantioseparations by high-performance liquid chromatography using molecularly imprinted polymers,
In: Chiral Separations, Methods and Protocols, Scriba GKE (Ed.) Humana Press: 209-220, (2013)
Bai W et al., A Double-Imprinted Diffraction-Grating Sensor Based on a Virus-Responsive Super-Aptamer Hydrogel Derived from an Impure Extract.
Angewandte Chemie International Edition, 53, (8), 2095-2098, (2014)
Krupadam RJ et al., Highly selective detection of oil spill polycyclic aromatic hydrocarbons using molecularly imprinted polymers for marine ecosystems.
Journal of Hazardous Materials, 274, 1-7, (2014)
Meador DS et al., Absolute Configuration Determination Using Enantiomeric Pairs of Molecularly Imprinted Polymers.
Organic Letters, 16, (5), 1402-1405, (2014)
Hebert B et al., Scalemic and racemic imprinting with a chiral crosslinker.
Analytica Chimica Acta, 890, 157-164, (2015)
Díaz-Álvarez M et al., Preparation of molecularly imprinted polymeric fibers using a single bifunctional monomer for the solid-phase microextraction of parabens from environmental solid samples.
Journal of Separation Science, 39, (3), 552-558, (2016)
Hamdan S et al., Ionic liquid crosslinkers for chiral imprinted nanoGUMBOS.
Journal of Colloid and Interface Science, 463, 29-36, (2016)
Bodoki AE et al., Improved Enantioselectivity for Atenolol Employing Pivot Based Molecular Imprinting.
Molecules, 23, (8), ArticleNo1875-(2018)
Spivak DA, Editorial.
Journal of Molecular Recognition, 31, (3), ArticleNoe2700-(2018)
Annual Reports on the Progress of Chemistry - Section B, 97, 41-59, (2001)
Piletsky SS et al., Snapshot imprinting: rapid identification of cancer cell surface proteins and epitopes using molecularly imprinted polymers.
Nano Today, 41, Article101304-(2021)
Macromolecular Bioscience, 4, (1), 22-26, (2004)
Puoci F et al., Molecularly imprinted solid phase extraction for detection of sudan I in food matrices.
Food Chemistry, 93, (2), 349-353, (2005)
Spizzirri UG et al., Structural analysis and diffusional behavior of molecularly imprinted polymer networks for cholesterol recognition.
Chemistry of Materials, 17, (26), 6719-6727, (2005)
Puoci F et al., Molecularly imprinted solid phase extraction for the selective HPLC determination of [alpha]-tocopherol in bay leaves.
Analytica Chimica Acta, 593, (2), 164-170, (2007)
Puoci F et al., Molecularly imprinted solid-phase extraction for cholesterol determination in cheese products.
Food Chemistry, 106, (2), 836-842, (2008)
Cirillo G et al., Imprinted hydrophilic nanospheres as drug delivery systems for 5-fluorouracil sustained release.
Journal of Drug Targeting, 17, (1), 72-77, (2009)
Curcio M et al., Selective recognition of methotrexate by molecularly imprinted polymers.
E-Polymers, Art. No. 078-(2009)
Puoci F et al., New restricted access materials combined to molecularly imprinted polymers for selective recognition/release in water media.
European Polymer Journal, 45, (6), 1634-1640, (2009)
Cirillo G et al., Gastro-intestinal sustained release of phytic acid by molecularly imprinted microparticles.
Pharmaceutical Development and Technology, 15, (5), 526-531, (2010)
Cirillo G et al., Molecularly imprinted polymers as drug delivery systems for the sustained release of glycyrrhizic acid.
Journal of Pharmacy and Pharmacology, 62, (5), 577-582, (2010)
Cirillo G et al., Molecular imprinting polymerization by Fenton reaction.
Colloid & Polymer Science, 288, (6), 689-693, (2010)
Curcio M et al., Selective Determination of Melamine in Aqueous Medium by Molecularly Imprinted Solid Phase Extraction.
Journal of Agricultural and Food Chemistry, 58, (22), 11883-11887, (2010)
Parisi OI et al., Surface modifications of molecularly imprinted polymers for improved template recognition in water media.
Journal of Polymer Research, 17, (3), 355-362, (2010)
Puoci F et al., Book chapter, Molecularly Imprinted Polymers (MIPs) in Biomedical Applications,
In: Biopolymers, Elnashar M (Ed.) InTech: Ch. 28, 547-574, (2010)
Cirillo G et al., Molecularly imprinted polymers for the selective extraction of glycyrrhizic acid from liquorice roots.
Food Chemistry, 125, (3), 1058-1063, (2011)
Chemical Papers, 67, (5), 477-483, (2013)
Journal of Agricultural and Food Chemistry, 69, (48), 14689-14698, (2021)
Analytical Methods, 6, (9), 3101-3107, (2014)
Journal of Separation Science, 34, (16-17), 1958-1973, (2011)
Journal of the American Chemical Society, 126, (37), 11420-11421, (2004)
Analytica Chimica Acta, 336, (1-3), 37-46, (1996)
ACS Applied Materials & Interfaces, 13, (24), 27868-27879, (2021)
Analyst, 125, (11), 1899-1901, (2000)
Schweitz L et al., Approaches to molecular imprinting based selectivity in capillary electrochromatography.
Electrophoresis, 22, (19), 4053-4063, (2001)
Spégel P et al., Molecularly imprinted microparticles for capillary electrochromatography: Studies on microparticle synthesis and electrolyte composition.
Electrophoresis, 22, (17), 3833-3841, (2001)
Spégel P et al., A new approach to capillary electrochromatography: Disposable molecularly imprinted nanoparticles.
American Laboratory, 34, (14), 29-+, (2002)
Spégel P et al., Molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 372, (1), 37-38, (2002)
Viberg P et al., Nanoparticles as pseudostationary phase in capillary electrochrornatography/ESI-MS.
Analytical Chemistry, 74, (18), 4595-4601, (2002)
Spégel P et al., Book chapter, Chiral separations by HPLC using molecularly imprinted polymers,
In: Chiral separations: methods and protocols, Gübitz G, Schmid MG (Eds.) Humana Press Inc.: Totowa, NJ, Ch. 9, 217-229, (2003)
Spégel P et al., Book chapter, Chiral separations by capillary electrochromatography using molecularly imprinted polymers,
In: Chiral separations: methods and protocols, Gübitz G, Schmid MG (Eds.) Humana Press Inc.: Totowa, Ch. 25, 411-424, (2003)
Spégel P et al., Molecularly imprinted polymers in capillary electrochromatography: Recent developments and future trends.
Electrophoresis, 24, (22-23), 3892-3899, (2003)
Spégel P et al., Selectivity toward multiple predetermined targets in nanoparticle capillary electrochromatography.
Analytical Chemistry, 75, (23), 6608-6613, (2003)
Nilsson J et al., Molecularly imprinted polymer formats for capillary electrochromatography.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 3-12, (2004)
Spégel P et al., Novel Vinylpyridine Based Cationic MIP Monoliths for Enantiomer Separation in CEC.
Chromatographia, 69, (3), 277-285, (2009)
Kaskel S, Llewellyn P, Rodriguez-Reinoso F, Seaton NA (Eds.), 204-210, (2009)
Journal of The Electrochemical Society, 160, (4), H243-H246, (2013)
Analytical Methods, 6, (9), 3101-3107, (2014)
In: Characterization Of Porous Solids VI, Rodríguez-Reinoso F, McEnaney B, Rouquerol J, Unger KK (Eds.) Elsevier: Amsterdam, 43-50, (2002)
Srebnik S et al., Toward establishing criteria for polymer imprinting using mean-field theory.
Journal of Chemical Physics, 116, (24), 10967-10972, (2002)
Srebnik S et al., Theoretical investigation of imprinted crosslinked silicates.
Journal of Sol-Gel Science and Technology, 26, (1-3), 107-113, (2003)
Srebnik S, Theoretical investigation of the imprinting efficiency of molecularly imprinted polymers.
Chemistry of Materials, 16, (5), 883-888, (2004)
Rossinsky E et al., Monte Carlo simulation of protein folding in the presence of residue-specific binding sites.
Biopolymers, 79, (5), 259-268, (2005)
Srebnik S, Phase behavior of physically cross-linked asymmetric random heteropolymers.
Physical Review E, 72, (5), Art. No. 051802-(2005)
Yungerman I et al., Factors contributing to binding-site imperfections in imprinted polymers.
Chemistry of Materials, 18, (3), 657-663, (2006)
Levi L et al., Simulation of Protein-Imprinted Polymers. 1. Imprinted Pore Properties.
Journal of Physical Chemistry B, 114, (1), 107-114, (2010)
Levi L et al., Structural Characterization of Protein-Imprinted Gels Using Lattice Monte Carlo Simulation.
Macromolecular Symposia, 291-292, (1), 258-270, (2010)
Levi L et al., Simulation of Protein-Imprinted Polymers. 2. Imprinting Efficiency.
Journal of Physical Chemistry B, 114, (50), 16744-16751, (2010)
Levi L et al., Simulation of Protein-Imprinted Polymers. 3. Imprinting Selectivity.
Journal of Physical Chemistry B, 115, (49), 14469-14474, (2011)
Levi L et al., A brief review of coarse-grained and other computational studies of molecularly imprinted polymers.
Journal of Molecular Recognition, 24, (6), 883-891, (2011)
Huynh TP et al., Cytosine derivatized bis(2, 2'-bithienyl)methane molecularly imprinted polymer for selective recognition of 6-thioguanine, an antitumor drug.
Biosensors and Bioelectronics, 70, 153-160, (2015)
Raim V et al., Comparison of descriptors for predicting selectivity of protein-imprinted polymers.
Journal of Molecular Recognition, 29, (8), 391-400, (2016)
Yankelov R et al., The selectivity of protein-imprinted gels and its relation to protein properties: A computer simulation study.
Journal of Molecular Recognition, 30, (7), ArticleNoe2607-(2017)
Zadok I et al., Coarse-Grained Simulation of Protein-Imprinted Hydrogels.
The Journal of Physical Chemistry B, 122, (28), 7091-7101, (2018)
Electrochemical and Solid State Letters, 6, (1), H1-H3, (2003)
Shiigi H et al., Molecularly imprinted overoxidized polypyrrole colloids: Promising materials for molecular recognition.
Microchimica Acta, 143, (2-3), 155-162, (2003)
Oriental Journal of Chemistry, 33, (3), 1438-1446, (2017)
Angewandte Makromolekulare Chemie, 246, (1), 65-69, (1997)
Sreenivasan K, A note on the selectivity of g-radiation polymerised molecularly imprinted poly (HEMA).
Polymer Gels And Networks, 5, (1), 17-22, (1997)
Sreenivasan K et al., Interaction of molecularly imprinted polymers with creatinine.
Journal of Applied Polymer Science, 66, (13), 2539-2542, (1997)
Sreenivasan K, Imparting cholesterol recognition sites in radiation polymerised poly(2-hydroxyethyl methacrylate) by molecular imprinting.
Polymer International, 42, (2), 169-172, (1997)
Sreenivasan K, On the feasibility of using molecularly imprinted poly (HEMA) as a sensor component.
Talanta, 44, (6), 1137-1140, (1997)
Sreenivasan K et al., Book chapter, Evaluation of a methyl b-cyclodextrin based molecularly imprinted copolymer as novel adsorbent for steroids,
In: Macromolecules - New Frontiers. Peoc. IUPAC Int. Symp. Adv. Polym. Sci. Technol, Srinivasan K (Ed.) Allied Publishers, Ltd: New Delhi, Ch. 2, 594-596, (1998)
Sreenivasan K, Effect of the type of monomers of molecularly imprinted polymers on the interaction with steroids.
Journal of Applied Polymer Science, 68, (11), 1863-1866, (1998)
Sreenivasan K, Synthesis and evaluation of a molecularly imprinted polyurethane-poly(HEMA) semi-interpenetrating polymer networks as membrane.
Journal of Applied Polymer Science, 70, (1), 19-22, (1998)
Sreenivasan K, Synthesis and evaluation of a b-cyclodextrin-based molecularly imprinted copolymer.
Journal of Applied Polymer Science, 70, (1), 15-18, (1998)
Sreenivasan K, On the application of molecularly imprinted poly(HEMA) as a template responsive release system.
Journal of Applied Polymer Science, 71, (11), 1819-1821, (1999)
Sreenivasan K et al., Imparting recognition sites in poly(HEMA) for two compounds through molecular imprinting.
Journal of Applied Polymer Science, 71, (11), 1823-1826, (1999)
Sreenivasan K, The effect of polymerisation methods on the adsorption capacity of HEMA based molecularly imprinted polymers.
Journal of Polymer Research, 8, (3), 197-200, (2001)
Sreenivasan K, The use of metal-containing monomer in the preparation of molecularly imprinted polymer to increase the adsorption capacity.
Journal of Applied Polymer Science, 80, (14), 2795-2799, (2001)
Sreenivasan K, Molecularly imprinted polyacrylic acid containing multiple recognition sites for steroids.
Journal of Applied Polymer Science, 82, (4), 889-893, (2001)
Sreenivasan K, Molecularly imprinted polymer as storage medium for an analyte.
Bioseparation, 10, (6), 395-398, (2002)
Sreenivasan K et al., Ferric iron-containing molecularly imprinted polymer as an adsorbent for cholesterol.
Adsorption Science & Technology, 21, (3), 261-268, (2003)
Sreenivasan K, Imparting affinity sites for adenosine triphosphate on the surface of polyurethane through molecular imprinting.
Journal of Applied Polymer Science, 94, (5), 2088-2090, (2004)
Sreenivasan K, Surface-imprinted polyurethane having affinity sites for ampicillin.
Macromolecular Bioscience, 5, (3), 187-191, (2005)
Sreenivasan K, Detection of creatinine enriched on a surface imprinted polystyrene film using FT-ATR-IR.
Journal of Molecular Recognition, 19, (5), 408-412, (2006)
Sreenivasan K, Surface imprinted polyurethane film as a chiral discriminator.
Talanta, 68, (3), 1037-1039, (2006)
Sreenivasan K, Synthesis and evaluation of multiply templated molecularly imprinted polyaniline.
Journal of Materials Science, 42, (17), 7575-7578, (2007)
Sreenivasan K, Synthesis and evaluation of molecularly imprinted polymers for nucleic acid bases using aniline as a monomer.
Reactive and Functional Polymers, 67, (10), 859-864, (2007)
Sreenivasan K, Identification of salicylic acid using surface modified polyurethane film using an imprinted layer of polyaniline.
Analytica Chimica Acta, 583, (2), 284-288, (2007)
Sreenivasan K, Improving the efficiency of imprinting in poly(HEMA) for polyaromatic hydrocarbon using silver ions.
Journal of Applied Polymer Science, 109, (5), 3275-3278, (2008)
Manju S et al., Fluorescent molecularly imprinted polymer film binds glucose with a concomitant changes in fluorescence.
Biosensors and Bioelectronics, 26, (2), 894-897, (2010)
Journal of Applied Polymer Science, 103, (4), 2325-2330, (2007)
International Journal of Applied Science and Technology, 9, (2), 55-66, (2019)
Ofoegbu O et al., Molecularly Imprinted Chitosan-Based Thin Films with Selectivity for Nicotine Derivatives for Application as a Bio-Sensor and Filter.
Polymers, 13, (19), ArticleNo3363-(2021)
Analyst, 124, (7), 1003-1009, (1999)
Suedee R et al., Evaluation of matrices containing molecularly imprinted polymers in the enantioselective-controlled delivery of b-blockers.
Journal of Controlled Release, 66, (2-3), 135-147, (2000)
Suedee R et al., Thin-layer chromatographic separation of chiral drugs on molecularly imprinted chiral stationary phases.
Jpc-Journal Of Planar Chromatography-Modern Tlc, 14, (3), 194-198, (2001)
Suedee R et al., Enantioselective release of controlled delivery granules based on molecularly imprinted polymers.
Drug Delivery, 9, (1), 19-30, (2002)
Suedee R et al., Stereoselective release behaviors of imprinted bead matrices.
Drug Development and Industrial Pharmacy, 28, (5), 545-554, (2002)
Suedee R et al., Development of trichloroacetic acid sensor based on molecularly imprinted polymer membrane for the screening of complex mixture of haloacetic acids in drinking water.
Analytica Chimica Acta, 504, (1), 89-100, (2004)
Suedee R et al., Use of molecularly imprinted polymers from a mixture of tetracycline and its degradation products to produce affinity membranes for the removal of tetracycline from water.
Journal of Chromatography B, 811, (2), 191-200, (2004)
Bodhibukkana C et al., Composite membrane of bacterially-derived cellulose and molecularly imprinted polymer for use as a transdermal enantioselective controlled-release system of racemic propranolol.
Journal of Controlled Release, 113, (1), 43-56, (2006)
Suedee R et al., Development of a reservoir-type transdermal enantioselective-controlled delivery system for racemic propranolol using a molecularly imprinted polymer composite membrane.
Journal of Controlled Release, 129, (3), 170-178, (2008)
Suedee R et al., Development of a pH-responsive drug delivery system for enantioselective-controlled delivery of racemic drugs.
Journal of Controlled Release, 142, (1), 122-131, (2010)
Jaiswal L et al., A thalidomide templated molecularly imprinted polymer that promotes a biologically active chiral entity tagged in colon carcinoma cells and protein-related immune activation.
Process Biochemistry, 50, (12), 2035-2050, (2015)
Journal of Separation Science, 39, (15), 3037-3045, (2016)
Annual Reports on the Progress of Chemistry - Section B, 97, 41-59, (2001)
RSC Advances, 8, (1), 206-212, (2018)
Dechtrirat D et al., A screen-printed carbon electrode modified with gold nanoparticles, poly(3, 4-ethylenedioxythiophene), poly(styrene sulfonate) and a molecular imprint for voltammetric determination of nitrofurantoin.
Microchimica Acta, 185, (5), ArticleNo261-(2018)
Analytica Chimica Acta, 687, (2), 114-128, (2011)
Journal of Biomaterials Science-Polymer Edition, 31, (15), 1961-1976, (2020)
Toxicon, 60, (5), 878-894, (2012)
Prasad BB et al., Multiwalled carbon nanotubes-based pencil graphite electrode modified with an electrosynthesized molecularly imprinted nanofilm for electrochemical sensing of methionine enantiomers.
Sensors and Actuators B: Chemical, 176, 863-874, (2013)
Prasad BB et al., Electrochemically grown imprinted polybenzidine nanofilm on multiwalled carbon nanotubes anchored pencil graphite fibers for enantioselective micro-solid phase extraction coupled with ultratrace sensing of d- and l-methionine.
Journal of Chromatography B, 912, 65-74, (2013)
Prasad BB et al., Highly sensitive and selective hyphenated technique (molecularly imprinted polymer solid-phase microextraction-molecularly imprinted polymer sensor) for ultra trace analysis of aspartic acid enantiomers.
Journal of Chromatography A, 1283, 9-19, (2013)
Prasad BB et al., Molecularly imprinted polymer-matrix nanocomposite for enantioselective electrochemical sensing of d- and l-aspartic acid.
Materials Science and Engineering: C, 33, (7), 4071-4080, (2013)
Prasad BB et al., Highly selective and sensitive analysis of dopamine by molecularly imprinted stir bar sorptive extraction technique coupled with complementary molecularly imprinted polymer sensor.
Journal of Colloid and Interface Science, 396, 234-241, (2013)
Prasad BB et al., Molecularly imprinted micro solid-phase extraction technique coupled with complementary molecularly imprinted polymer-sensor for ultra trace analysis of epinephrine in real samples.
Colloids and Surfaces B: Biointerfaces, 113, 69-76, (2014)
Singh AK et al., Book chapter, Molecularly Imprinted Polymers for Pharmaceutical Applications,
In: Handbook of Polymers for Pharmaceutical Technologies, Bioactive and Compatible Synthetic/Hybrid Polymers, Thakur VK, Thakur MK (Eds.) John Wiley & Sons: Ch. 2, 17-66, (2015)
Srivastava J et al., Highly sensitive and selective estimation of aspartame by chitosan nanoparticles - graphene nanocomposite tailored EQCM-MIP sensor.
Polymer Bulletin, 76, (9), 4431-4449, (2019)
Srivastava J et al., Glycoprotein imprinted RGO-starch nanocomposite modified EQCM sensor for sensitive and specific detection of transferrin.
Journal of Electroanalytical Chemistry, 835, 169-177, (2019)
Sensors and Actuators B: Chemical, 288, 493-506, (2019)
Chronicles of Young Scientists, 3, (4), 258-268, (2012)
Analytical Methods, 8, (5), 1026-1033, (2016)
Kushwaha A et al., Epitope imprinting of Mycobacterium leprae bacteria via molecularly imprinted nanoparticles using multiple monomers approach.
Biosensors and Bioelectronics, 145, Article111698-(2019)
Srivastava J et al., Highly sensitive and selective estimation of aspartame by chitosan nanoparticles - graphene nanocomposite tailored EQCM-MIP sensor.
Polymer Bulletin, 76, (9), 4431-4449, (2019)
Srivastava J et al., Glycoprotein imprinted RGO-starch nanocomposite modified EQCM sensor for sensitive and specific detection of transferrin.
Journal of Electroanalytical Chemistry, 835, 169-177, (2019)
Kushwaha A et al., Development of highly sensitive and selective sensor for ethionamide guided by molecular modelling via electropolymerized molecularly imprinted films.
Microchemical Journal, 152, Article104355-(2020)
Journal of Electroanalytical Chemistry, 835, 169-177, (2019)
Journal of Chromatography A, 1198-1199, (1-2), 59-66, (2008)
Prasad BB et al., Zwitterionic molecularly imprinted polymer-based solid-phase micro-extraction coupled with molecularly imprinted polymer sensor for ultra-trace sensing of L-histidine.
Journal of Separation Science, 32, (7), 1096-1105, (2009)
Prasad BB et al., Ascorbic acid sensor based on molecularly imprinted polymer-modified hanging mercury drop electrode.
Materials Science and Engineering: C, 29, (4), 1082-1087, (2009)
Prasad BB et al., Ultratrace analysis of uracil and 5-fluorouracil by molecularly imprinted polymer brushes grafted to silylated solid-phase microextraction fiber in combination with complementary molecularly imprinted polymer-based sensor.
Biomedical Chromatography, 23, (5), 499-509, (2009)
Prasad BB et al., Trace-level sensing of dopamine in real samples using molecularly imprinted polymer-sensor.
Biochemical Engineering Journal, 44, (2-3), 232-239, (2009)
Prasad BB et al., Ultratrace Analysis of Dopamine Using a Combination of Imprinted Polymer-Brush-Coated SPME and Imprinted Polymer Sensor Techniques.
Chromatographia, 69, (9), 949-957, (2009)
Prasad BB et al., A new zwitterionic imprinted polymer sensor using ethylenediamine tetraacetic acid and chloranil precursors for the trace analysis of l-histidine.
Materials Science and Engineering: C, 29, (6), 1781-1789, (2009)
Prasad BB et al., Development of Uracil and 5-Fluorouracil Sensors Based on Molecularly Imprinted Polymer-Modified Hanging Mercury Drop Electrode.
Sensors and Materials, 21, (6), 291-306, (2009)
In: Fiber Optic Sesors Based on Plasmonics, Gupta BD, Srivastava SK, Verma R (Eds.) World Scientific Publishing Co. Pte. Ltd.: Singapore, Ch. 5, 119-154, (2015)
Carbohydrate Polymers, 194, 274-284, (2018)
Sensors and Actuators B: Chemical, 308, Article127630-(2020)
Talanta, 179, 700-709, (2018)
Amatatongchai M et al., Novel three-Dimensional molecularly imprinted polymer-coated carbon nanotubes (3D-CNTs@MIP) for selective detection of profenofos in food.
Analytica Chimica Acta, 1076, 64-72, (2019)
Amatatongchai M et al., Highly sensitive and selective electrochemical paper-based device using a graphite screen-printed electrode modified with molecularly imprinted polymers coated Fe3O4@Au@SiO2 for serotonin determination.
Analytica Chimica Acta, 1077, 255-265, (2019)
Sroysee W et al., Molecularly imprinted polymers to detect profenofos and carbofuran selectively with QCM sensors.
Physics in Medicine, 7, Article100016-(2019)
Journal of Molecular Catalysis, 85, (1), 33-44, (1993)
Journal of the American Chemical Society, 130, (14), 4945-4953, (2008)
Angewandte Chemie International Edition, 51, (40), 10060-10063, (2012)
Zhurnal Fizieskoj Khimii/Akademiya SSSR, 4, 454-456, (1933)
Toxicology Letters, 196, (Supplement 1), S295-S296, (2010)
Angewandte Chemie International Edition, 44, (41), 6775-6778, (2005)
Nature Chemistry, 4, (12), 1030-1036, (2012)
Macromolecular Chemistry And Physics, 202, (1), 163-171, (2001)
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 745, (1), 83-102, (2000)
Talanta, 160, 489-498, (2016)
TrAC Trends in Analytical Chemistry, 71, 186-193, (2015)
Journal of Physical Chemistry B, 109, (14), 6636-6639, (2005)
Journal of Agricultural and Food Chemistry, 43, (6), 1424-1427, (1995)
Muldoon MT et al., Plastic antibodies: Molecularly-imprinted polymers.
Chemistry and Industry, 204-207, (1996)
Stanker LH et al., Development of molecular imprints for residue analysis.
Journal of Automatic Chemistry, 18, (3), 71-(1996)
Muldoon MT et al., Book chapter, Development and application of molecular imprinting technology for residue analysis,
In: Immunochemical Technology for Environmental Applications, Aga DS, Thurman EM (Eds.) The American Chemical Society: Washington DC, Ch. 26, 314-330, (1997)
Muldoon MT et al., Molecularly imprinted solid phase extraction of atrazine from beef liver extracts.
Analytical Chemistry, 69, (5), 803-808, (1997)
Chemical Engineering and Processing: Process Intensification, 51, (1), 109-116, (2012)
Langmuir, 19, (3), 772-778, (2003)
Analytical Chemistry, 73, (17), 4225-4228, (2001)
Percival CJ et al., Molecular imprinted polymer coated QCM for the detection of nandrolone.
Analyst, 127, (8), 1024-1026, (2002)
Stanley S et al., Enantioselective detection of L-serine.
Sensors and Actuators B: Chemical, 89, (1-2), 103-106, (2003)
Stanley S et al., Detection of polycyclic aromatic hydrocarbons using quartz crystal microbalances.
Analytical Chemistry, 75, (7), 1573-1577, (2003)
Applied Surface Science, 466, 28-39, (2019)
Chemie Ingenieur Technik, 80, (9), 1440-1440, (2008)
Journal of the American Chemical Society, 123, (20), 4659-4669, (2001)
Journal of Analytical Chemistry, 47, (4), 454-458, (1992)
Starodub NF et al., Template sensors for low weight organic molecules based on SiO2 surfaces.
Sensors and Actuators B: Chemical, 14, (1-3), 708-710, (1993)
International Journal of Molecular Sciences, 11, (4), 1236-1252, (2010)
Starosvetsky J et al., Effects of Physical Parameters on Bacterial Cell Adsorption onto Pre-Imprinted Sol-Gel Films.
Journal of Biomaterials and Nanobiotechnology, 3, (4A), 499-507, (2012)
Sensors, 10, (5), 4887-4897, (2010)
Journal of Analytical Chemistry, 61, (5), 416-441, (2006)
Journal of Chromatography A, 1467, 145-154, (2016)
Biomacromolecules, 12, (4), 1067-1071, (2011)
physica status solidi (a), 216, (12), Article1800688-(2019)
Critical Reviews in Analytical Chemistry, 28, (3), 259-266, (1998)
Stefan RI et al., Design and use of electrochemical sensors in enantioselective high throughput screening of drugs. A minireview.
Combinatorial Chemistry & High Throughput Screening, 3, (6), 445-454, (2000)
Talanta, 160, 489-498, (2016)
ACS Applied Materials & Interfaces, 8, (31), 19860-19865, (2016)
Macromolecules, 53, (4), 1435-1442, (2020)
Analytical Methods, 4, (8), 2296-2299, (2012)
Procedia Engineering, 47, 1370-1373, (2012)
Planta Medica, 74, (9), 1152-1152, (2008)
Materials Science and Engineering: R: Reports, 93, 1-49, (2015)
Culver HR et al., A Closer Look at the Impact of Molecular Imprinting on Adsorption Capacity and Selectivity for Protein Templates.
Biomacromolecules, 17, (12), 4045-4053, (2016)
Langmuir, 30, (12), 3631-3639, (2014)
Eersels K et al., Improving the sensitivity of the heat-transfer method (HTM) for cancer cell detection with optimized sensor chips.
physica status solidi (a), 212, (6), 1320-1326, (2015)
Eersels K et al., Heat-Transfer-Method-Based Cell Culture Quality Assay through Cell Detection by Surface Imprinted Polymers.
Langmuir, 31, (6), 2043-2050, (2015)
Nature, 332, (6163), 426-429, (1988)
Steinberg S et al., Ion-selective monolayer membranes based upon self-assembling tetradentate ligand monolayers on gold electrodes .2. Effect of applied potential on ion binding.
Journal of the American Chemical Society, 113, (14), 5176-5182, (1991)
Journal of Hazardous Materials, 170, (2-3), 722-728, (2009)
Science, 296, (5575), 1997-1997, (2002)
Advances in Polymer Science, 123, 81-125, (1995)
Macromolecules, 29, (1), 407-415, (1996)
Steinke JHG et al., A simple polymerisable carboxylic acid receptor: 2-acrylamido pyridine.
TrAC Trends in Analytical Chemistry, 18, (3), 159-164, (1999)
Patel A et al., Enantioselective molecularly imprinted polymers via ring-opening metathesis polymerisation.
Chemical Communications, (1), 88-89, (2003)
Patel A et al., Novel stereoselective molecularly imprinted polymers via ring-opening metathesis polymerisation.
Analytica Chimica Acta, 504, (1), 53-62, (2004)
Sagawa T et al., Proceeding, Surface molecularly imprinted TiO2 nanoparticle for photoreduction of viologen,
Ellingson R (Ed.), 25-30, (2006)
Ewen SL et al., Book chapter, Molecularly Imprinted Polymers Using Anions as Templates,
In: Recognition of Anions, Vilar R (Ed.) Springer: Berlin / Heidelberg, 207-248, (2008)
Recueil Des Travaux Chimiques Des Pays-Bas-Journal Of The Royal Netherlands Chemical Society, 109, 216-221, (1990)
The Reporter, 27, (5), 12-13, (2010)
Chemical Communications, (17), 2022-2024, (2008)
Journal of Separation Science, 38, (16), 2763-2771, (2015)
Vlakh EG et al., Molecularly imprinted macroporous monoliths for solid-phase extraction: Effect of pore size and column length on recognition properties.
Journal of Chromatography B, 1029-1030, 198-204, (2016)
Stepanova MA et al., Cholesterol-imprinted macroporous monoliths: Preparation and characterization.
Electrophoresis, 38, (22-23), 2965-2974, (2017)
Analytica Chimica Acta, 529, (1-2), 75-81, (2005)
Polymer Preprints, 47, (2), 463-463, (2006)
Stephenson CJ et al., Colormetric imprinted polymers as sensors.
Polymer Preprints, 47, (1), 7-7, (2006)
Stephenson CJ et al., Formation of multi-channel colorimetric polymers as a sensor for biogenic amines.
Polymer Preprints, 47, (2), 1084-1084, (2006)
Stephenson CJ et al., Online method for dye displacement MIP array analysis.
Abstracts of Papers of the American Chemical Society, 231, (ANYL), 208-208, (2006)
Stephenson CJ et al., Colorimetric imprinted polymers as sensors.
Abstracts of Papers of the American Chemical Society, 231, (POLY), 191-191, (2006)
Stephenson CJ et al., In focus: Colorimetric and fluorometric molecularly imprinted polymer sensors and binding assays.
Polymer International, 56, (4), 482-488, (2007)
Shimizu KD et al., Molecularly imprinted polymer sensor arrays.
Current Opinion in Chemical Biology, 14, (6), 743-750, (2010)
Chemistry and Industry, 18, (april), 304-304, (1994)
Chemical Science, 6, (9), 5114-5119, (2015)
Analytica Chimica Acta, 529, (1-2), 75-81, (2005)
International Journal of Advanced Engineering Research and Science, 5, (6), 222-230, (2018)
Journal of Chemical Engineering of Japan, 53, (9), 485-493, (2020)
International Journal of Chemistry, 9, (2), 10-22, (2017)
Analytical Communications, 34, (10), 303-305, (1997)
Stevenson D et al., Book chapter, Molecular imprinted polymer for solid phase extraction of tamoxifen,
In: Drug-development assay approaches including molecular imprinting and biomarkers, Reid E, Hill HM, Wilson ID (Eds.) Royal Society of Chemistry: Ch. A-7, 49-54, (1998)
Stevenson D, Selective extraction via immunoaffinity sorbents and molecular imprinted polymers.
Journal de Pharmacie de Belgique, 53, (3), 122-122, (1998)
Stevenson D, Molecular imprinted polymers for solid-phase extraction.
TrAC Trends in Analytical Chemistry, 18, (3), 154-158, (1999)
Stevenson D, Immuno-affinity solid-phase extraction.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 745, (1), 39-48, (2000)
Martín-Esteban A et al., Effect of template size on the selectivity of molecularly imprinted polymers for phenylurea herbicides.
Chromatographia, 53, (Supplement 1), S434-S437, (2001)
Hawkins DM et al., Investigation of protein imprinting in hydrogel-based molecularly imprinted polymers (HydroMIPs).
Analytica Chimica Acta, 542, (1), 61-65, (2005)
Hawkins DM et al., Quantification and Confocal Imaging of Protein Specific Molecularly Imprinted Polymers.
Biomacromolecules, 7, (9), 2560-2564, (2006)
Hawkins DM et al., Novel critical point drying (CPD) based preparation and transmission electron microscopy (TEM) imaging of protein specific molecularly imprinted polymers (HydroMIPs).
Journal of Materials Science, 42, (22), 9465-9468, (2007)
Reddy SM et al., Protein Crystallization and Biosensor Applications of Hydrogel-Based Molecularly Imprinted Polymers.
Biomacromolecules, 13, (12), 3959-3965, (2012)
Reddy SM et al., Protein detection using hydrogel-based molecularly imprinted polymers integrated with dual polarisation interferometry.
Sensors and Actuators B: Chemical, 176, 190-197, (2013)
El-Sharif HF et al., Book chapter, Hydrogel-Based Molecularly Imprinted Polymers for Biological Detection,
In: Advanced Synthetic Materials in Detection Science, Reddy SM (Ed.) The Royal Society of Chemistry: Cambridge, 75-115, (2014)
El-Sharif HF et al., Determination of protein binding affinities within hydrogel-based molecularly imprinted polymers (HydroMIPs).
Physical Chemistry Chemical Physics, 16, (29), 15483-15489, (2014)
Stevenson D et al., Selective extraction of proteins and other macromolecules from biological samples using molecular imprinted polymers.
Bioanalysis, 8, (21), 2255-2263, (2016)
El-Sharif HF et al., MIP-based protein profiling: A method for interspecies discrimination.
Sensors and Actuators B: Chemical, 241, 33-39, (2017)
Natural Product Reports, 17, (6), 535-577, (2000)
American Laboratory, 30, 16A-16L, (1998)
Krull IS et al., Specific applications of capillary electrochromatography to biopolymers, including proteins, nucleic acids, peptide mapping, antibodies, and so forth.
Journal of Chromatography A, 887, (1-2), 137-163, (2000)
Biochemical and Biophysical Research Communications, 240, (1), 27-31, (1997)
Abstracts of Papers of the American Chemical Society, 219, (MSE), 151-151, (2000)
Duffy DJ et al., Binding efficiency and transport properties of molecularly imprinted polymer thin films.
Journal of the American Chemical Society, 124, (28), 8290-8296, (2002)
Technology Review, (November), 31-31, (2002)
European Physical Journal E, 28, (1), 57-71, (2009)
physica status solidi (a), 214, (9), ArticleNo1600758-(2017)
Stilman W et al., Detection of yeast strains by combining surface-imprinted polymers with impedance-based readout.
Sensors and Actuators B: Chemical, 340, Article129917-(2021)
In: Chemical, Biochemical, and Environmental Fiber Sensors X, Lieberman RA (Ed.) The International Society for Optical Engineering: Bellingham, 36-44, (1999)
Journal of Pharmaceutical and Biomedical Analysis, 27, (5), 719-728, (2002)
Journal of Molecular Structure: THEOCHEM, 901, (1-3), 88-95, (2009)
ECS Transactions, 19, (28), 15-32, (2009)
Hepel M et al., Book chapter, Detection of Oxidative Stress Biomarkers Using Functional Gold Nanoparticles,
In: Fine Particles in Medicine and Pharmacy, Matijevic E (Ed.) Springer US: Ch. 9, 241-281, (2012)
Analytica Chimica Acta, 857, 1-27, (2015)
International Journal of Molecular Sciences, 12, (11), 7785-7805, (2011)
Chemical Communications, (2), 165-167, (2009)
Macromolecules, 22, (11), 4303-4308, (1989)
Shea KJ et al., Fluorescence probes for evaluating chain solvation in network polymers - An analysis of the solvatochromic shift of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.
Macromolecules, 22, (4), 1722-1730, (1989)
Shea KJ et al., Synthesis and characterization of highly cross-linked polyacrylamides and polymethacrylamides - a new class of macroporous polyamides.
Macromolecules, 23, (21), 4497-4507, (1990)
Angewandte Chemie International Edition, 35, (11), 1155-1196, (1996)
Optics Express, 23, (5), 6763-6772, (2015)
Materiale Plastice, 56, (2), 315-320, (2019)
Macromolecular Symposia, 359, (1), 124-128, (2016)
Analytica Chimica Acta, 977, 1-9, (2017)
Analytica Chimica Acta, 399, (3), 201-212, (1999)
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 71-81, (2004)
Biomacromolecules, 10, (6), 1619-1626, (2009)
Gawel K et al., Responsive Hydrogels for Label-Free Signal Transduction within Biosensors.
Sensors, 10, (5), 4381-4409, (2010)
Sensors, 18, (2), ArticleNo531-(2018)
Antibiotiki i Khimioterapiya, 59, (7-8), 37-40, (2014)
Yakhkind MI et al., Molecularly imprinted polymers: possible use for isolation of biosynthetic antibiotics.
Russian Chemical Bulletin, 63, (5), 1049-1056, (2014)
Proceedings, 1, (8), ArticleNo798-(2017)
Karimian N et al., Electrochemosensor for Trace Analysis of Perfluorooctanesulfonate in Water Based on a Molecularly Imprinted Poly(o-phenylenediamine) Polymer.
ACS Sensors, 3, (7), 1291-1298, (2018)
Scientific Reports, 9, (1), Article11840-(2019)
Macromolecular Symposia, 331-332, (1), 26-33, (2013)
Macromolecular Chemistry And Physics, 195, (2), 391-399, (1994)
Nanoscale, 5, (18), 8560-8568, (2013)
Borovicka J et al., Photothermal Colloid Antibodies for Shape-Selective Recognition and Killing of Microorganisms.
Journal of the American Chemical Society, 135, (14), 5282-5285, (2013)
Electroanalysis, 26, (7), 1612-1622, (2014)
Beluomini MA et al., D-mannitol sensor based on molecularly imprinted polymer on electrode modified with reduced graphene oxide decorated with gold nanoparticles.
Talanta, 165, 231-239, (2017)
Beluomini MA et al., Amperometric determination of myo-inositol by using a glassy carbon electrode modified with molecularly imprinted polypyrrole, reduced graphene oxide and nickel nanoparticles.
Microchimica Acta, 185, (3), ArticleNo170-(2018)
Beluomini MA et al., Electrochemical sensors based on molecularly imprinted polymer on nanostructured carbon materials: A review.
Journal of Electroanalytical Chemistry, 840, 343-366, (2019)
Beluomini MA et al., Tailor-made 3D-nanoelectrode ensembles modified with molecularly imprinted poly(o-phenylenediamine) for the sensitive detection of L-arabitol.
Sensors and Actuators B: Chemical, 284, 250-257, (2019)
Buffon E et al., Electrochemical sensor based on molecularly imprinted poly(ortho-phenylenediamine) for determination of hexahydrofarnesol in aviation biokerosene.
Sensors and Actuators B: Chemical, 287, 371-379, (2019)
Pereira TC et al., Electrochemical sensing of lactate by using an electrode modified with molecularly imprinted polymers, reduced graphene oxide and gold nanoparticles.
Microchimica Acta, 186, (12), Article764-(2019)
Buffon E et al., Spectroscopic ellipsometry studies of an electrochemically synthesized molecularly imprinted polymer for the detection of an aviation biokerosene contaminant.
Reactive and Functional Polymers, 155, Article104698-(2020)
Pompeu Prado Moreira LF et al., Electrochemical sensor based on reduced graphene oxide and molecularly imprinted poly(phenol) for d-xylose determination.
Talanta, 208, Article120379-(2020)
Buffon E et al., A molecularly imprinted polymer on reduced graphene oxide-gold nanoparticles modified screen-printed electrode for selective determination of ferulic acid in orange peels.
Microchemical Journal, 167, Article106339-(2021)
da Silva JL et al., Non-enzymatic lactose molecularly imprinted sensor based on disposable graphite paper electrode.
Analytica Chimica Acta, 1143, 53-64, (2021)
Mariano TM et al., Molecularly Imprinted Polypyrrole on Glassy Carbon Electrode Modified with Reduced Graphene Oxide and Gold Nanoparticles for Isoamyl Alcohol Analysis in Fusel Oil.
Journal of the Brazilian Chemical Society, 32, (2), 249-259, (2021)
Moreira LFPP et al., Fructose determination in fruit juices using an electrosynthesized molecularly imprinted polymer on reduced graphene oxide modified electrode.
Food Chemistry, 352, Article129430-(2021)
Falone MF et al., Molecularly imprinted electrochemical sensor for monitoring mercaptan sulfur in aviation biofuel.
Fuel, 307, Article121783-(2022)
Proceedings, 1, (4), ArticleNo514-(2017)
In: Affinity Chromatography, Bailon P, Ehrlich GK, Fung WJ, Berthold W (Eds.) 7-23, (2000)
Journal of Chromatography A, 1550, 8-20, (2018)
Sánchez-González J et al., HPLC-MS/MS combined with membrane-protected molecularly imprinted polymer micro-solid-phase extraction for synthetic cathinones monitoring in urine.
Drug Testing and Analysis, 11, (1), 33-44, (2019)
Fountain AWI, Gardner PJ (Eds.), Art. No. 76650W, (2010)
Holthoff EL et al., A Nanosensor for TNT Detection Based on Molecularly Imprinted Polymers and Surface Enhanced Raman Scattering.
Sensors, 11, (3), 2700-2714, (2011)
Journal of Radioanalytical and Nuclear Chemistry, 330, (3), 797-804, (2021)
Science, 282, (5393), 1406-1407, (1998)
Doklady Akademii Nauk SSSR, 210, (2), 468-471, (1973)
Sensors and Actuators B: Chemical, 76, (1-3), 286-294, (2001)
Sensors and Actuators B: Chemical, 76, (1-3), 286-294, (2001)
Analytical Chemistry, 93, (39), 13235-13241, (2021)
Doklady Akademii Nauk SSSR, 210, (2), 468-471, (1973)
Kosmatyi ES et al., Determination of dikvat and parakvat in a mixture by method of thin-layer chromatography with use of a specific silica-gel.
Zh. Anal. Khim., 29, (1), 168-170, (1974)
Helvetica Chimica Acta, 97, (12), 1644-1651, (2014)
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 7, 109-118, (1998)
Striegler S, Selective discrimination of closely related monosaccharides at physiological pH by a polymeric receptor.
Tetrahedron, 57, (12), 2349-2354, (2001)
Striegler S et al., Investigation of sugar-binding sites in ternary ligand-copper(II)-carbohydrate complexes.
European Journal of Inorganic Chemistry, (2), 487-495, (2002)
Striegler S, Investigation of disaccharide recognition by molecularly imprinted polymers.
Bioseparation, 10, (6), 307-314, (2002)
Striegler S et al., Evaluation of new strategies to prepare templated polymers with sufficient oligosaccharide recognition capacity.
Analytica Chimica Acta, 484, (1), 53-62, (2003)
Striegler S, Selective carbohydrate recognition by synthetic receptors in aqueous solution.
Current Organic Chemistry, 7, (1), 81-102, (2003)
Striegler S et al., A sugar discriminating binuclear copper(II) complex.
Journal of the American Chemical Society, 125, (38), 11518-11524, (2003)
Striegler S, Carbohydrate recognition in cross-linked sugar-templated poly(acrylates).
Macromolecules, 36, (4), 1310-1317, (2003)
Striegler S, Designing selective sites in templated polymers utilizing coordinative bonds.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 183-195, (2004)
Striegler S, Discrimination of epimeric disaccharides by templated polymers.
Analytica Chimica Acta, 539, (1-2), 91-95, (2005)
Striegler S, Emulsion and Miniemulsion Polymers in Catalysis.
Mini-Reviews in Organic Chemistry, 6, (3), 234-240, (2009)
Striegler S et al., Glycoside Hydrolysis with Sugar-Templated Microgel Catalysts.
ACS Catalysis, 2, (1), 50-55, (2011)
Barnett JD et al., Tuning Templated Microgel Catalysts for Selective Glycoside Hydrolysis.
Topics In Catalysis, 55, (7), 460-465, (2012)
Sharma B et al., Biomimetic Glycoside Hydrolysis by a Microgel Templated with a Competitive Glycosidase Inhibitor.
ACS Catalysis, 8788-8795, (2018)
Sharma B et al., Modulating the Catalytic Performance of an Immobilized Catalyst with Matrix Effects - A Critical Evaluation.
ACS Catalysis, 7710-7718, (2018)
Reactive and Functional Polymers, 54, (1-3), 49-61, (2003)
Green BS et al., Selective molecularly imprinted polymers for fluorophosphonate nerve gases: Proof of concept.
Abstracts of Papers of the American Chemical Society, 230, 623-POLY, (2005)
Journal of the American Chemical Society, 122, (26), 6295-6296, (2000)
Kim JM et al., Polymer catalysts by molecular imprinting: A labile covalent bonding approach.
Bulletin of the Korean Chemical Society, 22, (7), 689-692, (2001)
Green BS et al., Selective molecularly imprinted polymers for fluorophosphonate nerve gases Proof of principle.
Polymer Preprints, 46, (2), 1209-1210, (2005)
Analyst, 128, (4), 345-350, (2003)
Martin PD et al., Comparison of extraction of a b-blocker from plasma onto a molecularly imprinted polymer with liquid-liquid extraction and solid phase extraction methods.
Journal of Pharmaceutical and Biomedical Analysis, 35, (5), 1231-1239, (2004)
Art. No. 73031R, (2009)
Stringer RC et al., Proceeding, Use of dot-labeled imprinted polymer microparticles for detection of nitroaromatic compounds,
Vo-Dinh T, Lieberman RA, Gauglitz G (Eds.), 767304-767306, (2010)
Stringer RC et al., Detection of Nitroaromatic Explosives Using a Fluorescent-Labeled Imprinted Polymer.
Analytical Chemistry, 82, (10), 4015-4019, (2010)
Stringer RC et al., Comparison of molecular imprinted particles prepared using precipitation polymerization in water and chloroform for fluorescent detection of nitroaromatics.
Analytica Chimica Acta, 703, (2), 239-244, (2011)
Electrophoresis, 22, (12), 2375-2383, (2001)
Talanta, 76, (1), 96-101, (2008)
Accounts of Chemical Research, 42, (10), 1489-1500, (2009)
Wang JL et al., Templated polymers enable selective capture and release of lysophosphatidic acid in human plasma via optimization of non-covalent binding to functional monomers.
Analyst, 140, (22), 7572-7577, (2015)
Journal of Pharmaceutical and Biomedical Analysis, 120, 397-401, (2016)
Bujak R et al., Selective determination of cocaine and its metabolite benzoylecgonine in environmental samples by newly developed sorbent materials.
Talanta, 146, 401-409, (2016)
Materials, 2, 2429-2466, (2009)
Journal of Applied Polymer Science, 106, (5), 3321-3326, (2007)
Procedia Engineering, 168, 550-552, (2016)
Bou-Maroun E et al., Feasibility of a microwave liquid sensor based on molecularly imprinted sol-gel polymer for the detection of iprodione fungicide.
Sensors and Actuators B: Chemical, 244, 24-30, (2017)
Environmental Science and Pollution Research, 21, (23), 13215-13221, (2014)
Speltini A et al., Newest applications of molecularly imprinted polymers for extraction of contaminants from environmental and food matrices: A review.
Analytica Chimica Acta, 974, 1-26, (2017)
Angewandte Chemie International Edition, 50, (2), 495-498, (2011)
Nematollahzadeh A et al., Robust and selective nano cavities for protein separation: An interpenetrating polymer network modified hierarchically protein imprinted hydrogel.
Journal of Chromatography A, 1345, 154-163, (2014)
Schwark S et al., Monoclonal antibody capture from cell culture supernatants using epitope imprinted macroporous membranes.
RSC Advances, 6, (58), 53162-53169, (2016)
Biotechnology Letters, 12, 161-166, (1990)
Stĺhl M et al., Induced stereoselectivity and substrate selectivity of bio-imprinted a-chymotrypsin in anhydrous organic media.
Journal of the American Chemical Society, 113, (24), 9366-9368, (1991)
Stĺhl M et al., Bio-imprinting changes the stereospecificity of l-amino-acid oxidase from crotalus-adamanteus in organic-solvents.
Protein Engineering, 6, (Supplement), 51-51, (1993)
Advanced Functional Materials, 22, (24), 5231-5237, (2012)
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 264, Article120293-(2022)
Acta Polymerica Sinica, (11), 1266-1272, (2011)
Cui KY et al., A facile bionic strategy towards Gd (III)-imprinted membranes via interlaced stacking of one-dimensional/two-dimensional nanocomposite materials.
Journal of the Taiwan Institute of Chemical Engineers, 95, 652-659, (2019)
Analytical Methods, 6, (9), 2855-2861, (2014)
He HL et al., Fluorescent turn-on assay of C-type natriuretic peptide using a molecularly imprinted ratiometric fluorescent probe with high selectivity and sensitivity.
Microchimica Acta, 187, (11), Article614-(2020)
ACS Applied Materials & Interfaces, 10, (45), 39056-39063, (2018)
Tan JA et al., Highly efficient fluorescent QDs sensor for specific detection of protein through double recognition of hybrid aptamer-molecular imprinted polymers.
Sensors and Actuators B: Chemical, 274, 627-635, (2018)
Tan L et al., Development of high-luminescence perovskite quantum dots coated with molecularly imprinted polymers for pesticide detection by slowly hydrolysing the organosilicon monomers in situ.
Sensors and Actuators B: Chemical, 291, 226-234, (2019)
Biosensors and Bioelectronics, 148, Article111819-(2020)
Wang ZM et al., A highly sensitive and selective sensor for trace uranyl (VI) ion based on a graphene-coated carbon paste electrode modified with ion imprinted polymer.
Microchemical Journal, 155, Article104767-(2020)
Colloid & Polymer Science, 294, (8), 1305-1314, (2016)
TrAC Trends in Analytical Chemistry, 47, 68-83, (2013)
Tetrahedron Letters, 41, (1), 123-126, (2000)
Polymer, 51, (23), 5417-5423, (2010)
Qi PP et al., 2, 4-Dimethylphenol imprinted polymers as a solid-phase extraction sorbent for class-selective extraction of phenolic compounds from environmental water.
Talanta, 81, (4-5), 1630-1635, (2010)
Qi PP et al., Molecularly imprinted solid-phase extraction coupled with HPLC for the selective determination of monobutyl phthalate in bottled water.
Journal of Separation Science, 34, (19), 2712-2718, (2011)
Wu X et al., Recent advances in green reagents for molecularly imprinted polymers.
RSC Advances, 8, (1), 311-327, (2018)
Journal of Chromatography A, 1217, (52), 8095-8102, (2010)
Journal of Chemical Industry and Engineering (China), 58, (6), 1473-1477, (2007)
Jiang W et al., Adsorption properties for heavy metal ions of molecular imprinting chitosan-coated diatomite beads in water-extraction liquid of Rhodiola L.
Journal of Chemical Industry and Engineering (China), 59, (5), 1179-1183, (2008)
Zhan J et al., Adsorption of Cr(III) by a membrane molecularly imprinted with Penicillium mycelium.
Journal of Beijing University of Chemical Technology (Natural Science Edition), 37, (4), 94-97, (2010)
Meng L et al., Preparation of bisphenol A molecular-imprinted materials and its recognition characteristic.
Chinese Journal of Analysis Laboratory, 33, (12), 1397-1401, (2014)
Lu ZY et al., Facile microwave synthesis of a Z-scheme imprinted ZnFe2O4/Ag/PEDOT with the specific recognition ability towards improving photocatalytic activity and selectivity for tetracycline.
Chemical Engineering Journal, 337, 228-241, (2018)
Journal of Analytical Science, 28, (1), 71-74, (2012)
Biotechnology Letters, 25, (12), 949-953, (2003)
Fu ZG et al., Preparation and adsorption behavior of molecular imprinting chitosan resin on surface of mycelium.
Journal of Chemical Industry and Engineering (China), 55, (6), 958-962, (2004)
Su HJ et al., Preparation of a surface molecular-imprinted adsorbent for Ni2+ based on Penicillium chrysogenum.
Journal of Chemical Technology & Biotechnology, 80, (4), 439-444, (2005)
Su HJ et al., Double-functional characteristics of a surface molecular imprinted adsorbent with immobilization of nano-TiO2.
Journal of Chemical Technology & Biotechnology, 81, (11), 1797-1802, (2006)
Su HJ et al., Biosorption of Ni2+ by the surface molecular imprinting adsorbent.
Process Biochemistry, 41, (6), 1422-1426, (2006)
Yang Q et al., Removal of Cr3+ by the surface molecularly imprinted adsorbent by penicillium chysogenum mycelium in wastewater.
Environmental Pollution and Control, 28, (1), 14-16, 27, (2006)
Li Q et al., Application of surface molecular imprinting adsorbent in expanded bed for the adsorption of Ni2+ and adsorption model.
Journal of Environmental Management, 85, (4), 900-907, (2007)
Li Q et al., Studies of adsorption for heavy metal ions and degradation of methyl orange based on the surface of ion-imprinted adsorbent.
Process Biochemistry, 42, (3), 379-383, (2007)
Su HJ et al., Surface active site model for Ni2+ adsorption of the surface imprinted adsorbent.
Process Biochemistry, 42, (4), 612-619, (2007)
Huo HY et al., The influence of trace TiO2 on adsorption of Ag+-imprinted adsorbents made from chitosan and mycelium.
Biotechnology and Bioprocess Engineering, 13, (1), 77-83, (2008)
Li Q et al., Synthesis of ion-imprinted chitosan-TiO2 adsorbent and its multi-functional performances.
Biochemical Engineering Journal, 38, (2), 212-218, (2008)
Su HJ et al., Adsorption mechanism for imprinted ion (Ni2+) of the surface molecular imprinting adsorbent (SMIA).
Biochemical Engineering Journal, 39, (3), 503-509, (2008)
Huo HY et al., Effect of trace Ag+ adsorption on degradation of organic dye wastes.
Biochemical Engineering Journal, 43, (1), 2-7, (2009)
Huo HY et al., Adsorption of Ag+ by a surface molecular-imprinted biosorbent.
Chemical Engineering Journal, 150, (1), 139-144, (2009)
Jiang W et al., Synthesis and Properties of Surface Molecular Imprinting Adsorbent for Removal of Pb2+.
Applied Biochemistry and Biotechnology, 160, (2), 467-476, (2010)
Chen EZ et al., A novel shape-controlled synthesis of dispersed silver nanoparticles by combined bioaffinity adsorption and TiO2 photocatalysis.
Powder Technology, 212, (1), 166-172, (2011)
Chen EZ et al., Antimicrobial properties of silver nanoparticles synthesized by bioaffinity adsorption coupled with TiO2 photocatalysis.
Journal of Chemical Technology & Biotechnology, 86, (3), 421-427, (2011)
Geng LY et al., Synthesis and evaluation of molecularly imprinted polymer microspheres for Erythromycin Ethylsuccinate.
Ion Exchange and Adsorption, 27, (6), 495-501, (2011)
Geng LY et al., Preparation, characterization and adsorption performance of molecularly imprinted microspheres for erythromycin using suspension polymerization.
Journal of Chemical Technology & Biotechnology, 87, (5), 635-642, (2012)
Xiao G et al., Synthesis of core-shell bioaffinity chitosan-TiO2 composite and its environmental applications.
Journal of Hazardous Materials, 283, 888-896, (2015)
Xiao G et al., Visible-light-mediated synergistic photocatalytic antimicrobial effects and mechanism of Ag-nanoparticles@chitosan-TiO2 organic-inorganic composites for water disinfection.
Applied Catalysis B: Environmental, 170-171, 255-262, (2015)
Xiao G et al., Advances in molecularly imprinted supramolecular technology for monitoring and controlling trace environmental pollutants.
Scientia Sinica Chimica, 48, (3), 266-276, (2018)
Zhao YL et al., Self-assembled selenium nanoparticles and their application in the rapid diagnostic detection of small cell lung cancer biomarkers.
Soft Matter, 14, (4), 481-489, (2018)
Journal of Analytical Science, 28, (1), 71-74, (2012)
Current Analytical Chemistry, 11, (4), 307-317, (2015)
Chinese Journal of Pharmaceutical Analysis, 26, (11), 1684-1688, (2006)
Su J et al., Molecular imprinted polymer(MIP)and its application.
Journal of Shandong University of Technology (Natural Science Edition), 22, (6), 90-95, (2008)
Li F et al., A strategy of utilizing Cu2+-mediating interaction to prepare magnetic imprinted polymers for the selective detection of celastrol in traditional Chinese medicines.
Talanta, 231, Article122339-(2021)
Li F et al., Hydrophilic molecularly imprinted polymers functionalized magnetic carbon nanotubes for selective extraction of cyclic adenosine monophosphate from winter jujube.
Journal of Separation Science, 44, (10), 2131-2142, (2021)
Journal of Hebei Institute of Technology, 32, (3), 99-101, (2010)
Composites Part B: Engineering, 231, Article109563-(2022)
Biosensors and Bioelectronics, 87, 417-421, (2017)
Applied Surface Science, 492, 108-115, (2019)
Macromolecular Materials And Engineering, 304, (4), Article1800731-(2019)
Wang YF et al., Thermo-sensitive surface molecularly imprinted magnetic microspheres based on bio-macromolecules and their specific recognition of bovine serum albumin.
Journal of Separation Science, 43, (5), 996-1002, (2020)
Journal of Molecular Recognition, 34, (11), Article_e2930-(2021)
Applied Chemical Industry, 37, (7), 717-720, 724, (2008)
Su L et al., Preparation and Property of Microspheric Cu(II) Ion Imprinted Polymer.
Journal of Anqing Teachers College (Natural Science Edition), 16, (1), 81-84, (2010)
Hu YL et al., Application of Molecular Imprinting Technique in Veterinary Drug Residue Analysis.
Progress in Veterinary Medicine, 32, (1), 103-106, (2011)
Zhao Y et al., Progressive Macromolecular Self-Assembly: From Biomimetic Chemistry to Bio-Inspired Materials.
Advanced Materials, 25, (37), 5215-5256, (2013)
Biosensors and Bioelectronics, 87, 203-208, (2017)
Journal of Analytical Science, 29, (1), 1-5, (2013)
Xiao DL et al., Fluorescent nanomaterials combined with molecular imprinting polymer: synthesis, analytical applications, and challenges.
Microchimica Acta, 187, (7), Article399-(2020)
Chinese Journal of Chromatography, 34, (12), 1206-1214, (2016)
Su LM et al., Surface-imprinted magnetic nanoparticles for the selective enrichment and fast separation of fluoroquinolones in human serum.
Journal of Separation Science, 40, (10), 2269-2277, (2017)
Journal of Qiqihar University (Natural Science Edition), 16, (4), 1-3, (2000)
Su LQ et al., Investigation of separation of caffeine and theophylline on molecular imprinted polymer stationary phases by high performance liquid chromatography.
Chemical Journal of Chinese Universities, 22, (7), 1122-1124, (2001)
Sun J et al., The synthesis of a new chiral separation functionnal monomer on molecular imprinted polymer.
Journal of Qiqihar University (Natural Science Edition), 20, (4), 1-3, (2004)
Wang ST et al., Study on preparing molecular imprinting polymer in polar solvent.
Chemical Engineer, 20, (10), 18-20, (2004)
Zhao LJ et al., Synthesis of Molecularly Imprinted Polymer Microspheres with Salicylic Acid as Template and the Study of Their Binding Characteristics.
Journal of Qiqihar University (Natural Science Edition), 21, (4), 14-16, (2005)
He DF et al., Preparation of 4-hydroxybenzoic acid imprinted polymers and recognization of its isomeric compound in aqueous media.
Journal of Qiqihar University (Natural Science Edition), 22, (1), 31-33, (2006)
Su LQ et al., Preparation and chromatographic study of salicylic acid imprinted polymers in aqueous media.
Chemistry Bulletin, 69, (3), 216-219, (2006)
Han S et al., Preparation and properties of triflumuron molecularly imprinted polymer.
Chemical Engineer, 23, (11), 4-5, 16, (2007)
Su LQ et al., Studies on the synthesis and properties of malachite green imprinted polymer.
Chinese Chemical Letters, 18, (2), 229-232, (2007)
Wang Y et al., Preparation and chromatographic study of P-Aminobenzoic acid imprinted polymers in aqueous media.
Journal of Qiqihar University (Natural Science Edition), 23, (5), 1-4, (2007)
Zhao L et al., Synthesis and properties study of heppuric acid molecularly imprinted polymer.
Chemical Engineer, 23, (10), 4-6, (2007)
Ding Y et al., Synthesis and Properties Study of 2, 2', 4, 4'Tetrahydroxybenzophenone Molecularly Imprinted Polymer.
Chemical Industry Times, 22, (10), 21-23, (2008)
He DF et al., Application study of separation of fluoroquinolone drugs imprinted polymers.
Journal of Science of Teachers' College and University, 28, (1), 65-68, (2008)
Liang YK et al., Synthesis and Poroperties Study of Vanillin Molecular Imprinted Polymer.
Chemical Industry Times, 22, (11), 28-30, (2008)
Su LQ et al., Synthesis and Characterization of 2-(Methacryloylamino) ethyoxyl-2-methacrylate Ethandiol Ester Matrix Molecular Imprinting Chiral Separation Medium.
Chinese Journal of Analytical Chemistry, 36, (12), 1732-1734, (2008)
Wu ZY et al., Preparation of molecularly imprinted polymer and their recognition for armillarisin A.
Chemical Engineer, 22, (9), 48-49, 59, (2008)
Chi DM et al., Development in the Research of the Selection Methods of Functional Monomer in Molecular Imprinting.
Chemical Industry Times, 23, (12), 55-57, (2009)
Deng XS et al., Synthesis and Properties Study of Hesperetin Molecular Imprinted Polymer.
Chemical Industry Times, 23, (4), 28-30, (2009)
Guo XJ et al., The Synthesis of Tetrabromobisphenol A Molecularly Imprinted Polymers and Investigation of Its Binding Characteristics.
Chemical Industry Times, 23, (3), 13-16, (2009)
Su LQ et al., Synthesis and evaluation of Armillarisin A -imprinted polymer on silica surface.
Chemistry Bulletin, 72, (8), 749-753, (2009)
Wang LL et al., Preparation of Molecularly Imprinted Polymer of Cyprodinil and Its Characteristics.
Chemical Industry Times, 23, (3), 47-49, (2009)
Xing ZF et al., Preparation of Molecularly Imprinted Polymer with Racemic Cefradine as Template and Study on Its Chiral Resolution.
Liaoning Chemical Industry, 38, (1), 17-20, (2009)
Yu Y et al., Study on the Preparation and Recognition Property of Molecular Imprinted Polymer of Osalmide.
Chemical Industry Times, 23, (6), 18-20, (2009)
Yu Y et al., Study on the preparation and recognition property of molecular imprinted polymer of salicylanilide.
Chemical Engineer, 23, (4), 63-(2009)
Zhai MH et al., Synthesis and Properties Study of 2, 4-Dihydroxybenzophenone Molecularly Imprinted Polymer.
Chemical Industry Times, 23, (1), 33-35, (2009)
Han Y et al., Synthesis of Boc-L-phenylalanine Imprinted Polymer via Precipitation Polymerization.
Chemical Industry Times, 24, (12), 15-7, (2010)
Ma HL et al., Preparation of Nicotinamide Molecularly Imprinted Polymer Microspheres via Precipitation Polymerization.
Chemical Industry Times, 24, (12), 18-20, (2010)
Zhang JP et al., Preparation of molecularly imprinted polymer of hippuric acid and its characteristics in the aqueous phase.
Chemical Engineer, 24, (9), 10-12, (2010)
Zhang Y et al., Selective Enrichment of Iysozyme from the Protein Samples in the Molecularly Imprinted Polymer System.
Chemical Industry Times, 24, (8), 9-11, (2010)
Zhao YF et al., Synthesis and Characterization of Molecularly Imprinted Polymer as p-aminobenzoic acid.
Chemical Industry Times, 24, (6), 5-7, (2010)
Chen CN et al., Synthesis of Molecularly Imprinted Polymer as Sulfamethazine via Precipitation Polymerization.
Chemical Industry Times, 25, (12), 9-11, (2011)
Ning ZX et al., Performance Evaluation Based on Molecularly Imprinted Polymer of BHb on Surface of Silica Graft by the Termination of Transfer Agent.
Chemical Industry Times, 25, (10), 12-14, (2011)
Su LQ et al., Study of core-Shell structural amino acids molecularly imprinted separation medium.
Chemistry Bulletin, 74, (12), 1145-1149, (2011)
Su LQ et al., Study on the preparation and characterization of sol-gel molecularly imprinted monolithic column.
Chemical Research and Application, 23, (2), 221-224, (2011)
Su LQ et al., Proceeding, Chiral Separation of Amino Acid Derivatives by Molecular Imprinting Technique,
Cao Z, Cao XQ, Sun LX, He YH (Eds.), 2545-2548, (2011)
Yu SM et al., Molecular Imprinting Polymers for Chiral Separation of N-BOC-L-Trp.
Chemical Industry Times, 25, (10), 18-20, (2011)
Qin SL et al., Simultaneous determination of five sulfonamides in wastewater using group-selective molecularly imprinted solid-phase extraction coupled with HPLC-DAD.
Analytical Methods, 4, (12), 4278-4283, (2012)
Su LQ et al., Preparation of Vanillin Molecularly Imprinted Polymeric Microspheres by Seed Swelling Suspension Polymerization.
Chemistry Bulletin, 75, (2), 176-179, (2012)
Su LQ et al., Preparation and recognition characters of the gatifloxacin molecularly imprinted polymer on silica surface.
Chemistry Bulletin, 75, (10), 908-913, (2012)
Su LQ et al., Preparation and evaluation of vanillin molecularly imprinted polymer microspheres by reversible addition-fragmentation chain transfer precipitation polymerization.
Analytical Methods, 6, (8), 2512-2517, (2014)
Qin SL et al., Rapid and selective extraction of multiple sulfonamides from aqueous samples based on Fe3O4-chitosan molecularly imprinted polymers.
Analytical Methods, 7, (20), 8704-8713, (2015)
Qin SL et al., Mixed templates molecularly imprinted solid-phase extraction for the detection of sulfonamides in fish farming water.
Journal of Applied Polymer Science, 132, (8), Article No 41491-(2015)
Su LQ et al., Controlled Preparation and Characterization of Aspirin Surface Molecularly Imprinted Separating Medium Based on Halloysite Nanotubes.
Chinese Journal of Analytical Chemistry, 43, (11), 1772-1776, (2015)
Qin SL et al., Preparation and application research of sulfonamides mixed templates molecularly imprinted polymers.
Chinese Journal of Analysis Laboratory, 35, (5), 590-595, (2016)
Su LQ et al., Determination of Atrazine in Vegetables with Extraction by a Magnetite-Chitosan Molecularly Imprinted Polymer and Gas Chromatography.
Analytical Letters, 49, (14), 2177-2192, (2016)
Zu GQ et al., Preparation and characterization of sulfadimethoxine molecularly imprinted polymer.
Chinese Journal of Analysis Laboratory, 35, (8), 936-940, (2016)
Li J et al., Molecularly imprinted solid phase extraction-high performance liquid chromatography method for the determination of ofloxacin in chicken gizzards.
Chinese Journal of Analysis Laboratory, 36, (7), 815-818, (2017)
Su LQ et al., Applications of the malachite green imprinted material prepared by RAFT radical precipitation polymerization.
Chinese Journal of Analysis Laboratory, 36, (8), 938-942, (2017)
Su LQ et al., Study on preparation and adsorption properties of magnetic-chitosan surface imprinted tetracycline.
Chinese Journal of Analysis Laboratory, 36, (9), 1071-1075, (2017)
Su LQ et al., Reversible addition fragmentation chain transfer preparation and performance evaluation of aspirin imprinted material.
Chinese Journal of Analysis Laboratory, 36, (2), 168-172, (2017)
Zhai MH et al., The preparation and application of hydrophilic molecularly imprinted solid phase extraction medium.
Chinese Journal of Analysis Laboratory, 36, (6), 681-684, (2017)
Zu GQ et al., Molecularly imprinted solid phase extraction-ultra performance liquid chromatography tandem mass spectrometry for the determination of sulfadimethoxine in pork.
Chinese Journal of Analysis Laboratory, 36, (3), 292-296, (2017)
Lv YR et al., Preparation and application of molecularly imprinted polymers of trichlorfon.
Journal of Food Safety and Quality, 9, (16), 4393-4396, (2018)
Teng Y et al., Synthesis and application of tetracycline imprinted polymer based on chitosan.
Chinese Journal of Analysis Laboratory, 37, (5), 579-583, (2018)
Han S et al., A molecularly imprinted composite based on graphene oxide for targeted drug delivery to tumor cells.
Journal of Materials Science, 54, (4), 3331-3341, (2019)
Qin SL et al., Determination of sulfamerazine in aquatic products by molecularly imprinted capillary electrochromatography.
Royal Society Open Science, 6, (6), Article190119-(2019)
Su LQ et al., Controllable Preparation and Application of Quercetin Molecularly Imprinted Polymer.
Russian Journal of Applied Chemistry, 92, (7), 972-981, (2019)
Han S et al., A two-dimensional molecularly imprinted photonic crystal sensor for highly efficient tetracycline detection.
Analytical Methods, 12, (10), 1374-1379, (2020)
Han S et al., Drug-loaded dual targeting graphene oxide-based molecularly imprinted composite and recognition of carcino-embryonic antigen.
RSC Advances, 10, (19), 10980-10988, (2020)
Journal of Food and Drug Analysis, 24, (3), 579-585, (2016)
Su M et al., Residue investigation of some phenylureas and tebuthiuron herbicides in vegetables by ultra-performance liquid chromatography coupled with integrated selective accelerated solvent extraction-clean up in situ.
Journal of the Science of Food and Agriculture, 98, (13), 4845-4853, (2018)
Journal of China Pharmaceutical University, 40, (5), 435-439, (2009)
Yang QQ et al., Preparation of baicalein molecularly imprinted monolithic columns.
Chinese Journal of Pharmaceutical Analysis, 31, (1), 1-5, (2011)
Di B et al., Anionic surfactant templated chiral nanospheres and their enantioselective adsorption.
New Journal of Chemistry, 37, (5), 1603-1609, (2013)
Su MX et al., Stereoselective adsorption utilizing l-phenylalanine imprinting chiral ordered mesoporous silica.
RSC Advances, 4, (98), 54998-55002, (2014)
Materials Chemistry and Physics, 135, (1), 130-136, (2012)
RSC Advances, 9, (9), 5110-5120, (2019)
Journal of Chromatography A, 1092, (2), 161-169, (2005)
Zhu XL et al., Molecularly imprinted polymer for monocrotophos and its binding characteristics for organophosphorus pesticides.
Annali di Chimica, 95, (11-12), 877-885, (2005)
Yang J et al., A new molecularly imprinted polymer for selective extraction of cotinine from urine samples by solid-phase extraction.
Analytical and Bioanalytical Chemistry, 384, (3), 761-768, (2006)
Zhu XL et al., Molecularly imprinted polymer membranes for substance-selective solid-phase extraction from aqueous solutions.
Journal of Applied Polymer Science, 101, (6), 4468-4473, (2006)
Zhu XL et al., Films coated with molecular imprinted polymers for the selective stir bar sorption extraction of monocrotophos.
Journal of Chromatography A, 1131, (1-2), 37-44, (2006)
Zhu XL et al., Spectroscopy study of molecular recognition of a molecular imprinted monocrotophos-specific polymer.
Spectroscopy and Spectral Analysis, 26, (10), 1817-1820, (2006)
Wu PJ et al., Rapid Removal of Template from Molecularly Imprinted Polymers by Accelerated Solvent Extraction.
Chinese Journal of Analytical Chemistry, 35, (4), 484-488, (2007)
Yang J et al., Spectroscopy and XPS studies on molecular recognition of a molecularly imprinted cotinine-specific polymer.
Spectroscopy and Spectral Analysis, 27, (6), 1152-1155, (2007)
Yang J et al., Selective hair analysis of nicotine by molecular imprinted solid-phase extraction: An application for evaluating tobacco smoke exposure.
Food and Chemical Toxicology, 45, (6), 896-903, (2007)
Liang FX et al., Accelerated solvent extraction and matrix solid phase dispersion using molecularly imprinted polymer for the analysis of monocrotophos in soil.
Asian Journal of Chemistry, 20, (5), 3954-3960, (2008)
Shen ZL et al., Study on the Binding Characteristic of Methamidophos-specific Molecularly Imprinted Polymer and the Interactions between Template and Monomers.
Journal of the Chinese Chemical Society, 55, (3), 587-593, (2008)
Guo JJ et al., On-line Selective Solid-Phase Extraction of Copper with a Surface Ion Imprinted Silica Gel Sorbent.
Journal of the Chinese Chemical Society, 56, (4), 763-770, (2009)
Guo JJ et al., Ion imprinted polymer particles of neodymium: synthesis, characterization and selective recognition.
Journal of Rare Earths, 27, (1), 22-27, (2009)
Shen ZL et al., Spectroscopy Study of Binding Mechanisms and Molecular Recognition of Methamidophos-Specific Moleculary Imprinted Polymer.
Spectroscopy and Spectral Analysis, 29, (1), 78-81, (2009)
Guo JJ et al., Erbium(III)-ion imprinted silica gel sorbent: synthesis and selective solid-phase extraction.
Journal of Functional Materials, 41, (Suppl. 2), 288-291, (2010)
Tang PP et al., An Indirect Inhibitive Immunoassay for Detection of Low Concentration Sulfamethoxazole in Aqueous Solution.
Chinese Journal of Analytical Chemistry, 38, (7), 1019-1022, (2010)
Tang PP et al., Synthesis and Adsorption Study of BSA Surface Imprinted Polymer on CdS Quantum Dots.
Chinese Journal of Chemical Physics, 23, (2), 195-200, (2010)
Tang PP et al., A novel indirect inhibitive immunoassay for sulfamethoxazole.
Chinese Chemical Letters, 21, (8), 955-958, (2010)
Tang ZZ et al., Spectroscopy Study on Molecular Recognition of 1-Naphthalenamine Molecularly Imprinted Polymer.
Chinese Journal of Spectroscopy Laboratory, 27, (2), 761-765, (2010)
Shen ZL et al., Selective Solid-Phase Extraction Using Molecularly Imprinted Polymer for Analysis of Methamidophos in Water and Soil Samples.
Bioscience Biotechnology and Biochemistry, 75, (3), 473-479, (2011)
Journal of Liquid Chromatography & Related Technologies, 34, (18), 2063-2073, (2011)
Su QL et al., Evaluation of Diazepam-Molecularly Imprinted Microspheres for the Separation of Diazepam and its Main Metabolite from Body Fluid Samples.
Journal of Chromatographic Science, 50, (7), 608-614, (2012)
Yu ZR et al., Preparation and evaluation of aconitine imprinted microspheres and its application to body fluid samples.
Journal of Applied Polymer Science, 128, (5), 3425-3431, (2013)
Scientific Reports, 7, (1), ArticleNo14714-(2017)
Kou W et al., Fast quantification of fluoroquinolones in environmental water samples using molecularly imprinted polymers coupled with internal extractive electrospray ionization mass spectrometry.
RSC Advances, 8, (31), 17293-17299, (2018)
RSC Advances, 5, (114), 94084-94090, (2015)
Guangzhou Chemical Industry, 45, (2), 18-19, 44, (2017)
Progress In Chemistry, 22, (1), 173-178, (2010)
Lan XB et al., Preparation of Molecular Imprinted Photonic Crystal Sensor and Its Application in Determination of Phthalate Esters.
Chinese Journal of Analytical Chemistry, 43, (4), 471-478, (2015)
Wang MF et al., Enhancing the Activity of Peptide-Based Artificial Hydrolase with Catalytic Ser/His/Asp Triad and Molecular Imprinting.
ACS Applied Materials & Interfaces, 8, (22), 14133-14141, (2016)
Liu MY et al., Molecularly Imprinted Core-Shell CdSe@SiO2/CDs as a Ratiometric Fluorescent Probe for 4-Nitrophenol Sensing.
Nanoscale Research Letters, 13, (1), ArticleNo27-(2018)
Zhu MJ et al., Constructing peptide-based artificial hydrolases with customized selectivity.
Journal of Materials Chemistry B, 7, (24), 3804-3810, (2019)
Talanta, 76, (5), 1141-1146, (2008)
Xu WJ et al., Determination of sulfonamides in bovine milk with column-switching high performance liquid chromatography using surface imprinted silica with hydrophilic external layer as restricted access and selective extraction material.
Journal of Chromatography A, 1217, (46), 7198-7207, (2010)
Desalination and Water Treatment, 58, 93-105, (2017)
Guo N et al., Preparation and properties of a novel macro porous Ni2+-imprinted chitosan foam adsorbents for adsorption of nickel ions from aqueous solution.
Carbohydrate Polymers, 165, 376-383, (2017)
Journal of Wuhan Institute of Technology, 34, (5), 16-19, (2012)
Chemical Journal of Chinese Universities-Chinese, 35, (10), 2146-2155, (2014)
Su TT et al., Theoretical Study on the Structures and Properties of Phenobarbital Imprinted Polymers.
Chinese Journal of Structural Chemistry, 33, (10), 1421-1430, (2014)
Liu JB et al., Theoretical and experimental studies on the performances of barbital-imprinted systems.
Journal of Separation Science, 38, (23), 4105-4110, (2015)
Su TT et al., Design and Properties of Barbital Imprinting System with 4-Vinylpyridine as Functional Monomer.
Polymer Materials Science and Engineering, 31, (2), 5-10, (2015)
Aerosol and Air Quality Research, 19, (9), 2130-2150, (2019)
Analytica Chimica Acta, 615, (1), 54-62, (2008)
Microchemical Journal, 92, (2), 123-128, (2009)
Analytical Chemistry, 85, (10), 4853-4857, (2013)
Chen SJ et al., Preparation and application of magnetic molecular imprinted polymers for extraction of cephalexin from pork and milk samples.
Journal of Chromatography A, 1602, 124-134, (2019)
Chen SJ et al., A phosphorescent probe for cephalexin consisting of mesoporous thioglycolic acid-modified Mn:ZnS quantum dots coated with a molecularly imprinted polymer.
Microchimica Acta, 187, (1), Article40-(2019)
Chen SJ et al., Preparation and characterization of magnetic molecular imprinted polymers with ionic liquid for the extraction of carbaryl in food.
Analytical and Bioanalytical Chemistry, 412, (5), 1049-1062, (2020)
Metallurgical Analysis, 29, (8), 16-20, (2009)
TrAC Trends in Analytical Chemistry, 103, 1-20, (2018)
Nie YX et al., Nitrogen-rich quantum dots-based fluorescence molecularly imprinted paper strip for p-nitroaniline detection.
Microchemical Journal, 148, 162-168, (2019)
Shah SM et al., Highly Selective Solid-Phase Extraction of Pb(II) by Ion-Imprinted Superparamagnetic Mesoporous Silica.
ChemistrySelect, 4, (1), 259-264, (2019)
Journal of Applied Polymer Science, 132, (8), Article No 41507-(2015)
Chinese Journal of Analytical Chemistry, 43, (7), 1021-1026, (2015)
Chemical Engineer, 23, (11), 4-5, 16, (2007)
Li XY et al., Synthesis and characterization of molecularly imprinted polymers with modified rosin as a cross-linker and selective SPE-HPLC detection of basic orange II in foods.
Analytical Methods, 6, (16), 6397-6406, (2014)
Su XM et al., Synthesis and characterization of core-shell magnetic molecularly imprinted polymers for solid-phase extraction of Rhodamine 6G.
Journal of Functional Materials, 45, (23), 23080-23085+23090, (2014)
Su XM et al., Preparation and Adsorption Performance of Core-Shell Magnetic Molecularly Imprinted Polymer Microspheres for Solid Phase Extraction and Detection of Rhodamine 6G in Foods.
Food Science, 35, (24), 9-14, (2014)
Wu ZY et al., Study of online molecularly imprinted solid phase extraction techniques in food safety analysis.
Journal of Food Safety and Quality, 5, (5), 1297-1304, (2014)
Liu M et al., Synthesis of magnetic molecularly imprinted polymers for the selective separation and determination of metronidazole in cosmetic samples.
Analytical and Bioanalytical Chemistry, 407, (13), 3875-3880, (2015)
Su XM et al., Synthesis and characterization of core-shell magnetic molecularly imprinted polymers for solid-phase extraction and determination of Rhodamine B in food.
Food Chemistry, 171, 292-297, (2015)
Chinese Journal of Analytical Chemistry, 35, (9), 1319-1322, (2007)
Wang PL et al., Determination of Four Kinds of [beta]-Agonists in Swine Urine by Molecularly Imprinted Solid Phase Extraction Followed Gas Chromatography Coupled Mass Spectrometry.
Chinese Journal of Analytical Chemistry, 40, (3), 470-473, (2012)
Cheng J et al., Simultaneous Identification and Quantification of 20 [beta]-Receptor Agonists in Feed Using Gas Chromatography-Tandem Mass Spectrometry.
PLoS ONE, 8, (10), e76400-(2013)
Wang PL et al., Synthesis of ractopamine molecularly imprinted membrane and its application in the rapid determination of three [beta]-agonists in porcine urine samples.
Journal of Separation Science, 36, (8), 1455-1462, (2013)
Wang PL et al., Determination of [beta]2-Agonists in Porcine Urine by Molecularly Imprinted Solid Phase Extraction Followed Ultra-Performance Liquid Chromatography-Tandem Mass Spectrometry Detection.
Analytical Letters, 46, (5), 734-744, (2013)
Wang PL et al., Sensitive detection of [beta]-agonists in pork tissue with novel molecularly imprinted polymer extraction followed liquid chromatography coupled tandem mass spectrometry detection.
Food Chemistry, 184, 72-79, (2015)
Wang PL et al., Advancements of molecularly imprinted polymers in the food safety field.
Analyst, 141, (12), 3540-3553, (2016)
Wang PL et al., An aptamer based assay for the [beta]-adrenergic agonist ractopamine based on aggregation of gold nanoparticles in combination with a molecularly imprinted polymer.
Microchimica Acta, 183, (11), 2899-2905, (2016)
Zhang CY et al., Molecularly Imprinting Polymer Electrochemical Sensor Based on Structure of Metal Organic Frameworks for Determination of Phenylethanolamine A in Swine Urine.
Chinese Journal of Analytical Chemistry, 44, (12), 1859-1866, (2016)
Zhang W et al., Current advancement in analysis of [beta]-agonists.
TrAC Trends in Analytical Chemistry, 85, (Part C), 1-16, (2016)
Suo DC et al., Pseudo template molecularly imprinted polymer for determination of 14 kind of [beta]-agonists in animal urine by ultra-high-performance liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1526, 23-30, (2017)
Talanta, 83, (3), 757-764, (2011)
Biosensors and Bioelectronics, 65, 78-82, (2015)
RSC Advances, 5, (115), 94997-95006, (2015)
Zeng SM et al., Analysis of Four Tropane Alkaloids in Przewalskia Tangutica Maxim.by Analogous-specific Molecularly Imprinted Solid-phase Extraction Combined with High Performance Liquid Chromatography.
Journal of Instrumental Analysis, 35, (4), 373-379, (2016)
Chemical Industry and Engineering Progress, 30, (2), 353-358, 370, (2011)
Wei SL et al., Study and Application of Acid Orange II Sensor Based on Molecularly Imprinted Electropolymerized Membrane.
Journal of Instrumental Analysis, 33, (6), 683-687, (2014)
Journal of Chromatography A, 1117, (2), 163-169, (2006)
Talanta, 144, 115-121, (2015)
Lin ZK et al., Selective extraction of bisphenol A from water by one-monomer molecularly imprinted magnetic nanoparticles.
Journal of Separation Science, 41, (9), 2029-2036, (2018)
430-433, (2006)
Journal of Chromatography A, 1216, (34), 6196-6203, (2009)
Zhang QJ et al., Molecularly imprinted solid-phase extraction for the selective HPLC determination of ractopamine in pig urine.
Journal of Separation Science, 34, (23), 3399-3409, (2011)
Wang LQ et al., Matrix Effects in Analysis of [beta]-Agonists with LC-MS/MS: Influence of Analyte Concentration, Sample Source, and SPE Type.
Journal of Agricultural and Food Chemistry, 60, (25), 6359-6363, (2012)
He QQ et al., Simultaneous determination of quinoxaline-1, 4-dioxides in feeds using molecularly imprinted solid-phase extraction coupled with HPLC.
Journal of Separation Science, 36, (2), 301-310, (2013)
Song XQ et al., Determination of macrolide antibiotics residues in pork using molecularly imprinted dispersive solid-phase extraction coupled with LC-MS/MS.
Journal of Separation Science, 41, (5), 1138-1148, (2018)
Su YJ et al., Separation of bovine hemoglobin using novel magnetic molecular imprinted nanoparticles.
RSC Advances, 8, (11), 6192-6199, (2018)
Song XQ et al., Preparation and Application of Molecularly Imprinted Monolithic Extraction Column for the Selective Microextraction of Multiple Macrolide Antibiotics from Animal Muscles.
Polymers, 11, (7), ArticleNo1109-(2019)
Zhou H et al., Preparation of surface molecularly imprinted polymer and its application for the selective extraction of teicoplanin from water.
RSC Advances, 11, (22), 13615-13623, (2021)
525-528, (2009)
Journal of Separation Science, 32, (19), 3310-3318, (2009)
Journal of Chromatography A, 1219, (1), 195-200, (2012)
Nanoscale, 13, (29), 12553-12564, (2021)
The Chinese Journal of Process Engineering, 9, (3), 608-612, (2009)
Zhou YM et al., Molecular imprinting-flow injection chemiluminescence method for determination of doxycycline hydrochloride.
Spectroscopy and Spectral Analysis, 29, (7), 1745-1749, (2009)
Geng LY et al., Synthesis and evaluation of molecularly imprinted polymer microspheres for Erythromycin Ethylsuccinate.
Ion Exchange and Adsorption, 27, (6), 495-501, (2011)
Kou X et al., Preparation of molecularly imprinted nanoparticles for erythromycin and their adsorption characteristics.
The Chinese Journal of Process Engineering, 11, (3), 481-486, (2011)
Geng LY et al., Preparation, characterization and adsorption performance of molecularly imprinted microspheres for erythromycin using suspension polymerization.
Journal of Chemical Technology & Biotechnology, 87, (5), 635-642, (2012)
Kou X et al., Synthesis, Characterization and Adsorption Behavior of Molecularly Imprinted Nanospheres for Erythromycin Using Precipitation Polymerization.
Journal of Nanoscience and Nanotechnology, 12, (9), 7388-7394, (2012)
Kou X et al., Preparation of molecularly imprinted nanospheres by premix membrane emulsification technique.
Journal of Membrane Science, 417-418, 87-95, (2012)
Yun YB et al., Synthesis and Adsorption Performance of Molecularly Imprinted Microspheres for Quercetin by Suspension Polymerization.
Pharmaceutica Analytica Acta, 3, (3), Art.No. 151-(2012)
Journal of Separation Science, 36, (21-22), 3608-3614, (2013)
Su ZH et al., Molecularly imprinted solid-phase extraction monolithic capillary column for selective extraction and sensitive determination of safranine T in wolfberry.
Analytical and Bioanalytical Chemistry, 406, (5), 1551-1556, (2014)
Zhai HY et al., A glass/PDMS electrophoresis microchip embedded with molecular imprinting SPE monolith for contactless conductivity detection.
Microchemical Journal, 114, 223-228, (2014)
Yuan KS et al., Sensitive determination of rose bengal in brown sugar by a molecularly imprinted solid-phase extraction monolithic capillary column coupled with capillary electrophoresis.
Analytical Methods, 7, (19), 8297-8303, (2015)
Zhai HY et al., Molecularly imprinted coated graphene oxide solid-phase extraction monolithic capillary column for selective extraction and sensitive determination of phloxine B in coffee bean.
Analytica Chimica Acta, 865, 16-21, (2015)
Huang L et al., Chip-based dual-molecularly imprinted monolithic capillary array columns coated Ag/GO for selective extraction and simultaneous determination of bisphenol A and nonyl phenol in fish samples.
Journal of Chromatography A, 1474, 14-22, (2016)
Zhai HY et al., Chip-based molecularly imprinted monolithic capillary array columns coated GO/SiO2 for selective extraction and sensitive determination of rhodamine B in chili powder.
Food Chemistry, 214, 664-669, (2017)
Biosensors and Bioelectronics, 150, Article111901-(2020)
Lee MH et al., Epitope imprinting of alpha-synuclein for sensing in Parkinson's brain organoid culture medium.
Biosensors and Bioelectronics, 175, Article112852-(2021)
Lee MH et al., Transition metal dichalcogenides to optimize the performance of peptide-imprinted conductive polymers as electrochemical sensors.
Microchimica Acta, 188, (6), Article203-(2021)
Microchemical Journal, 158, Article105293-(2020)
Liu Y et al., Molecularly imprinted polymer with mixed-mode mechanism for selective extraction and on-line detection of ochratoxin A in beer sample.
Microchemical Journal, 170, Article106696-(2021)
Analytica Chimica Acta, 1124, 113-120, (2020)
Microchimica Acta, 188, (11), Article378-(2021)
China Journal of Chinese Materia Medica, 40, (12), 2420-2427, (2015)
Ghodgaonkar DK, Ahmad M, Heng LY, Habash RW, Wui WT, Taib MN (Eds.), 61-63, (2005)
Yusof NF et al., Ion-imprinted polymer-based on picolinic acid as a co-functional monomer for highly selective sorption of Cu(II) ions in an aqueous solution.
AIP Conference Proceedings, 1885, (1), ArticleNo020017-(2017)
Mehamod FS et al., Pyrogallol-imprinted polymers with methyl methacrylate via precipitation polymerization.
AIP Conference Proceedings, 1972, (1), ArticleNo020003-(2018)
Yusof NF et al., Characteristics of adsorption isotherm and kinetic study for newly prepared Co2+-imprinted polymer linkage with dipicolinic acid.
IOP Conference Series: Materials Science and Engineering, 440, ArticleNo.012005-(2018)
In: Emerging Applications of Nanoparticles and Architecture Nanostructures, Barhoum A, Makhlouf ASH (Eds.) Elsevier: Ch. 13, 385-409, (2018)
Journal of the American Chemical Society, 126, (10), 3185-3190, (2004)
Expert Opinion on Drug Delivery, 11, (4), 537-546, (2014)
Sensing and Bio-Sensing Research, 27, Article100318-(2020)
Scientific Reports, 5, ArticleNo11438-(2015)
Chen J et al., Validation of molecularly imprinted polymers for side chain selective phosphopeptide enrichment.
Journal of Chromatography A, 1471, 45-50, (2016)
Duarte M et al., Molecularly imprinted polymers synthesized via template immobilization on fumed silica nanoparticles for the enrichment of phosphopeptides.
Journal of Molecular Recognition, 31, (3), ArticleNoe2677-(2018)
Advanced Materials, 12, (10), 722-724, (2000)
Piletska EV et al., A new reactive polymer suitable for covalent immobilisation and monitoring of primary amines.
Polymer, 42, (8), 3603-3608, (2001)
Piletsky SA et al., Application of molecularly imprinted polymers in sensors for the environment and biotechnology.
Sensor Review, 21, (4), 292-296, (2001)
Subrahmanyam S et al., Bite-and-switch approach using computationally designed molecularly imprinted polymers for sensing of creatinine.
Biosensors and Bioelectronics, 16, (9-12), 631-637, (2001)
Lakshmi D et al., Electrochemical Sensor for Catechol and Dopamine Based on a Catalytic Molecularly Imprinted Polymer-Conducting Polymer Hybrid Recognition Element.
Analytical Chemistry, 81, (9), 3576-3584, (2009)
Subrahmanyam S et al., Book chapter, Computational Design of Molecularly Imprinted Polymers,
In: Combinatorial Methods for Chemical and Biological Sensors, Potyrailo RA, Mirsky VM (Eds.) Springer: New York, Ch. 6, 135-172, (2009)
Des Azevedo S et al., Molecularly Imprinted Polymer-Hybrid Electrochemical Sensor for the Detection of [beta]-Estradiol.
Industrial & Engineering Chemistry Research, 52, (39), 13917-13923, (2013)
Subrahmanyam S et al., Optimization of experimental conditions for synthesis of high affinity MIP nanoparticles.
European Polymer Journal, 49, 100-105, (2013)
Subrahmanyam S et al., Book chapter, Computational Approaches in the Design of Synthetic Receptors,
In: Designing Receptors for the Next Generation of Biosensors, Piletsky SA, Whitcombe MJ (Eds.) Springer: Berlin, Heidelberg, 131-165, (2013)
Royal Society Open Science, 4, (8), ArticleNo170300-(2017)
Analyst, 137, (14), 3242-3245, (2012)
Jpc-Journal Of Planar Chromatography-Modern Tlc, 11, 272-276, (1998)
Suedee R et al., Direct enantioseparation of adrenergic drugs via thin-layer chromatography using molecularly imprinted polymers.
Journal of Pharmaceutical and Biomedical Analysis, 19, (3), 519-527, (1999)
Suedee R et al., Chiral determination of various adrenergic drugs by thin-layer chromatography using molecularly imprinted chiral stationary phases prepared with a-agonists.
Analyst, 124, (7), 1003-1009, (1999)
Suedee R et al., Evaluation of matrices containing molecularly imprinted polymers in the enantioselective-controlled delivery of b-blockers.
Journal of Controlled Release, 66, (2-3), 135-147, (2000)
Suedee R et al., Thin-layer chromatographic separation of chiral drugs on molecularly imprinted chiral stationary phases.
Jpc-Journal Of Planar Chromatography-Modern Tlc, 14, (3), 194-198, (2001)
Suedee R et al., Enantioselective release of controlled delivery granules based on molecularly imprinted polymers.
Drug Delivery, 9, (1), 19-30, (2002)
Suedee R et al., Stereoselective release behaviors of imprinted bead matrices.
Drug Development and Industrial Pharmacy, 28, (5), 545-554, (2002)
Suedee R et al., Development of trichloroacetic acid sensor based on molecularly imprinted polymer membrane for the screening of complex mixture of haloacetic acids in drinking water.
Analytica Chimica Acta, 504, (1), 89-100, (2004)
Suedee R et al., Use of molecularly imprinted polymers from a mixture of tetracycline and its degradation products to produce affinity membranes for the removal of tetracycline from water.
Journal of Chromatography B, 811, (2), 191-200, (2004)
Bodhibukkana C et al., Composite membrane of bacterially-derived cellulose and molecularly imprinted polymer for use as a transdermal enantioselective controlled-release system of racemic propranolol.
Journal of Controlled Release, 113, (1), 43-56, (2006)
Suedee R et al., Molecularly imprinted polymer-modified electrode for on-line conductometric monitoring of haloacetic acids in chlorinated water.
Analytica Chimica Acta, 569, (1-2), 66-75, (2006)
Suedee R et al., Temperature sensitive dopamine-imprinted (N, N-methylene-bis-acrylamide cross-linked) polymer and its potential application to the selective extraction of adrenergic drugs from urine.
Journal of Chromatography A, 1114, (2), 239-249, (2006)
Suedee R et al., The use of trichloroacetic acid imprinted polymer coated quartz crystal microbalance as a screening method for determination of haloacetic acids in drinking water.
Talanta, 70, (1), 194-201, (2006)
Suedee R et al., Trichloroacetic acid-imprinted polypyrrole film and its property in piezoelectric quartz crystal microbalance and electrochemical sensors to application for determination of haloacetic acids disinfection by-product in drinking water.
Journal of Applied Polymer Science, 106, (6), 3861-3871, (2007)
Jantarat C et al., S-Propranolol imprinted polymer nanoparticle-on-microsphere composite porous cellulose membrane for the enantioselectively controlled delivery of racemic propranolol.
International Journal of Pharmaceutics, 349, (1-2), 212-225, (2008)
Suedee R et al., Development of a reservoir-type transdermal enantioselective-controlled delivery system for racemic propranolol using a molecularly imprinted polymer composite membrane.
Journal of Controlled Release, 129, (3), 170-178, (2008)
Suedee R et al., Recognition Properties and Competitive Assays of a Dual Dopamine/Serotonin Selective Molecularly Imprinted Polymer.
International Journal of Molecular Sciences, 9, (12), 2333-2356, (2008)
Suedee R et al., Development of a pH-responsive drug delivery system for enantioselective-controlled delivery of racemic drugs.
Journal of Controlled Release, 142, (1), 122-131, (2010)
Sontimuang C et al., Interdigitated capacitive biosensor based on molecularly imprinted polymer for rapid detection of Hev b1 latex allergen.
Analytical Biochemistry, 410, (2), 224-233, (2011)
Sontimuang C et al., Proceeding, Development of a Rubber Elongation Factor Surface-Quartz Crystal Microbalance Sensor for Determination of Natural Rubber Latex Allergens in Glove Samples,
26-29, (2011)
Sontimuang C et al., Proceeding, Development of Interdigitated Capacitance Electrodes Based on Rubber Elongation Factor-Imprinted Polymer for Determination of Rubber Elongation Factor Proteins in Rubber Latex Gloves,
53-56, (2011)
Sontimuang C et al., Development of a rubber elongation factor, surface-imprinted polymer-quartz crystal microbalance sensor, for quantitative determination of Hev b1 rubber latex allergens present in natural rubber latex products.
Analytica Chimica Acta, 687, (2), 184-192, (2011)
Seechamnanturakit V et al., The Synthesis and Characterisation of Retinol-molecularly Imprinted Polymers as a Selective Sorbent in Solid-phase Extraction.
International Journal of Applied Science and Technology, 2, (7), 81-93, (2012)
Suedee R, Novel Strategic Innovations for Designing Drug Delivery System Using Molecularly Imprinted Micro/Nanobeads.
International Journal of Pharmaceutical Sciences Review and Research, 20, (2), 235-268, (2013)
Suedee R, The Use of Molecularly Imprinted Polymers for Dermal Drug Delivery.
Pharmaceutica Analytica Acta, 4, (8), Art No. 264-(2013)
Jaiswal L et al., A thalidomide templated molecularly imprinted polymer that promotes a biologically active chiral entity tagged in colon carcinoma cells and protein-related immune activation.
Process Biochemistry, 50, (12), 2035-2050, (2015)
Naklua W et al., An imprinted dopamine receptor for discovery of highly potent and selective D3 analogues with neuroprotective effects.
Process Biochemistry, 50, (10), 1537-1556, (2015)
Suedee R et al., Investigation of a self-assembling microgel containing an (S)-propranolol molecularly imprinted polymer in a native tissue microenvironment: Part II. Biological application and testing.
Process Biochemistry, 50, (4), 523-544, (2015)
Suedee R et al., Investigation of a self-assembling microgel containing an (S)-propranolol molecularly imprinted polymer in a native tissue microenvironment: Part I. Preparation and characterization.
Process Biochemistry, 50, (4), 517-522, (2015)
Suksuwan A et al., The composite nanomaterials containing (R)-thalidomide-molecularly imprinted polymers as a recognition system for enantioselective-controlled release and targeted drug delivery.
Journal of Applied Polymer Science, 132, (18), Article No 41930-(2015)
Suksuwan A et al., Tracking the chemical surface properties of racemic thalidomide and its enantiomers using a biomimetic functional surface on a quartz crystal microbalance.
Journal of Applied Polymer Science, 132, (30), ArticleNo42309-(2015)
Chunta S et al., Low-Density Lipoprotein Sensor Based on Molecularly Imprinted Polymer.
Analytical Chemistry, 88, (2), 1419-1425, (2016)
Naklua W et al., Dopaminergic receptor-ligand binding assays based on molecularly imprinted polymers on quartz crystal microbalance sensors.
Biosensors and Bioelectronics, 81, 117-124, (2016)
Chunta S et al., Sensor Array Based on Molecularly Imprinted Polymers for Simultaneous Detection of Lipoproteins.
Proceedings, 1, (4), ArticleNo510-(2017)
Paul PK et al., Improvement in insulin absorption into gastrointestinal epithelial cells by using molecularly imprinted polymer nanoparticles: Microscopic evaluation and ultrastructure.
International Journal of Pharmaceutics, 530, (1-2), 279-290, (2017)
Paul PK et al., Biomimetic insulin-imprinted polymer nanoparticles as a potential oral drug delivery system.
Acta Pharmaceutica, 67, 149-168, (2017)
Suedee R et al., A Rapid and Effective Screening of Chiral Drug Delivery within the Effect of Vascular Environmentby Molecularly Imprinted Polymers.
International Journal of Applied Science and Technology, 7, (3), 19-31, (2017)
Chunta S et al., High-density lipoprotein sensor based on molecularly imprinted polymer.
Analytical and Bioanalytical Chemistry, 410, (3), 875-883, (2018)
Madhumanchi S et al., Efficient adsorptive extraction materials by surface protein-imprinted polymer over silica gel for selective recognition/separation of human serum albumin from urine.
Journal of Applied Polymer Science, 136, (1), Article46894-(2018)
Chunta S et al., Sensing array based on molecularly imprinted polymers for simultaneous assessment of lipoproteins.
Sensors and Actuators B: Chemical, 298, Article126828-(2019)
Jadda R et al., Novel adsorptive materials by adenosine 5'-triphosphate imprinted-polymer over the surface of polystyrene nanospheres for selective separation of adenosine 5'-triphosphate biomarker from urine.
Journal of Separation Science, 42, (24), 3662-3678, (2019)
Chunta S et al., Biomimetic sensors targeting oxidized-low-density lipoprotein with molecularly imprinted polymers.
Analytica Chimica Acta, 1116, 27-35, (2020)
Journal of Pharmaceutical and Biomedical Analysis, 89, 111-117, (2014)
Journal of Membrane Science, 357, (1-2), 90-97, (2010)
Sueyoshi Y et al., Chiral separation with molecularly imprinted polysulfone-aldehyde derivatized nanofiber membranes.
Journal of Membrane Science, 401-402, (1), 89-96, (2012)
Chemical Communications, 49, (76), 8450-8452, (2013)
Chemistry Letters, 21, (6), 995-998, (1992)
Journal of Chromatography A, 1156, (1-2), 45-50, (2007)
Nippon Kagakkai Koen Yokoshu, 80, 237-(2001)
Matsui J et al., Molecular imprinting in alcohols: utility of a pre-polymer based strategy for synthesizing stereoselective artificial receptor polymers in hydrophilic media.
Analytica Chimica Acta, 466, (1), 11-15, (2002)
Matsui J et al., Solid-phase molecular imprinting utilizing poly(methacrylic acid)-modified resins.
Nippon Kagakkai Koen Yokoshu, 82, 273-(2002)
Nishimoto K et al., New Central Dogma in Molecular Ecology. (23): Thermodynamic assessment of molecularly imprinted polymers prepared by cross-linking poly(methacrylic acid) derivatives.
Nippon Kagakkai Koen Yokoshu, 81, (2), 864-(2002)
Ochi Y et al., New Central Dogma in Molecular Ecology. (22): Molecular imprinting utilizing water-soluble poly(methacrylic acid) derivatives for recognition of biologically active compounds.
Nippon Kagakkai Koen Yokoshu, 81, (2), 864-(2002)
Matsui J et al., Synthetic cinchonidine receptors obtained by cross-linking linear poly(methacrylic acid) derivatives as an alternative molecular imprinting technique.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 223-229, (2004)
Matsui J et al., Composite of Au nanoparticles and molecularly imprinted polymer as a sensing material.
Analytical Chemistry, 76, (5), 1310-1315, (2004)
Matsui J et al., SPR sensor chip for detection of small molecules using molecularly imprinted polymer with embedded gold nanoparticles.
Analytical Chemistry, 77, (13), 4282-4285, (2005)
Matsui J et al., Molecular Imprinting within a Single Peptide Molecule for Synthesizing a Water-Soluble ATP Receptor.
Pept. Sci., 396-397, (2006)
Matsui J et al., Development of a tailor-made functional peptide by template-directed intramolecular cross-linking.
Polymer Preprints, Japan, 55, (2), 5328-5329, (2006)
Matsui J et al., Molecularly-imprinted polymeric logic gates selective for predetermined chemical input species.
Chemical Communications, (30), 3217-3219, (2006)
Matsui J et al., Molecular Imprinting under Molecular Crowding Conditions: An Aid to the Synthesis of a High-Capacity Polymeric Sorbent for Triazine Herbicides.
Analytical Chemistry, 79, (4), 1749-1757, (2007)
Matsui J et al., An approach to peptide-based ATP receptors by a combination of random selection, rational design, and molecular imprinting.
Biosensors and Bioelectronics, 25, (3), 563-567, (2009)
Matsui J et al., Molecularly imprinted nanocomposites for highly sensitive SPR detection of a non-aqueous atrazine sample.
Analyst, 134, (1), 80-86, (2009)
Journal of Polymer Science, Polymer Chemistry Edition, 22, (12), 4035-4039, (1984)
Takagishi T et al., Binding of methyl-orange by crosslinked vinylpyrrolidone-divinylbenzene copolymers - template effect.
Journal of Polymer Science, Polymer Letters Edition, 22, (5), 283-289, (1984)
Journal of Bioscience and Bioengineering, 95, (5), 441-447, (2003)
Mine Y et al., Structural effects of amphiphiles on Candida rugosa lipase activation by freeze-drying of aqueous solution of enzyme and amphiphile.
Journal of Bioscience and Bioengineering, 96, (6), 525-528, (2003)
Therapeutic Apheresis and Dialysis, 13, (1), 19-26, (2009)
Macromolecules, 30, (13), 3888-3891, (1997)
Desalination, 259, (1-3), 140-146, (2010)
Buhani et al., Production of Ionic Imprinted Polymer from Nannochloropsis sp Biomass and its Adsorption Characteristics Toward Cu(II) Ion in Solutions.
Asian Journal of Chemistry, 24, (1), 133-140, (2012)
Buhani et al., Comparative Study of Adsorption Ability of Ni(II) and Zn(II) Ionic Imprinted Amino-Silica Hybrid Toward Target Metal in Solution.
Asian Journal of Chemistry, 25, (5), 2875-2880, (2013)
Buhani et al., Adsorption competition of Cu(II) ion in ionic pair and multi-metal solution by ionic imprinted amino-silica hybrid adsorbent.
Desalination and Water Treatment, 55, (5), 1240-1252, (2015)
Indonesian Journal of Pharmaceutical Science and Technology, 6, (1), 27-35, (2019)
Nature Materials, 13, (7), 748-755, (2014)
Chemistry Bulletin, 72, (1), 10-14, (2009)
Dong J et al., Preparation and characterization of p-chlorophenol- imprinted composite membrane.
Journal of Shanghai Normal University (Natural Sciences), 40, (6), 615-618, (2011)
Fan HT et al., Preparation of Cobalt(II) Ion Imprinted Silica Gel Sorbents by Surface Imprinting Technique and Its Adsorption Properties.
Chemical Journal of Chinese Universities, 32, (12), 2902-2907, (2011)
Dong J et al., Sampling 4-chlorophenol in water by DGT technique with molecularly imprinted polymer as binding agent and nylon membrane as diffusive layer.
Analytica Chimica Acta, 822, 69-77, (2014)
Sui DP et al., Ion-imprinted silica adsorbent modified diffusive gradients in thin films technique: Tool for speciation analysis of free lead species.
Talanta, 148, 285-291, (2016)
Journal of Hazardous Materials, 182, (1-3), 912-918, (2010)
Optical Materials, 121, Article111581-(2021)
Xue Y et al., Rapid detection of orange II dyes in water with SERS imprinted sensor based on PDA-modified MOFs@Ag.
Journal of Environmental Chemical Engineering, 9, (6), Article106317-(2021)
Chemical Industry and Engineering Progress, 19, (5), 43-46, (2000)
Sui HY et al., Chiral separation of amino acid derivatives by molecular imprinting technique (II) - Influence of the components of mobile phase on the chiral separation.
Fine Chemicals, 20, (7), 403-406, (2003)
Sui HY et al., Chiral separation of amino acid derivatives by molecular imprinting technique (I) - Preparation of molecularly imprinted polymers, chromatographical evaluation and physical and chemical character formulation.
Fine Chemicals, 20, (6), 345-348+373, (2003)
Liu J et al., The Research of Fluorescent Sensing to Endocrine Disruptor 17[beta]-Estradiol Measured by Microsphere Molecularly Imprinted Polymer.
Research of Environmental Sciences, 19, (5), 91-95, (2006)
Desalination and Water Treatment, 51, (40-42), 7604-7611, (2013)
Asian Journal of Chemistry, 23, (9), 3783-3786, (2011)
Analytical Letters, 50, (7), 1139-1149, (2017)
Journal of Jilin Institute of Chemical Technology, 23, (1), 12-14, (2006)
ACS Applied Materials & Interfaces, 7, (51), 28197-28206, (2015)
Bhakta S et al., Albumin removal from human serum using surface nanopockets on silica-coated magnetic nanoparticles.
Chemical Communications, 53, (66), 9254-9257, (2017)
International Journal of Electrochemical Science, 15, 5477-5486, (2020)
Analytica Chimica Acta, 504, (1), 113-122, (2004)
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 184, (11), 2213-2223, (1983)
Journal of Analytical Chemistry, 67, (9), 767-771, (2012)
Gubin AS et al., Use of Molecularly Imprinted Polymer for the Preconcentration of 4-Nitrophenol from Aqueous Media.
Journal of Analytical Chemistry, 74, (1), 11-17, (2019)
Angewandte Chemie International Edition, 37, (16), 2201-2205, (1998)
171-174, (2015)
Sangma C et al., Book chapter, H5N1 Virus Plastic Antibody Based on Molecularly Imprinted Polymers,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 381-388, (2017)
Sukjee W et al., Small-Molecule Dengue Virus Co-imprinting and Its Application as an Electrochemical Sensor.
ChemistryOpen, 6, (3), 340-344, (2017)
Tancharoen C et al., Electrochemical Biosensor Based on Surface Imprinting for Zika Virus Detection in Serum.
ACS Sensors, 4, (1), 69-75, (2019)
Art. No. E0119, (2005)
Piacham T et al., Synthesis and Theoretical Study of Molecularly Imprinted Nanospheres for Recognition of Tocopherols.
Molecules, 14, (8), 2985-3002, (2009)
International Journal of Molecular Sciences, 9, (12), 2333-2356, (2008)
Suksuwan A et al., The composite nanomaterials containing (R)-thalidomide-molecularly imprinted polymers as a recognition system for enantioselective-controlled release and targeted drug delivery.
Journal of Applied Polymer Science, 132, (18), Article No 41930-(2015)
Suksuwan A et al., Tracking the chemical surface properties of racemic thalidomide and its enantiomers using a biomimetic functional surface on a quartz crystal microbalance.
Journal of Applied Polymer Science, 132, (30), ArticleNo42309-(2015)
Critical Reviews in Analytical Chemistry, 44, (3), 233-254, (2014)
Analyst, 137, (10), 2386-2393, (2012)
Scientific Reports, 7, ArticleNo44299-(2017)
Talanta, 75, (2), 536-543, (2008)
Instrumentation Science & Technology, 34, (6), 619-633, (2006)
Research Journal of Chemistry and Environment, 22, (Special Issue II), 58-64, (2018)
IOP Conference Series: Materials Science and Engineering, 299, (1), ArticleNo012010-(2018)
Analyst, 126, (9), 1495-1498, (2001)
Sulitzky C et al., Grafting of molecularly imprinted polymer films on silica supports containing surface-bound free radical initiators (vol 35, pg 79, 2002).
Macromolecules, 35, (8), 3314-3314, (2002)
Sulitzky C et al., Grafting of molecularly imprinted polymer films on silica supports containing surface-bound free radical initiators.
Macromolecules, 35, (1), 79-91, (2002)
Quaglia M et al., Molecularly imprinted polymer films grafted from porous or nonporous silica: Novel affinity stationary phases in capillary electrochromatography.
Electrophoresis, 24, (6), 952-957, (2003)
Halhalli MR et al., An improved grafting technique for producing imprinted thin film composite beads.
Polymer Chemistry, 3, (4), 1033-1042, (2012)
In: Chemical, Biochemical, and Environmental Fiber Sensors X, Lieberman RA (Ed.) The International Society for Optical Engineering: Bellingham, 36-44, (1999)
Frontiers in Bioengineering and Biotechnology, 7, Article115-(2019)
Sullivan MV et al., Toward Rational Design of Selective Molecularly Imprinted Polymers (MIPs) for Proteins: Computational and Experimental Studies of Acrylamide Based Polymers for Myoglobin.
The Journal of Physical Chemistry B, 123, (26), 5432-5443, (2019)
Sullivan MV et al., Evaluation of acrylamide-based molecularly imprinted polymer thin-sheets for specific protein capture-a myoglobin model.
Biomedical Physics & Engineering Express, 7, (4), Article045025-(2021)
Vysokomolekulyarnye Soedineniya Seriya B, 27, (4), 264-266, (1985)
Molochnikov LS et al., Synthesis and study of prearranged for nickel sorbents on the basis of polyethylene polyamines.
Polymer Science U. S. S. R., 31, (5), 1168-1172, (1989)
Efendiev AA et al., Book chapter, Metal-Containing Polymeric Materials, Pittman CU, Carraher CEJr, Culbertson BM, Sheats JE, Zeldin M (Eds.) Plenum Press: New York, 255-264, (1996)
Polymer Science U. S. S. R., 28, (11), 2736-2742, (1986)
Molochnikov LS et al., Thermochemical properties of polyvinylpyridine complex-forming sorbents for metals sorption.
Vysokomolekulyarnye Soedineniya Seriya B, 32, (12), 945-947, (1990)
Molochnikov LS et al., Coordination of Cu(II) and Ni(II) in polymers imprinted so as to optimize amine chelate formation.
Polymer, 44, (17), 4805-4815, (2003)
Applied Surface Science, 471, 168-175, (2019)
Turan E et al., Construction of a sensitive and selective plasmonic biosensor for prostate specific antigen by combining magnetic molecularly-imprinted polymer and surface-enhanced Raman spectroscopy.
Talanta, 237, Article122926-(2022)
Desalination, 259, (1-3), 140-146, (2010)
Buhani et al., Production of Ionic Imprinted Polymer from Nannochloropsis sp Biomass and its Adsorption Characteristics Toward Cu(II) Ion in Solutions.
Asian Journal of Chemistry, 24, (1), 133-140, (2012)
Polymer Preprints, Japan, 55, (1), 1668-(2006)
Song SH et al., Recognition of Solution Structures of Peptides by Molecularly Imprinted Cyclodextrin Polymers.
Macromolecules, 40, (10), 3530-3532, (2007)
Nagaoka S et al., Reconfirmation of Recognition Site in Composites of Imprinted beta-Cyclodextrin Polymer/Solid Support as Stationary Phase of HPLC.
Chemistry Letters, 37, (11), 1148-1149, (2008)
Sumaoka J et al., Molecularly Imprinted Polymers for the Recognition of Biomolecules in Water.
Kobunshi Ronbunshu, 66, (6), 191-201, (2009)
Song SH et al., Molecular imprinting of cyclodextrin to physiologically active oligopeptides in water.
Supramolecular Chemistry, 22, (3), 149-155, (2010)
International Journal of Pharmaceutics, 349, (1-2), 30-37, (2008)
Analytical Letters, 43, (17), 2798-2807, (2010)
Shi XZ et al., Preparation and Chromatographic Evaluation of Molecularly Imprinted Polymer Microspheres for Chloramphenicol.
Food Science, 31, (18), 95-98, (2010)
Shi XZ et al., Group-selective molecularly imprinted polymer solid-phase extraction for the simultaneous determination of six sulfonamides in aquaculture products.
Journal of Chromatography B, 879, (15-16), 1071-1076, (2011)
Shi XZ et al., Group-selective enrichment and determination of pyrethroid insecticides in aquaculture seawater via molecularly imprinted solid phase extraction coupled with gas chromatography-electron capture detection.
Journal of Chromatography A, 1227, (1), 60-66, (2012)
Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
Zhang RR et al., Highly Permselective Membrane Surface Modification by Cold Plasma-Induced Grafting Polymerization of Molecularly Imprinted Polymer for Recognition of Pyrethroid Insecticides in Fish.
Analytical Chemistry, 86, (23), 11705-11713, (2014)
Xiao TT et al., Selective and sensitive determination of cypermethrin in fish via enzyme-linked immunosorbent assay-like method based on molecularly imprinted artificial antibody-quantum dot optosensing materials.
Biosensors and Bioelectronics, 75, 34-40, (2016)
Ding H et al., Molecularly imprinted optosensing sensor for highly selective and sensitive recognition of sulfadiazine in seawater and shrimp samples.
Sensors and Actuators B: Chemical, 246, 510-517, (2017)
Li XJ et al., Development and application of a novel fluorescent nanosensor based on FeSe quantum dots embedded silica molecularly imprinted polymer for the rapid optosensing of cyfluthrin.
Biosensors and Bioelectronics, 99, 268-273, (2018)
Sun AL et al., Development of a selective fluorescence nanosensor based on molecularly imprinted-quantum dot optosensing materials for saxitoxin detection in shellfish samples.
Sensors and Actuators B: Chemical, 258, 408-414, (2018)
Wang XJ et al., Characterization and application of molecularly imprinted polymer-coated quantum dots for sensitive fluorescent determination of diethylstilbestrol in water samples.
Talanta, 197, 98-104, (2019)
Yu XR et al., Development and Application of the Dispersive Solid-Phase Extraction Method Based on Molecular Imprinted Polymers for Removal of Matrix Components of Bivalve Shellfish Extracts in the GC-MS/MS Analysis of Amide/Dinitroaniline/Substituted Urea Herbicides.
Chromatographia, 82, (6), 961-970, (2019)
Li W et al., Effective removal matrix interferences by a modified QuEChERS based on the molecularly imprinted polymers for determination of 84 polychlorinated biphenyls and organochlorine pesticides in shellfish samples.
Journal of Hazardous Materials, 384, Article121241-(2020)
Zhang RR et al., Application of a novel electrochemiluminescence sensor based on magnetic glassy carbon electrode modified with molecularly imprinted polymers for sensitive monitoring of bisphenol A in seawater and fish samples.
Sensors and Actuators B: Chemical, 317, Article128237-(2020)
Zhang RR et al., Ultrasensitive electrochemiluminescence sensor based on perovskite quantum dots coated with molecularly imprinted polymer for prometryn determination.
Food Chemistry, 370, Article131353-(2022)
Microchimica Acta, 186, (3), Article135-(2019)
Journal of Agricultural and Food Chemistry, 63, (9), 2545-2549, (2015)
Liu HL et al., Development and applications of molecularly imprinted polymers based on hydrophobic CdSe/ZnS quantum dots for optosensing of N[epsilon]-carboxymethyllysine in foods.
Food Chemistry, 211, 34-40, (2016)
Liu HL et al., Application of Quantum Dot-Molecularly Imprinted Polymer Core-Shell Particles Sensitized with Graphene for Optosensing of N[epsilon]-Carboxymethyllysine in Dairy Products.
Journal of Agricultural and Food Chemistry, 64, (23), 4801-4806, (2016)
Liu HL et al., A novel quantum dots-labeled on the surface of molecularly imprinted polymer for turn-off optosensing of dicyandiamide in dairy products.
Biosensors and Bioelectronics, 77, 512-517, (2016)
Liu HL et al., Optical Determination of Cholesterol in Milk with Molecularly Imprinted Polymer-Coated Quantum Dots.
Analytical Letters, 50, (12), 1964-1976, (2017)
Liu HL et al., Graphene oxide-sensitized molecularly imprinted opto-polymers for charge-transfer fluorescent sensing of cyanoguanidine.
Food Chemistry, 235, 14-20, (2017)
Liu HL et al., Core-Shell Metal-Organic Frameworks/Molecularly Imprinted Nanoparticles as Absorbents for the Detection of Pyrraline in Milk and Milk Powder.
Journal of Agricultural and Food Chemistry, 65, (4), 986-992, (2017)
Liu HL et al., Sensitive detection of pyrraline with a molecularly imprinted sensor based on metal-organic frameworks and quantum dots.
Sensors and Actuators B: Chemical, 256, 1038-1044, (2018)
Ni TH et al., Grafting of quantum dots on covalent organic frameworks via a reverse microemulsion for highly selective and sensitive protein optosensing.
Sensors and Actuators B: Chemical, 269, 340-345, (2018)
Liu HL et al., A fluorescent nanoprobe for 4-ethylguaiacol based on the use of a molecularly imprinted polymer doped with a covalent organic framework grafted onto carbon nanodots.
Microchimica Acta, 186, (3), Article182-(2019)
Wei J et al., Ionic liquid-sensitized molecularly imprinted polymers based on heteroatom co-doped quantum dots functionalized graphene for sensitive detection of [lambda]-cyhalothrin.
Analytica Chimica Acta, 1136, 9-18, (2020)
Yuan XY et al., High-Performance Multiporous Imprinted Microspheres Based on N-Doped Carbon Dots Exfoliated from Covalent Organic Framework for Flonicamid Optosensing.
ACS Applied Materials & Interfaces, 12, (22), 25150-25158, (2020)
Yuan XY et al., N-doped carbon dots derived from covalent organic frameworks embedded in molecularly imprinted polymers for optosensing of flonicamid.
Microchemical Journal, 159, Article105585-(2020)
Yuan XY et al., Molecularly Imprinted Dual-Responsive Extraction for Avenanthramides Using Covalent Organic Frameworks Doped with Polyethyleneimine-Modified Mn-ZnS Quantum Dots.
Food Analytical Methods, 14, (7), 1336-1344, (2021)
Biosensors and Bioelectronics, 91, 354-358, (2017)
Ni CQ et al., Selective removal and recovery of La(III) using a phosphonic-based ion imprinted polymer: Adsorption performance, regeneration, and mechanism.
Journal of Environmental Chemical Engineering, 9, (6), Article106701-(2021)
Chemical Research in Chinese Universities, 33, (6), 986-994, (2017)
Journal of Molecular Recognition, 14, (6), 388-392, (2001)
Sun BW et al., Molecularly imprinted polymer for pyrazinamide.
Analytical Letters, 36, (8), 1501-1509, (2003)
Sun BW et al., Relationship between template structure and its imprinting efficiency.
Acta Chimica Sinica, 61, (6), 878-884, (2003)
Wu LQ et al., Study properties of molecular imprinting polymer using a computational approach.
Analyst, 128, (7), 944-949, (2003)
Wu LQ et al., Study of molecular imprinting effect by computational approach.
Journal of Guangxi Normal University (Natural Science Edition), 21, (z4), 8-9, (2003)
Sun BW et al., Experimental and theoretical study on p-hydroxybenzoic acid imprinted polymers with different functional monomers.
Acta Chimica Sinica, 62, (6), 598-602, (2004)
Journal of Food Safety and Quality, 8, (11), 4169-4173, (2017)
Journal of Analytical Science, 30, (4), 451-456, (2014)
Li GY et al., Rational design, preparation and adsorption study of a magnetic molecularly imprinted polymer using a dummy template and a bifunctional monomer.
New Journal of Chemistry, 41, (15), 7092-7101, (2017)
Niu MC et al., A simple extraction method for norfloxacin from pharmaceutical wastewater with a magnetic core-shell molecularly imprinted polymer with the aid of computer simulation.
New Journal of Chemistry, 41, (7), 2614-2624, (2017)
Dong ZQ et al., Antifouling molecularly imprinted membranes for pretreatment of milk samples: Selective separation and detection of lincomycin.
Food Chemistry, 333, Article127477-(2020)
Journal of Separation Science, 40, (17), 3522-3534, (2017)
Sun CH et al., The Multi-Template Molecularly Imprinted Polymer Based on SBA-15 for Selective Separation and Determination of Panax notoginseng Saponins Simultaneously in Biological Samples.
Polymers, 9, (12), ArticleNo653-(2017)
Chen SN et al., Rapid and sensitive biomarker detection using molecular imprinting polymer hydrogel and surface-enhanced Raman scattering.
Royal Society Open Science, 5, (1), ArticleNo171488-(2018)
Huang JJ et al., Novel surface imprinted magnetic mesoporous silica as artificial antibodies for efficient discovery and capture of candidate nNOS-PSD-95 uncouplers for stroke treatment.
Journal of Materials Chemistry B, 6, (10), 1531-1542, (2018)
Yao DD et al., A surface magnetic imprinted polymers as artificial receptors for selective and efficient capturing of new neuronal nitric oxide synthase-post synaptic density protein-95 uncouplers.
Journal of Pharmaceutical and Biomedical Analysis, 154, 180-190, (2018)
Su K et al., Selectively encapsulating Ag nanoparticles on the surface of two-dimensional graphene for surface-enhanced Raman scattering.
Applied Surface Science, 492, 108-115, (2019)
Sun CH et al., A biomimetic fluorescent nanosensor based on imprinted polymers modified with carbon dots for sensitive detection of alpha-fetoprotein in clinical samples.
Analyst, 144, (22), 6760-6772, (2019)
Industrial & Engineering Chemistry Research, 52, (39), 14251-14260, (2013)
Sun LZ et al., Proceeding, Synthesis of Nimetazepam - Molecularly Imprinted Polymer and SPE Application,
Yun J, Zeng DH (Eds.), 200-206, (2013)
Yang JL et al., Recent advances in analysis of phthalate esters in foods.
TrAC Trends in Analytical Chemistry, 72, 10-26, (2015)
Yang BX et al., Simultaneous Determination of 11 Aminoglycoside Residues in Honey, Milk, and Pork by Liquid Chromatography with Tandem Mass Spectrometry and Molecularly Imprinted Polymer Solid Phase Extraction.
Journal of AOAC International, 100, (6), 1869-1878, (2017)
ACS Applied Materials & Interfaces, 8, (6), 3679-3685, (2016)
Chinese Polymer Bulletin, (4), 17-29, (2010)
Sun CM et al., Syntheses of polyamine-bridged polysilsesquioxanes hybrid materials combining sol-gel processing and molecular imprinting applied to selective adsorption for copper.
Materials Chemistry and Physics, 153, 307-315, (2015)
RSC Advances, 5, (2), 1125-1147, (2015)
Li SF et al., Study on the preparation and adsorption of the cesium ion imprinted polymer based on surface imprinting technique.
Journal of Functional Materials, 48, (7), 7062-7068, (2017)
Yang L et al., Selective adsorption and separation of Cs(I) from salt lake brine by a novel surface magnetic ion-imprinted polymer.
Journal of Dispersion Science and Technology, 38, (11), 1547-1555, (2017)
Yang L et al., Preparation of Cs(I) Magnetic Ion-Imprinted Polymer and its Adsorption Behavior.
Bulletin of the Chinese Ceramic Society, 36, (2), 1-8, (2017)
Wang ZM et al., Determination of cesium ions in environmental water samples with a magnetic multi-walled carbon nanotube imprinted potentiometric sensor.
RSC Advances, 11, (17), 10075-10082, (2021)
Analytica Chimica Acta, 1106, 1-21, (2020)
Yang YK et al., Surface molecularly imprinted magnetic MOFs: A novel platform coupled with magneto electrode for high throughput electrochemical sensing analysis of oxytetracycline in foods.
Food Chemistry, 363, Article130337-(2021)
Journal of Hazardous Materials, 244-245, 750-757, (2013)
Tan F et al., Molecularly imprinted polymer/mesoporous carbon nanoparticles as electrode sensing material for selective detection of ofloxacin.
Materials Letters, 129, 95-97, (2014)
Chemical Engineering Journal, 382, Article123007-(2020)
Journal of Environmental Chemical Engineering, 4, (3), 3570-3579, (2016)
Cui YH et al., Facile synthesis of imprinted submicroparticles blend polyvinylidene fluoride membranes at ambient temperature for selective adsorption of methyl p-hydroxybenzoate.
Korean Journal of Chemical Engineering, 34, (3), 600-608, (2017)
Sun DS et al., Fabrication of highly selective ion imprinted macroporous membranes with crown ether for targeted separation of lithium ion.
Separation and Purification Technology, 175, 19-26, (2017)
Sun DS et al., Synthesis of ion imprinted nanocomposite membranes for selective adsorption of lithium.
Separation and Purification Technology, 194, 64-72, (2018)
Zhu YZ et al., Convenient synthesis of uncovered imprinted microspheres by Ganoderma lucidum spore-stabilized pickering emulsion polymerization and their enhanced recognition of spiramycin.
RSC Advances, 9, (60), 34772-34783, (2019)
Separation Science and Technology, 50, (6), 901-910, (2015)
Separation and Purification Technology, 131, 117-125, (2014)
He ZH et al., Fabrication of new cellulose acetate blend imprinted membrane assisted with ionic liquid ([BMIM]Cl) for selective adsorption of salicylic acid from industrial wastewater.
Separation and Purification Technology, 145, 63-74, (2015)
Meng MJ et al., Fabrication of a novel cellulose acetate imprinted membrane assisted with chitosan-wrapped multi-walled carbon nanotubes for selective separation of salicylic acid from industrial wastewater.
Journal of Applied Polymer Science, 132, (42), ArticleNo42654-(2015)
Sun FQ et al., Fabrication of ordered microporous styrene-acrylonitrile copolymer blend imprinted membranes for selective adsorption of phenol from salicylic acid using breath figure method.
Journal of Applied Polymer Science, 132, (31), ArticleNo42350-(2015)
Mao YL et al., Fabrication of highly selective molecularly imprinted membranes for the selective adsorption of methyl salicylate from salicylic acid.
RSC Advances, 6, (94), 91659-91668, (2016)
Wang XY et al., Preparation and Application of the Core-Shell Carbon Nanotubes-Molecularly Imprinted Composite for Chloramphenicols.
Journal of Analytical Science, 32, (6), 758-762, (2016)
Wang XY et al., Preparation and Application of Molecularly Imprinted Polymers for Chloramphenicol Based on Ionic Liquids Assistance.
Journal of Instrumental Analysis, 36, (1), 18-24, (2017)
TrAC Trends in Analytical Chemistry, 29, (11), 1239-1249, (2010)
Sun FX et al., Recent advances and progress in the detection of bisphenol A.
Analytical and Bioanalytical Chemistry, 408, (25), 6913-6927, (2016)
Macromolecules, 34, (14), 4965-4971, (2001)
Amaly N et al., Fabrication of polydopamine-based NIR-light responsive imprinted nanofibrous membrane for effective lysozyme extraction and controlled release from chicken egg white.
Food Chemistry, 357, Article129613-(2021)
Analytical Methods, 5, (22), 6449-6456, (2013)
Duan YQ et al., Determination of epigallocatechin-3-gallate with a high-efficiency electrochemical sensor based on a molecularly imprinted poly(o-phenylenediamine) film.
Journal of Applied Polymer Science, 129, (5), 2882-2890, (2013)
Zhang HH et al., Proceeding, Selective Adsorption and Pre-Concentration of Morin by Molecularly Imprinted Polymers with Chitosan Beads as Functional Matrix,
Yu L, Guo JW, Yi GB, Yu Q (Eds.), 756-759, (2013)
Zhang HH et al., Selective Adsorption and Separation of (-)-Epigallocatechin Gallate (EGCG) based on Silica Gel Surface Molecularly Imprinted Polymers.
IERI Procedia, 5, 339-343, (2013)
Luo XP et al., Molecularly imprinted polymer prepared by Pickering emulsion polymerization for removal of acephate residues from contaminated waters.
Journal of Applied Polymer Science, 133, (15), ArticleNo43126-(2016)
Electrochimica Acta, 259, 893-902, (2018)
Analyst, 138, (17), 4802-4811, (2013)
Sun GQ et al., Photoelectrochemical sensor for pentachlorophenol on microfluidic paper-based analytical device based on the molecular imprinting technique.
Biosensors and Bioelectronics, 56, 97-103, (2014)
Biosensors and Bioelectronics, 92, 305-312, (2017)
Analytical Methods, 7, (11), 4717-4724, (2015)
Sun GY et al., Effect of minimizing amount of template by addition of macromolecular crowding agent on preparation of molecularly imprinted monolith.
Analytical and Bioanalytical Chemistry, 407, (24), 7401-7412, (2015)
Jia M et al., Effect of polyethylene glycol as a molecular crowding agent on reducing template consumption for preparation of molecularly imprinted polymers.
Analytical Methods, 8, (23), 4554-4562, (2016)
Sun GY et al., Cost-effective imprinting combining macromolecular crowding and a dummy template for the fast purification of punicalagin from pomegranate husk extract.
Journal of Separation Science, 39, (10), 1963-1970, (2016)
Sun GY et al., Two-dimensional Sun YK et al., Cost-effective imprinting to minimize consumption of template in room-temperature ionic liquid for fast purification of chlorogenic acid from the extract of E. ulmoides leaves.
Analytical and Bioanalytical Chemistry, 411, (6), 1261-1271, (2019)
Acta Scientiarum Naturalium Universitatis Pekinensis, 37, (2), 244-250, (2001)
Dong XC et al., Study on the isomer recognition and chromatographic behaviors of salicylic acid imprinted polymers.
Acta Chimica Sinica, 60, (11), 2035-2042, (2002)
Dong XC et al., Separation of ephedrine stereoisomers by molecularly imprinted polymers - influence of synthetic conditions and mobile phase compositions on the chromatographic performance.
Analyst, 127, (11), 1427-1432, (2002)
Zhang XW et al., Molecular Imprinting Technique and Its Application.
Journal of Tianjin Agricultural College, 9, (3), 23-28, (2002)
Sun H et al., Separation and Determination of Fluoroquinolones with a Molecularly Imprinted Polymer.
Chinese Journal of Chromatography, 21, (3), 233-238, (2003)
Xia SL et al., Preparation of molecular imprinted copolymer membrane for uracil recognition.
Chinese Chemical Letters, 14, (8), 794-796, (2003)
Wang HY et al., Molecularly imprinted copolymer membranes functionalized by phase inversion imprinting for uracil recognition and permselective binding.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 127-134, (2004)
Dong XC et al., Study of the influence of synthesis conditions on the morphology and binding property of (-)-ephedrine imprinted polymers.
Chinese Journal of Chromatography, 23, (1), 7-11, (2005)
Dong XC et al., Molecularly imprinted solid-phase extraction of (-)-ephedrine from Chinese Ephedra.
Journal of Chromatography A, 1070, (1-2), 125-130, (2005)
Liu YK et al., Interaction Between Molecular Imprinted Copolymer Membrane and Uracil Template.
Journal of Zhengzhou University (Natural Science Edition), 37, (3), 75-77, (2005)
Sun H et al., Piezoelectric quartz crystal sensor for rapid analysis of pirimicarb residues using molecularly imprinted polymers as recognition elements.
Analytica Chimica Acta, 576, (1), 67-76, (2006)
Liu YK et al., Dynamic rheological behavior of the P(AN-co-MAA) molecularly imprint cast solution with the template molecular of the uracil.
Polymer Materials Science and Engineering, 23, (4), 118-120, 124, (2007)
Xia SL et al., Ion Complex Membranes of Acrylonitrile Copolymers Having Methacrylic Acid and Amphiphilic Quaternized Ammonium Groups for Uracil Molecular Imprinting.
Journal of Materials Online, 3, (2007)
Xia SL et al., Review of Research on Molecular Recognition Polymeric Membranes.
Materials Review, 21, (4), 31-33, (2007)
Sun H et al., Piezoelectric quartz crystal sensor for sensing taste-causing compounds in food.
Sensors and Actuators B: Chemical, 131, (1), 148-158, (2008)
Han F et al., Determination of Triazines Residues in Food Samples Using Dummy Molecularly Imprinted Solid Phase Extraction Based on Molecular Simulation.
Chinese Journal of Analytical Chemistry, 40, (11), 1648-1653, (2012)
Lai JP et al., Progresses on Synthesis Methods of Molecularly Imprinted Microspheres and Their Applications in Solid phase Extraction.
Journal of Instrumental Analysis, 31, (9), 1161-1169, (2012)
Zhang L et al., Selective trace analysis of chloroacetamide herbicides in food samples using dummy molecularly imprinted solid phase extraction based on chemometrics and quantum chemistry.
Analytica Chimica Acta, 729, (1), 36-44, (2012)
Lai JP et al., Synthesis and evaluation of molecularly imprinted polymeric microspheres for highly selective extraction of an anti-AIDS drug emtricitabine.
Analytical and Bioanalytical Chemistry, 405, (12), 4269-4275, (2013)
Lai JP et al., Molecularly imprinted microspheres for the anticancer drug aminoglutethimide: Synthesis, characterization, and solid-phase extraction applications in human urine samples.
Journal of Separation Science, 37, (9-10), 1170-1176, (2014)
Sun H et al., Simultaneous determination of gaseous and particulate carbonyls in air by coupling micellar electrokinetic capillary chromatography with molecular imprinting solid-phase extraction.
Journal of Chromatography A, 1358, 303-308, (2014)
Lai JP et al., Hydrophilic molecularly imprinted microspheres functionalized with amino and carboxyl groups for highly selective recognition of human hemoglobin in aqueous solution.
RSC Advances, 5, (63), 51392-51398, (2015)
Sun H et al., Molecularly imprinted microspheres synthesized by a simple, fast, and universal suspension polymerization for selective extraction of the topical anesthetic benzocaine in human serum and fish tissues.
Analytical and Bioanalytical Chemistry, 407, (6), 1745-1752, (2015)
Sun H et al., Solid-phase extraction based on a molecularly imprinted polymer for the selective determination of four benzophenones in tap and river water.
Journal of Separation Science, 38, (19), 3412-3420, (2015)
Yang JJ et al., Molecularly imprinted polymer microspheres prepared by Pickering emulsion polymerization for selective solid-phase extraction of eight bisphenols from human urine samples.
Analytica Chimica Acta, 872, 35-45, (2015)
Sun H et al., A novel fluorescent multi-functional monomer for preparation of silver ion-imprinted fluorescent on-off chemosensor.
Sensors and Actuators B: Chemical, 224, 485-491, (2016)
Sun H et al., Preparation of dummy-imprinted polymers by Pickering emulsion polymerization for the selective determination of seven bisphenols from sediment samples.
Journal of Separation Science, 39, (11), 2188-2195, (2016)
Chen L et al., Molecular imprinting of dibenzothiophene using vinyl pyridine monomers: Fabrication and performance.
Journal of Applied Polymer Science, 134, (10), ArticleNo44552-(2017)
Li YL et al., Determination of carbonyl pollutants adsorbed on ambient particulate matter of type PM2.5 by using magnetic molecularly imprinted microspheres for sample pretreatment and capillary electrophoresis for separation and quantitation.
Microchimica Acta, 185, (2), ArticleNo122-(2018)
Chen SL et al., The visual detection of anesthetics in fish based on an inverse opal photonic crystal sensor.
RSC Advances, 9, (29), 16831-16838, (2019)
Fang SY et al., Determination of carbonyls in ambient PM2.5 by coupling dummy template imprinting technology and high performance liquid chromatography.
Chinese Journal of Chromatography, 37, (6), 634-643, (2019)
Wu WZ et al., Molecularly Imprinted Photonic Hydrogels for Visual Detection of Methylanthranilate in Wine.
Chinese Journal of Analytical Chemistry, 47, (9), 1330-1336, (2019)
Fang SY et al., Determination of aldehydes in water samples by coupling magnetism-reinforced molecular imprinting monolith microextraction and non-aqueous capillary electrophoresis.
Journal of Chromatography A, 1632, Article461602-(2020)
He JH et al., Trace carbonyl analysis in water samples by integrating magnetic molecular imprinting and capillary electrophoresis.
RSC Advances, 11, (52), 32841-32851, (2021)
Huang QD et al., A novel fluorescent optical fiber sensor for highly selective detection of antibiotic ciprofloxacin based on replaceable molecularly imprinted nanoparticles composite hydrogel detector.
Sensors and Actuators B: Chemical, 328, Article129000-(2021)
Liu YY et al., Rapid Screening of Butyl Paraben Additive in Toner Sample by Molecularly Imprinted Photonic Crystal.
Chemosensors, 9, (11), ArticleNo314-(2021)
ACS Applied Materials & Interfaces, 13, (31), 37212-37222, (2021)
Analytica Chimica Acta, 1103, 97-105, (2020)
Chromatographia, 64, (11), 625-634, (2006)
Sun HW et al., Characteristic of theophylline imprinted monolithic column and its application for determination of xanthine derivatives caffeine and theophylline in green tea.
Journal of Chromatography A, 1134, (1-2), 194-200, (2006)
Sun HW et al., On-line solid-phase extraction of arsanilic acid from water with arsanilic acid imprinted monolith.
Chemical Journal on Internet, 8, (6), (2006)
Sun HW et al., Recognition mechanism of water-compatible molecularly imprinted solid-phase extraction and determination of nine quinolones in urine by high performance liquid chromatography.
Journal of Chromatography A, 1212, (1-2), 1-9, (2008)
Sun HW et al., Simultaneous isolation of six fluoroquinolones in serum samples by selective molecularly imprinted matrix solid-phase dispersion.
Analytica Chimica Acta, 625, (2), 154-159, (2008)
Sun HW et al., Ofloxacin imprinted polymer applied to the solid-phase extraction of six fluoroquinolones from serum.
Chinese Journal of Pharmaceutical Analysis, 28, (6), 848-852, (2008)
Sun HW et al., Water-compatible Molecularly Imprinted Solid Phase Extraction-HPLC for Determination of Fluorouinolones Residues in Chicken.
Food Science, 30, (8), 151-154, (2009)
Qiao FX et al., Simultaneous extraction of enrofloxacin and ciprofloxacin from chicken tissue by molecularly imprinted matrix solid-phase dispersion.
Journal of Pharmaceutical and Biomedical Analysis, 53, (3), 795-798, (2010)
Lv YK et al., Effect of Solvents on Selective Molecularly Imprinted Solid-Phase Extraction of Enrofloxacin from Fish Samples.
Asian Journal of Chemistry, 24, (9), 3909-3912, (2012)
Lv YK et al., Synthesis and Evaluation of Restricted Access Material-Molecularly Imprinted Polymer Based on Self-Assembly and Sol-Gel Technique.
Asian Journal of Chemistry, 24, (9), 3905-3908, (2012)
Lv YK et al., Synthesis and characterization of molecularly imprinted poly(methacrylic acid)/silica hybrid composite materials for selective recognition of lincomycin in aqueous media.
Journal of Applied Polymer Science, 126, (5), 1631-1636, (2012)
Lv YK et al., Synthesis and application of molecularly imprinted poly(methacrylic acid)-silica hybrid composite material for selective solid-phase extraction and high-performance liquid chromatography determination of oxytetracycline residues in milk.
Journal of Chromatography A, 1227, (1), 48-53, (2012)
Lv YK et al., Grafting of norfloxacin imprinted polymeric membranes on silica surface for the selective solid-phase extraction of fluoroquinolones in fish samples.
Talanta, 89, (1), 270-275, (2012)
Lv YK et al., Synthesis and characterization of the molecularly imprinted mesoporous silica based on the self-assembly technique for selective recognition of lomefloxacin in aqueous solution.
Journal of Porous Materials, 20, (5), 1345-1352, (2013)
Lv YK et al., Preparation of doxycycline-imprinted magnetic microspheres by inverse-emulsion suspension polymerization for magnetic dispersion extraction of tetracyclines from milk samples.
Journal of Separation Science, 36, (16), 2656-2663, (2013)
Lv YK et al., Preparation and evaluation of a novel molecularly imprinted hybrid composite monolithic column for on-line solid-phase extraction coupled with HPLC to detect trace fluoroquinolone residues in milk.
Analytical Methods, 5, (7), 1848-1855, (2013)
Lv YK et al., Preparation and characterization of molecularly imprinted monolithic column for on-line solid-phase extraction coupled with hplc for determination of the fluoroquinolone residues in honey samples.
Journal of Liquid Chromatography & Related Technologies, 36, (2), 249-260, (2013)
Lv YK et al., Adsorption-controlled preparation of molecularly imprinted hybrid composites for selective extraction of tetracycline residues from honey and milk.
New Journal of Chemistry, 38, (2), 802-808, (2014)
Ge XS et al., Highly sensitive determination of cyromazine, melamine, and their metabolites in milk by molecularly imprinted solid-phase extraction combined with ultra-performance liquid chromatography.
Journal of Dairy Science, 98, (4), 2161-2171, (2015)
Lv YK et al., Determination of Tetracyclines Residues in Egg, Milk, and Milk Powder by Online Coupling of A Precolumn Packed with Molecular Imprinted Hybrid Composite Materials to RP-HPLC-UV.
Journal of Liquid Chromatography & Related Technologies, 38, (1), 1-7, (2015)
Wu XQ et al., Synthesis and evaluation of dummy molecularly imprinted microspheres for the specific solid-phase extraction of six anthraquinones from slimming tea.
Journal of Separation Science, 38, (8), 1263-1270, (2015)
Cao FM et al., Synthesis of a perfluorooctanoic acid molecularly imprinted polymer for the selective removal of perfluorooctanoic acid in an aqueous environment.
Journal of Applied Polymer Science, 133, (15), ArticleNo43192-(2016)
Ge XS et al., Trace residue analysis of dicyandiamide, cyromazine, and melamine in animal tissue foods by ultra-performance liquid chromatography.
Journal of Food and Drug Analysis, 24, (3), 579-585, (2016)
Cao FM et al., Synthesis and evaluation of molecularly imprinted polymers with binary functional monomers for the selective removal of perfluorooctanesulfonic acid and perfluorooctanoic acid.
Journal of Chromatography A, 1516, 42-53, (2017)
Cao FM et al., Synthesis and application of a highly selective molecularly imprinted adsorbent based on multi-walled carbon nanotubes for selective removal of perfluorooctanoic acid.
Environmental Science: Water Research & Technology, 4, (5), 689-700, (2018)
Cao FM et al., The application of molecularly imprinted polymers in passive sampling for selective sampling perfluorooctanesulfonic acid and perfluorooctanoic acid in water environment.
Environmental Science and Pollution Research, 25, (33), 33309-33321, (2018)
Su M et al., Residue investigation of some phenylureas and tebuthiuron herbicides in vegetables by ultra-performance liquid chromatography coupled with integrated selective accelerated solvent extraction-clean up in situ.
Journal of the Science of Food and Agriculture, 98, (13), 4845-4853, (2018)
Microchemical Journal, 157, Article105050-(2020)
Analytical Methods, 7, (11), 4708-4716, (2015)
Wang ZR et al., Determination of 2, 6-Dichlorophenol by Surface-Enhanced Raman Scattering with Molecular Imprinting.
Analytical Letters, 51, (13), 2062-2072, (2018)
Journal of Qiqihar University (Natural Science Edition), 20, (4), 1-3, (2004)
Wang ST et al., Study on preparing molecular imprinting polymer in polar solvent.
Chemical Engineer, 20, (10), 18-20, (2004)
Sun J et al., Intelligent molecular imprinted hydrogel.
Chemical Sensors (China), 25, (3), 1-6, (2005)
Quan Y et al., Study on Preparation and Performances of Acrylamide Molecularly Imprinted Polymers.
Food and Fermentation Industries, 36, (12), 177-180, (2010)
Sun J et al., Proceeding, Preparation and Binding Characteristics of Molecularly Imprinted Polymers for Capsaicin,
Chen R, Sun DY, Sung WP (Eds.), 582-585, (2012)
Kong H et al., Templated Crosslinked Imidazolyl Acrylate for Electronic Detection of Nitroaromatic Explosives.
Advanced Functional Materials, 23, (1), 91-99, (2013)
Luo J et al., Preparation of water-compatible molecular imprinted conductive polyaniline nanoparticles using polymeric micelle as nanoreactor for enhanced paracetamol detection.
Chemical Engineering Journal, 283, 1118-1126, (2016)
Sun J et al., Surface hydrophilic imprinted particles via a green precipitation polymerization for selective removal of tetracycline from aqueous solution.
Journal of the Iranian Chemical Society, 13, (3), 489-497, (2016)
Luo J et al., Synthesis of hydrophilic and conductive molecularly imprinted polyaniline particles for the sensitive and selective protein detection.
Biosensors and Bioelectronics, 94, 39-46, (2017)
Ma W et al., Core-shell thermal-responsive and magnetic molecularly imprinted polymers based on mag-yeast for selective adsorption and controlled release of tetracycline.
Journal of the Iranian Chemical Society, 14, (1), 209-219, (2017)
Zheng LF et al., Core-shell magnetic molecularly imprinted polymers used rhodamine B hydroxyproline derivate as template combined with in situ derivatization for the specific measurement of L-hydroxyproline.
Journal of Chromatography A, 1532, 30-39, (2018)
Zhu SY et al., Derivatization-based magnetic dummy molecularly imprinted polymers integrated with 4-plex stable isotope labeling derivatization strategy for specific and rapid determination of L-hydroxyproline in human serum.
Analytica Chimica Acta, 1127, 57-68, (2020)
Chen SE et al., 12-Plex UHPLC-MS/MS analysis of sarcosine in human urine using integrated principle of multiplex tags chemical isotope labeling and selective imprint enriching.
Talanta, 224, Article121788-(2021)
Journal of Chromatography A, 1647, Article462143-(2021)
Ma J et al., An overview on molecular imprinted polymers combined with surface-enhanced Raman spectroscopy chemical sensors toward analytical applications.
Talanta, 225, Article122031-(2021)
Journal of Shenyang Agricultural University, 40, (1), 92-94, (2009)
Ji J et al., Electrochemical sensor based on molecularly imprinted film at Au nanoparticles-carbon nanotubes modified electrode for determination of cholesterol.
Biosensors and Bioelectronics, 66, 590-595, (2015)
Sun JD et al., Electrochemical sensor for determination of tulathromycin built with molecularly imprinted polymer film.
Analytical and Bioanalytical Chemistry, 407, (7), 1951-1959, (2015)
Guo W et al., A novel molecularly imprinted electrochemical sensor modified with carbon dots, chitosan, gold nanoparticles for the determination of patulin.
Biosensors and Bioelectronics, 98, 299-304, (2017)
de Dieu Habimana J et al., A class-specific artificial receptor-based on molecularly imprinted polymer-coated quantum dot centers for the detection of signaling molecules, N-acyl-homoserine lactones present in gram-negative bacteria.
Analytica Chimica Acta, 1031, 134-144, (2018)
Shan XQ et al., A molecularly imprinted electrochemical sensor based on Au nanocross-chitosan composites for detection of paraquat.
Journal of Solid State Electrochemistry, 23, (4), 1211-1220, (2019)
Journal of the Taiwan Institute of Chemical Engineers, 78, 219-229, (2017)
Micronanoelectronic Technology, 48, (4), 254-257, (2011)
Journal of Pharmaceutical and Biomedical Analysis, 98, 210-220, (2014)
Sun JJ et al., Synthesis and application of a magnetic spiramycin-templated molecularly imprinted nanoparticle adsorbent.
Chinese Journal of Chromatography, 36, (8), 723-729, (2018)
Analytical Methods, 11, (8), 1043-1052, (2019)
Journal of Jilin University Science Edition, 50, (4), 805-811, (2012)
Liu JB et al., Theoretical researches on the recognizing characteristics of atrazine imprinted polymers with different functional monomers.
Chinese Journal of Structural Chemistry, 31, (12), 1794-1802, (2012)
Liu JB et al., Theoretical Research on Self-assembly System of Molecular Imprinted Polymers Formed by Ciprofloxacin and Trifluoromethacrylic Acid.
Chemical Journal of Chinese Universities, 34, (11), 2566-2573, (2013)
Liu JB et al., A Theoretical Study on the Interaction between Melamine and Acrylamide Functional Monomer in Molecularly Imprinted Polymers.
Food Science, 34, (17), 96-101, (2013)
Sun JN et al., Theoretical researches on the self-assembly system of ciprofloxacin imprinted polymers.
Chinese Journal of Structural Chemistry, 32, (8), 1204-1210, (2013)
Chemical Communications, 51, (17), 3541-3544, (2015)
Journal of AOAC International, 96, (2), 453-458, (2013)
Talanta, 168, 174-182, (2017)
Journal of Applied Electrochemistry, 46, (3), 389-401, (2016)
Gan T et al., An electrochemical sensor based on SiO2@TiO2-embedded molecularly imprinted polymers for selective and sensitive determination of theophylline.
Journal of Solid State Electrochemistry, 21, (12), 3683-3691, (2017)
Liu HL et al., A fluorescent nanoprobe for 4-ethylguaiacol based on the use of a molecularly imprinted polymer doped with a covalent organic framework grafted onto carbon nanodots.
Microchimica Acta, 186, (3), Article182-(2019)
Gan T et al., Multishell Au@Ag@SiO2 nanorods embedded into a molecularly imprinted polymer as electrochemical sensing platform for quantification of theobromine.
Microchimica Acta, 187, (5), Article291-(2020)
Xu LP et al., A disposable molecularly imprinted electrochemical sensor for the ultra-trace detection of the organophosphorus insecticide phosalone employing monodisperse Pt-doped UiO-66 for signal amplification.
Analyst, 145, (9), 3245-3256, (2020)
Sun JY et al., Rational design of a mesoporous silica@ZIF-8 based molecularly imprinted electrochemical sensor with high sensitivity and selectivity for atropine monitoring.
Journal of Electroanalytical Chemistry, 903, Article115843-(2021)
Journal of Electronics & Information Technology, 32, (11), 2735-2739, (2010)
RSC Advances, 5, (114), 94084-94090, (2015)
Ion Exchange and Adsorption, 29, (2), 131-139, (2013)
Bao LL et al., Selective adsorption and degradation of rhodamine B with modified titanium dioxide photocatalyst.
Journal of Applied Polymer Science, 131, (20), Article No 40890-(2014)
He MQ et al., Synthesis of molecularly imprinted polypyrrole/titanium dioxide nanocomposites and its selective photocatalytic degradation of rhodamine B under visible light irradiation.
eXPRESS Polymer Letters, 8, (11), 850-861, (2014)
Meng MJ et al., Preparation, characterization, and adsorption performance of p-hydroxybenzoic acid imprinted polymer and selective catalysis of toluene to para-chlorotoluene.
Journal of Applied Polymer Science, 131, (8), Article No 40118-(2014)
In: Interfacial design & chemical sensing, Mallouk TE, Harrison DJ (Eds.) ACS: Washington DC, Ch. 10, 104-122, (1994)
Liu CP et al., Study on the adsorption property of copper (II) imprinted chelating resin for metal ions.
Ion Exchange and Adsorption, 19, (6), 504-510, (2003)
Zhu XL et al., Research Progress of Molecular Imprinting Technique in the Determination of Veterinary Drug Residues.
Chinese Journal of Veterinary Drug, 41, (6), 34-37, (2007)
Chen LG et al., Fast and Selective Extraction of Sulfonamides from Honey Based on Magnetic Molecularly Imprinted Polymer.
Journal of Agricultural and Food Chemistry, 57, (21), 10073-10080, (2009)
Chen LG et al., On-line Coupling of Solid-Phase Extraction to Liquid Chromatography-A Review.
Journal of Chromatographic Science, 47, (8), 614-623, (2009)
Chen LG et al., Determination of fluoroquinolone antibiotics in environmental water samples based on magnetic molecularly imprinted polymer extraction followed by liquid chromatography-tandem mass spectrometry.
Analytica Chimica Acta, 662, (1), 31-38, (2010)
Yang ML et al., Study on the molecularly imprinted polymers with methyl-testosterone as the template.
Talanta, 81, (1-2), 156-161, (2010)
Sun L et al., Monolithic molecularly imprinted column-high performance liquid chromatography for enrichment and determination of trace cytokinins in plant samples.
Chinese Journal of Chromatography, 31, (4), 392-394, (2013)
Sun L et al., Preparation and evaluation of camphor monolithic molecularly imprinted column.
Chinese Journal of Analysis Laboratory, 33, (7), 791-795, (2014)
Ye XS et al., Proceeding, The Preparation and Adsorption Properties of Li+-Imprinted Hybrid Gels,
Tsing L, Luo AQ (Eds.), 435-440, (2016)
Shao HH et al., An ion-imprinted material embedded carbon quantum dots for selective fluorometric determination of lithium ion in water samples.
Microchimica Acta, 184, (12), 4861-4868, (2017)
Wu XL et al., Surface molecular imprinted polymers based on Mn-doped ZnS quantum dots by atom transfer radical polymerization for a room-temperature phosphorescence probe of bifenthrin.
Analytical Methods, 9, (31), 4609-4615, (2017)
Chen L et al., Direct Detection of Potential Pyrethroids in Yangtze River via an Imprinted Multilayer Phosphorescence Probe.
Analytical Sciences, 34, (5), 613-618, (2018)
Wang JX et al., Surface-imprinted fluorescence microspheres as ultrasensitive sensor for rapid and effective detection of tetracycline in real biological samples.
Sensors and Actuators B: Chemical, 263, 533-542, (2018)
Wang YY et al., Synthesis of molecularly imprinted dye-silica nanocomposites with high selectivity and sensitivity: Fluorescent imprinted sensor for rapid and efficient detection of [tau]-fluvalinate in vodka.
Journal of Separation Science, 41, (8), 1880-1887, (2018)
Wu CX et al., Fluorescent molecularly imprinted nanoparticles for selective and rapid detection of ciprofloxacin in aquaculture water.
Journal of Separation Science, 41, (19), 3782-3790, (2018)
Peng C et al., Facile Synthesis of Boronate Affinity-Based Molecularly Imprinted Monolith with Reduced Capturing pH Towards Cis-Diol-Containing Compounds.
Chromatographia, 82, (7), 1029-1040, (2019)
Duan R et al., Integrating boronate affinity controllable-oriented surface imprinting nylon wire and pH-triggered allochroic-graphene oxide for ultrasensitive detection of glycoprotein.
Sensors and Actuators B: Chemical, 330, Article129310-(2021)
ACS Applied Materials & Interfaces, 6, (22), 20340-20349, (2014)
Journal of Molecular Liquids, 344, Article117963-(2021)
Applied Surface Science, 258, (6), 2017-2021, (2012)
Journal of Colloid and Interface Science, 552, 271-286, (2019)
Polymers, 10, (11), ArticleNo1248-(2018)
Zhang T et al., Highly sensitive electrochemical determination of the SARS-COV-2 antigen based on a gold/graphene imprinted poly-arginine sensor.
Analytical Methods, 13, (47), 5772-5776, (2021)
Analytica Chimica Acta, 1127, 57-68, (2020)
Zhou QT et al., Electrochemical sensor based on corncob biochar layer supported chitosan-MIPs for determination of dibutyl phthalate (DBP).
Journal of Electroanalytical Chemistry, 897, Article115549-(2021)
Acta Physico-Chimica Sinica, 24, (1), 25-31, (2008)
Yu S et al., Preliminary study on the molecularly imprinted polymer of bovine hemoglobin.
Chemistry Bulletin, 71, (6), 446-449, (2008)
Chen ZH et al., Proceeding, High porosity lysozyme imprinted polymers,
8306-8309, (2011)
Liu Y et al., Proceeding, Computational and experimental investigation of 4-nitrotoluene molecularly imprinted polymers,
8140-8143, (2011)
Xu SP et al., Proceeding, Preparation and Recognition Properties of Levodropopizine Molecularly Imprinted Composite Membranes,
Zeng JM, Kim YH, Chen YF (Eds.), 355-358, (2011)
Zhao WT et al., Proceeding, A Biomimetic Sensor for Fast Lysozyme Detection,
Cao Z, Cao XQ, Sun LX, He YH (Eds.), 283-287, (2011)
Yang S et al., Proceeding, Preparation and characterization of molecularly imprinted mesoporous organosilica for biphenol Z recognition and separation,
970-975, (2015)
Zhang X et al., Surface Molecular Imprinting on Manganese-Doped Zinc Sulfide Quantum Dots for Fluorescence Detection of Bisphenol A in Water.
Analytical Letters, 48, (13), 2075-2089, (2015)
Zhang X et al., Mn-doped ZnS QDs entrapped in molecularly imprinted membranes for detection of trace bisphenol A.
Analytical Methods, 7, (19), 8212-8219, (2015)
Yang S et al., Preparation and evaluation of Fe3O4 nanoparticles incorporated molecularly imprinted polymers for protein separation.
Journal of Materials Science, 51, (2), 937-949, (2016)
Zhang X et al., Surface-imprinted polymer coating l-cysteine-capped ZnS quantum dots for target protein specific recognition.
Journal of Materials Science, 51, (12), 6075-6085, (2016)
Zhang X et al., Specific recognition and detection of target proteins by new fluorescence molecularly imprinted membrane.
Chinese Journal of Chromatography, 35, (3), 252-254, (2017)
Zhang X et al., Fluorescent molecularly imprinted membranes as biosensor for the detection of target protein.
Sensors and Actuators B: Chemical, 254, 1078-1086, (2018)
Li YY et al., Preparation and adsorption characteristics of lysozyme-imprinted polymer membrane.
Chinese Journal of Chromatography, 37, (4), 392-397, (2019)
Liang AI et al., A novel CuFe2O4 nanospheres molecularly imprinted polymers modified electrochemical sensor for lysozyme determination.
Journal of Electroanalytical Chemistry, 853, Article113465-(2019)
Liu ZH et al., Preparation and application of melamine molecularly imprinted photonic crystal hydrogel sensor.
Chinese Journal of Chromatography, 37, (3), 287-292, (2019)
Journal of Chromatography A, 1319, 141-147, (2013)
Lin ZA et al., Synthesis of boronic acid-functionalized molecularly imprinted silica nanoparticles for glycoprotein recognition and enrichment.
Journal of Materials Chemistry B, 2, (6), 637-643, (2014)
Sun LX et al., Click synthesis of boronic acid-functionalized molecularly imprinted silica nanoparticles with polydopamine coating for enrichment of trace glycoproteins.
Analytical Methods, 7, (23), 10026-10031, (2015)
Advanced Materials, 32, (52), Article2005394-(2020)
Industrial & Engineering Chemistry Research, 52, (39), 14251-14260, (2013)
Sun LZ et al., Proceeding, Synthesis of Nimetazepam - Molecularly Imprinted Polymer and SPE Application,
Yun J, Zeng DH (Eds.), 200-206, (2013)
Sensors and Actuators B: Chemical, 173, 591-598, (2012)
Lu FG et al., Flow injection chemiluminescence sensor using core-shell molecularly imprinted polymers as recognition element for determination of dapsone.
Analytical and Bioanalytical Chemistry, 404, (1), 79-88, (2012)
Lu FG et al., Flow injection chemiluminescence sensor based on core-shell magnetic molecularly imprinted nanoparticles for determination of sulfadiazine.
Analytica Chimica Acta, 718, (1), 84-91, (2012)
Qiu HM et al., A chemiluminescence sensor for determination of epinephrine using graphene oxide - magnetite-molecularly imprinted polymers.
Carbon, 50, (11), 4052-4060, (2012)
Qiu HM et al., A novel chemiluminescence sensor for determination of quercetin based on molecularly imprinted polymeric microspheres.
Food Chemistry, 134, (1), 469-473, (2012)
Qiu HM et al., A chemiluminescence array sensor based on graphene-magnetite-molecularly imprinted polymers for determination of benzenediol isomers.
Analytica Chimica Acta, 744, 75-81, (2012)
Qiu HM et al., Determination of l-tryptophan based on graphene oxide-magnetite-molecularly imprinted polymers and chemiluminescence.
Talanta, 98, 226-230, (2012)
Qiu HM et al., Determination sulfamethoxazole based chemiluminescence and chitosan/graphene oxide-molecularly imprinted polymers.
Carbohydrate Polymers, 92, (1), 394-399, (2013)
Qiu HM et al., A microflow chemiluminescence sensor for indirect determination of dibutyl phthalate by hydrolyzing based on biological recognition materials.
Journal of Pharmaceutical and Biomedical Analysis, 75, 123-129, (2013)
Du W et al., Determination of clenbuterol from pork samples using surface molecularly imprinted polymers as the selective sorbents for microextraction in packed syringe.
Journal of Pharmaceutical and Biomedical Analysis, 91, 160-168, (2014)
Duan HM et al., A novel chemiluminescence sensor for determination of vanillin with magnetite-graphene oxide molecularly imprinted polymers.
Analytical Methods, 6, (21), 8706-8712, (2014)
Wang XJ et al., Ultrasensitive molecularly imprinted electrochemical sensor based on magnetism graphene oxide/[beta]-cyclodextrin/Au nanoparticles composites for chrysoidine analysis.
Electrochimica Acta, 130, 519-525, (2014)
Du W et al., Molecularly imprinted membrane extraction combined with high-performance liquid chromatography for selective analysis of cloxacillin from shrimp samples.
Food Chemistry, 259, 73-80, (2018)
606-609, (2016)
Chinese Chemical Letters, 22, (5), 611-614, (2011)
Journal of Separation Science, 34, (15), 1886-1892, (2011)
Gu ZG et al., Preparation of Carbon Nanotube/MnO2 Nanocomposite as an Electrode Modifier for Prostate-Specific Antigen (PSA) Determination.
International Journal of Electrochemical Science, 12, 10726-10736, (2017)
Jiang HM et al., Preparation of ion imprinted magnetic Fe3O4 nanoparticles for selective remediation of Pb(II).
Journal of the Taiwan Institute of Chemical Engineers, 80, 184-191, (2017)
Biosensors and Bioelectronics, 142, Article111483-(2019)
Lu ZW et al., Novel dual-template molecular imprinted electrochemical sensor for simultaneous detection of CA and TPH based on peanut twin-like NiFe2O4/CoFe2O4/NCDs nanospheres: Fabrication, application and DFT theoretical study.
Biosensors and Bioelectronics, 190, Article113408-(2021)
Liu T et al., A visual electrochemiluminescence molecularly imprinted sensor with Ag+@UiO-66-NH2 decorated CsPbBr3 perovskite based on smartphone for point-of-care detection of nitrofurazone.
Chemical Engineering Journal, 429, Article132462-(2022)
RSC Advances, 8, (52), 29928-29938, (2018)
Food Analytical Methods, 5, (6), 1267-1275, (2012)
Sun N et al., Determination of sulfamethoxazole in milk using molecularly imprinted polymer monolith microextraction coupled to HPLC.
Microchimica Acta, 179, (1), 33-40, (2012)
Yan HY et al., Rapid and selective screening of melamine in bovine milk using molecularly imprinted matrix solid-phase dispersion coupled with liquid chromatography-ultraviolet detection.
Journal of Chromatography B, 908, 137-142, (2012)
Liu XF et al., Preparation, characterization and application of organic-inorganic hybrid caffeine imprinted monolith.
Journal of Chromatography A, 1304, 10-17, (2013)
Yan H et al., Ionic liquid-mediated molecularly imprinted solid-phase extraction coupled with gas chromatography-electron capture detector for rapid screening of dicofol in vegetables.
Journal of Chromatography A, 1307, 21-26, (2013)
Yan HY et al., Ionic liquids modified dummy molecularly imprinted microspheres as solid phase extraction materials for the determination of clenbuterol and clorprenaline in urine.
Journal of Chromatography A, 1294, 10-16, (2013)
Yan HY et al., Synthesis of Multi-core-shell Magnetic Molecularly Imprinted Microspheres for Rapid Recognition of Dicofol in Tea.
Journal of Agricultural and Food Chemistry, 61, (11), 2896-2901, (2013)
Cheng XL et al., Vortex-assisted magnetic dispersive solid-phase microextraction for rapid screening and recognition of dicofol residues in tea products.
Food Chemistry, 162, 104-109, (2014)
Adams JD et al., A Molecularly Imprinted Polymer-Graphene Sensor Antenna Hybrid for Ultra Sensitive Chemical Detection.
IEEE Sensors Journal, 19, (16), 6571-6577, (2019)
Adams JD et al., A Molecularly Imprinted Polymer-Graphene Sensor Antenna Hybrid for Ultra Sensitive Chemical Detection.
IEEE Sensors Journal, 19, (16), 6571-6577, (2019)
Analytica Chimica Acta, 1128, 1-10, (2020)
Fang XW et al., Magnetic metal oxide affinity chromatography-based molecularly imprinted approach for effective separation of serous and urinary phosphoprotein biomarker.
Talanta, 226, Article122143-(2021)
Journal of Sensors, 2018, ArticleNo3437149-(2018)
Emam S et al., A Molecularly- Imprinted Electrochemical Sensor to Detect VOCs in the Breath Print of Lung Cancer Patients.
Bulletin of the American Physical Society 54 S50.00012-(2019)
Food Science, 23, (9), 140-143, (2002)
Li MN et al., Core-shell magnetic metal-organic framework molecularly imprinted nanospheres for specific adsorption of tetrabromobisphenol A from water.
Environmental Science: Nano, 5, (11), 2651-2662, (2018)
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 53-59, (2004)
Zhang HQ et al., Efficient Synthesis of Molecularly Imprinted Polymers with Enzyme Inhibition Potency by the Controlled Surface Imprinting Approach.
ACS Macro Letters, 566-570, (2013)
Chinese Journal of Analysis Laboratory, 37, (3), 301-305, (2018)
Chemical Industry and Engineering Progress, 29, (S2), 205-209, (2010)
SCIENTIA SINICA Technologica, 46, (9), 931-939, (2016)
Analytical Letters, 54, (17), 2789-2800, (2021)
Journal of Agricultural and Food Chemistry, 57, (15), 6558-6563, (2009)
Sun Q et al., Proceeding, The Recent Advance of Molecularly Imprinted on-Line Solid Phase Extraction and its Application in Sample Pretreatment - A Mini Review,
Bu JL, Jiang ZY, Jiao SH (Eds.), 1799-1805, (2011)
Sun Q et al., Determination of Parathion-methyl in Vegetables by Fluorescent-Labeled Molecular Imprinted Polymer.
Chinese Journal of Chemistry, 29, (10), 2134-2140, (2011)
Yang M et al., Proceeding, Preparation and Characterization of Molecularly Imprinted Polymer Microspheres of p-Nitroaniline,
Sun DY, Sung WP, Chen R (Eds.), 3411-3414, (2011)
Sun Q et al., Synthesis of an Organic-Inorganic Hybrid Polymeric Material and Its Adsorption Performance Characterization Toward Acrylamide.
Journal of Macromolecular Science, Part B, 53, (3), 486-495, (2014)
Sun Q et al., Study on a biomimetic enzyme-linked immunosorbent assay method for rapid determination of trace acrylamide in French fries and cracker samples.
Journal of the Science of Food and Agriculture, 94, (1), 102-108, (2014)
Sun Q et al., Synthesis of an Organic-Inorganic Hybrid Polymeric Material and its Adsorption Performance Characterization Toward Acrylamide.
Journal of Macromolecular Science, Part B, 53, (4), 683-692, (2014)
Li XP et al., Molecularly imprinted solid phase extraction in a syringe filter for determination of triazine herbicides in Radix Paeoniae Alba by ultra-fast liquid chromatography.
Talanta, 148, 539-547, (2016)
Li XP et al., Molecularly Imprinted Dispersive Solid-Phase Extraction for the Determination of Triazine Herbicides in Grape Seeds by High-Performance Liquid Chromatography.
Journal of Chromatographic Science, 54, (5), 871-877, (2016)
Wen LY et al., Smart
Microchimica Acta, 184, (12), 4861-4868, (2017)
Zhao YL et al., Self-assembled selenium nanoparticles and their application in the rapid diagnostic detection of small cell lung cancer biomarkers.
Soft Matter, 14, (4), 481-489, (2018)
Sensors and Actuators B: Chemical, 259, 650-657, (2018)
Chemical Communications, 50, (64), 8868-8870, (2014)
Yu P et al., Magnetic imprinted nanomicrosphere attached to the surface of bacillus using miniemulsion polymerization for selective recognition of 2, 4, 6-trichlorophenol from aqueous solutions.
Journal of Industrial and Engineering Chemistry, 29, 349-358, (2015)
Yu P et al., Selective removal of 2, 4-dichlorophenol in aqueous solutions by nanoparticles modified yeast using miniemulsion imprinting polymerization.
Journal of Environmental Chemical Engineering, 3, (2), 797-806, (2015)
Yu P et al., Preparation and characterization of molecularly-imprinted magnetic microspheres for adsorption of 2, 4, 6-trichlorophenol from aqueous solutions.
Korean Journal of Chemical Engineering, 32, (4), 767-776, (2015)
Yu P et al., Magnetic Molecularly Imprinted Polymer Beads Obtained by Suspension Polymerization for the Adsorption of 2, 4, 6-Trichlorophenol from an Aqueous Solution in a Fixed-bed Column.
Adsorption Science & Technology, 33, (3), 321-336, (2015)
Dong YY et al., Grafting of MIPs from PVDF Membranes via Reversible Addition-fragmentation Chain Transfer Polymerization for Selective Removal of p-Hydroxybenzoic Acid.
Chemical Research in Chinese Universities, 34, (6), 1051-1057, (2018)
Talanta, 159, 379-386, (2016)
Zang YJ et al., Fabrication of S-MoSe2/NSG/Au/MIPs imprinted composites for electrochemical detection of dopamine based on synergistic effect.
Microchemical Journal, 156, Article104845-(2020)
Zhao XSG, Si HZ, Xu PL (Eds.), 19-22, (2014)
Zhang YX et al., Application of surface-imprinted polymers supported by hydroxyapatite in the extraction of zearalenone in various cereals.
Analytical and Bioanalytical Chemistry, 412, (17), 4045-4055, (2020)
Journal of Tongji University, 41, (10), 1507-1512, (2013)
In: Advances in Applied Biotechnology, Zhang TC, Nakajima M (Eds.) Springer: Berlin, Heidelberg, Ch. 59, 571-580, (2015)
China Biotechnology, 21, (5), 63-67, (2001)
Sun RF et al., Construction and application of a stoichiometric displacement model for retention in chiral recognition of molecular imprinting.
Journal of Chromatography A, 1055, (1-2), 1-9, (2004)
Sun RF et al., Thermodynamic study on chiral separation process using molecular imprinting.
Acta Chimica Sinica, 63, (3), 189-195, (2005)
Sun RF et al., Preparation of molecularly imprinted polymers and studies on their pore-structure.
Acta Polymerica Sinica, (2), 248-253, (2005)
Sun RF et al., Preparation and specific molecular recognition properties of human hemoglobin imprinted polymers.
The Chinese Journal of Process Engineering, 5, (3), 341-344, (2005)
Talanta, 170, 111-118, (2017)
Ji WH et al., Rapid, low temperature synthesis of molecularly imprinted covalent organic frameworks for the highly selective extraction of cyano pyrethroids from plant samples.
Analytica Chimica Acta, 1001, 179-188, (2018)
Journal of Instrumental Analysis, 34, (2), 159-163, (2015)
Sensors, 13, (5), 5493-5506, (2013)
Sun S et al., Magnetic glass carbon electrode, modified with magnetic ferriferrous oxide nanoparticles coated with molecularly imprinted polymer films for electrochemical determination of bovine hemoglobin.
Journal of Electroanalytical Chemistry, 734, 18-24, (2014)
Khonsari YN et al., A novel MIP-ECL sensor based on RGO-CeO2NP/Ru(bpy)32+-chitosan for ultratrace determination of trimipramine.
Journal of Materials Chemistry B, 9, (2), 471-478, (2021)
Separation & Purification Reviews, 40, (4), 312-337, (2011)
Wang DS et al., Photoresponsive Surface Molecularly Imprinted Poly(ether sulfone) Microfibers.
Langmuir, 28, (37), 13284-13293, (2012)
Wang DS et al., Designing a Photoresponsive Molecularly Imprinted System on a Silicon Wafer Substrate Surface.
Langmuir, 29, (26), 8311-8319, (2013)
Zhao CS et al., Modification of polyethersulfone membranes - A review of methods.
Progress in Materials Science, 58, (1), 76-150, (2013)
He C et al., Molecularly imprinted polyethersulfone membranes for the sieving, binding and recognition of bisphenol A.
Desalination and Water Treatment, 52, (31-33), 5781-5789, (2014)
Journal of Applied Polymer Science, 129, (4), 1952-1958, (2013)
Biosensors and Bioelectronics, 91, 714-720, (2017)
Journal of Xi'an Medical University, (1), 26-31, (2011)
Chen DM et al., Preparation and evaluation of monolithic molecularly imprinted stationary phase for S-naproxen.
Journal of Pharmaceutical Analysis, 1, (1), 26-31, (2011)
Fu QA et al., Matrine-imprinted monolithic stationary phase for extraction and purification of matrine from Sophorae flavescentis Ait.
Journal of Chromatography B, 879, (13-14), 894-900, (2011)
Luo YF et al., Preparation of Monolithic Imprinted Stationary Phase for Clenbuterol by In Situ Polymerization and Application in Biological Samples Pretreatment.
Chromatographia, 74, (9), 693-701, (2011)
Sensors and Actuators B: Chemical, 200, 69-75, (2014)
Zhang DD et al., Construction of Persistent Luminescence-Plastic Antibody Hybrid Nanoprobe for In Vivo Recognition and Clearance of Pesticide Using Background-Free Nanobioimaging.
Journal of Agricultural and Food Chemistry, 67, (24), 6874-6883, (2019)
Journal of Instrumental Analysis, 34, (10), 1126-1133, (2015)
Chemistry Bulletin, 72, (1), 10-14, (2009)
Nguyen TH et al., Proceeding, A fibre optic chemical sensor for the detection of cocaine,
Santos JL, Culshaw B, Lopez-Higuera JM, MacPherson WN (Eds.), Art. No. 76531V, (2010)
Sun T et al., Molecular Imprinting Technology Based on Cyclodextrins.
Progress In Chemistry, 22, (5), 888-897, (2010)
Dong J et al., Preparation and characterization of p-chlorophenol- imprinted composite membrane.
Journal of Shanghai Normal University (Natural Sciences), 40, (6), 615-618, (2011)
Fan HT et al., Preparation of Cobalt(II) Ion Imprinted Silica Gel Sorbents by Surface Imprinting Technique and Its Adsorption Properties.
Chemical Journal of Chinese Universities, 32, (12), 2902-2907, (2011)
Li ZC et al., Cd(II)-imprinted polymer sorbents prepared by combination of surface imprinting technique with hydrothermal assisted sol-gel process for selective removal of cadmium(II) from aqueous solution.
Chemical Engineering Journal, 171, (2), 703-710, (2011)
Chen MX et al., Synthesis and adsorption behavior of Cd(II)-imprinted silica gel.
Polymer Materials Science and Engineering, 28, (8), 163-166, (2012)
Fan HT et al., Selective Removal of Arsenic(V) from Aqueous Solution Using A Surface-Ion-Imprinted Amine-Functionalized Silica Gel Sorbent.
Industrial & Engineering Chemistry Research, 51, (14), 5216-5223, (2012)
Fan HT et al., Preparation of Cd(II)-imprinted silica by hydrothermal-assisted surface imprinting technique and its adsorption properties.
Journal of Functional Materials, 43, (15), 2060-2064, (2012)
Fan HT et al., Selective removal of iron from aqueous solution using ion imprinted thiocyanato-functionalized silica gel sorbents.
Korean Journal of Chemical Engineering, 29, (6), 798-803, (2012)
Fan HT et al., An ion-imprinted amino-functionalized silica gel sorbent prepared by hydrothermal assisted surface imprinting technique for selective removal of cadmium (II) from aqueous solution.
Applied Surface Science, 258, (8), 3815-3822, (2012)
Fan HT et al., Selective Removal of Iron from Aqueous Solution using Ion Imprinted Cyanato-Functionalized Silica Gel Sorbents.
Separation Science and Technology, 47, (3), 507-512, (2012)
Nguyen TH et al., Intrinsic fluorescence-based optical fiber sensor for cocaine using a molecularly imprinted polymer as the recognition element.
IEEE Sensors Journal, 12, (1), 255-260, (2012)
Wren SP et al., Proceeding, Preparation of a novel drug sensor using a molecular imprinted polymer approach,
Jaroszewicz LR (Ed.), Art No 879417, (2013)
Dong J et al., Sampling 4-chlorophenol in water by DGT technique with molecularly imprinted polymer as binding agent and nylon membrane as diffusive layer.
Analytica Chimica Acta, 822, 69-77, (2014)
Dong J et al., Sampling of Phenol in Water by Diffusive Gradients Using Thin Film Technique.
Chemistry Letters, 43, (7), 1164-1166, (2014)
Fan HT et al., Selective adsorption of antimony(III) from aqueous solution by ion-imprinted organic-inorganic hybrid sorbent: Kinetics, isotherms and thermodynamics.
Journal of the Taiwan Institute of Chemical Engineers, 45, (5), 2640-2648, (2014)
Wren SP et al., Proceeding, Design and synthesis of a fluorescent molecular imprinted polymer for use in an optical fibre-based cocaine sensor,
91574W-4, (2014)
Wren SP et al., Preparation of novel optical fibre-based Cocaine sensors using a molecular imprinted polymer approach.
Sensors and Actuators B: Chemical, 193, 35-41, (2014)
Elosua C et al., Proceeding, Glucose optical fibre sensor based on a luminescent molecularly imprinted polymer,
ArticleNo963429, (2015)
Wren SP et al., Computational Design and Fabrication of Optical Fibre Fluorescent Chemical Probes for the Detection of Cocaine.
Journal of Lightwave Technology, 33, (12), 2572-2579, (2015)
Feng ZM et al., Effect of Biofilm on Passive Sampling of Dissolved Orthophosphate Using the Diffusive Gradients in Thin Films Technique.
Analytical Chemistry, 88, (13), 6836-6843, (2016)
Nguyen TH et al., Proceeding, Surface plasmon resonance based fibre optic chemical sensor for the detection of cocaine,
ArticleNo991612, (2016)
Feng ZM et al., Coupling mesoporous imprinted polymer based DGT passive samplers and HPLC: A new tool for in-situ selective measurement of low concentration tetrabromobisphenol A in freshwaters.
Science of The Total Environment, 685, 442-450, (2019)
Small, 10, (1), 32-46, (2014)
Progress In Chemistry, 23, (7), 1386-1399, (2011)
Angewandte Chemie International Edition, 50, (2), 495-498, (2011)
Nematollahzadeh A et al., Robust and selective nano cavities for protein separation: An interpenetrating polymer network modified hierarchically protein imprinted hydrogel.
Journal of Chromatography A, 1345, 154-163, (2014)
Liu H et al., Effect of anions on the polymerization and adsorption processes of Cu(II) ion-imprinted polymers.
Chemical Engineering Journal, 303, 348-358, (2016)
Schwark S et al., Monoclonal antibody capture from cell culture supernatants using epitope imprinted macroporous membranes.
RSC Advances, 6, (58), 53162-53169, (2016)
Tian C et al., DNA Nanostructures-Mediated Molecular Imprinting Lithography.
ACS Nano, 11, (1), 227-238, (2017)
International Journal of Environmental Analytical Chemistry, 91, (11), 1013-1023, (2011)
Chinese Journal of Catalysis, 32, (9), 1508-1512, (2011)
Sun WQ et al., Molecularly imprinted polymer containing Fe(III) catalysts for specific substrate recognition.
Chinese Journal of Catalysis, 34, (8), 1589-1598, (2013)
Chemical Communications, 50, (64), 8868-8870, (2014)
Desalination and Water Treatment, 58, 93-105, (2017)
Guo N et al., Preparation and properties of a novel macro porous Ni2+-imprinted chitosan foam adsorbents for adsorption of nickel ions from aqueous solution.
Carbohydrate Polymers, 165, 376-383, (2017)
Analytica Chimica Acta, 662, (1), 31-38, (2010)
Chen B et al., Proceeding, Molecularly imprinted polymer coated Au nanoparticle sensor for [alpha]-pinene vapor detection,
1-4, (2013)
Sun X et al., Thermoresponsive ketoprofen-imprinted monolith prepared in ionic liquid.
Analytical and Bioanalytical Chemistry, 406, (22), 5359-5367, (2014)
Sun X et al., Separation of Epigallocatechin Gallate from Natural Plant Extracts Using Crowding Agents-Assisted Imprinted Polymers.
Chromatographia, 78, (15-16), 995-1003, (2015)
Sun X et al., A miniaturized sorbent phase-based extraction device in the form of syringe filter holder using molecularly imprinted polymer as sorbent and its application to extract benzophenones.
Journal of Chromatography A, 1543, 1-13, (2018)
Sun X et al., Synthesis of molecularly imprinted fluorescent probe based on biomass-derived carbon quantum dots for detection of mesotrione.
Analytical and Bioanalytical Chemistry, 411, (21), 5519-5530, (2019)
Wei ZH et al., Improving affinity of imprinted monolithic polymer prepared in deep eutectic solvent by metallic pivot.
Journal of Chromatography A, 1602, 48-55, (2019)
Li LL et al., Molecularly imprinted carbon nanosheets supported TiO2: Strong selectivity and synergic adsorption-photocatalysis for antibiotics removal.
Journal of Hazardous Materials, 383, Article121211-(2020)
Sun X et al., Construction of ratiometric fluorescence MIPs probe for selective detection of tetracycline based on passion fruit peel carbon dots and europium.
Microchimica Acta, 188, (9), Article297-(2021)
Yang YY et al., Molecularly imprinted solid-phase extraction of Chikusetsu saponin IVa from Panacis majoris Rhizoma.
Journal of Separation Science, 44, (19), 3665-3676, (2021)
Analytical Methods, 5, (22), 6449-6456, (2013)
Duan YQ et al., Determination of epigallocatechin-3-gallate with a high-efficiency electrochemical sensor based on a molecularly imprinted poly(o-phenylenediamine) film.
Journal of Applied Polymer Science, 129, (5), 2882-2890, (2013)
Lin Z et al., One-pot preparation of a molecularly imprinted hybrid monolithic capillary column for selective recognition and capture of lysozyme.
Journal of Chromatography A, 1284, 8-16, (2013)
Zhang HH et al., Selective Adsorption and Separation of (-)-Epigallocatechin Gallate (EGCG) based on Silica Gel Surface Molecularly Imprinted Polymers.
IERI Procedia, 5, 339-343, (2013)
Luo XP et al., Molecularly imprinted polymer prepared by Pickering emulsion polymerization for removal of acephate residues from contaminated waters.
Journal of Applied Polymer Science, 133, (15), ArticleNo43126-(2016)
Asian Journal of Chemistry, 24, (6), 2461-2466, (2012)
Wang PL et al., Advancements of molecularly imprinted polymers in the food safety field.
Analyst, 141, (12), 3540-3553, (2016)
Journal of Shanghai Jiaotong University (Agricultural Science), 28, (3), 286-291, (2010)
Zhao DY et al., Preparation and characterization of a molecularly imprinted polymer by grafting on silica supports: a selective sorbent for patulin toxin.
Analytical and Bioanalytical Chemistry, 401, (7), 2259-2273, (2011)
Lin B et al., Electromembrane extraction of high level substances: A novel approach for selective recovery of templates in molecular imprinting.
Journal of Membrane Science, 568, 30-39, (2018)
Luo SQ et al., Molecular imprinting based on phosphorescent resonance energy transfer for malachite green detection in fishes and water.
New Journal of Chemistry, 42, (12), 9510-9516, (2018)
Luo SQ et al., Phosphorimetric determination of 4-nitrophenol using mesoporous molecular imprinting polymers containing manganese(II)-doped ZnS quantum dots.
Microchimica Acta, 186, (4), Article249-(2019)
Miao YM et al., -Phosphorescent Mesoporous Surface Imprinting Microspheres: Preparation and Application for Transferrin Recognition from Biological Fluids.
ACS Applied Materials & Interfaces, 11, (2), 2264-2272, (2019)
Talanta, 79, (3), 926-934, (2009)
Sun XL et al., Room temperature ionic liquid-mediated molecularly imprinted polymer monolith for the selective recognition of quinolones in pork samples.
Journal of Separation Science, 33, (23-24), 3786-3793, (2010)
Jiang DL et al., Preparation and application of acrylamide molecularly imprinted composite solid-phase extraction materials.
Analytical Methods, 4, (11), 3760-3766, (2012)
Xu H et al., Application of the new recognition molecular sensors in the small toxins.
Science and Technology of Food Industry, 33, (18), 367-370, (2012)
Ji J et al., Synthesis of Acrylamide Molecularly Imprinted Polymers Immobilized on Graphite Oxide through Surface-Initiated Atom Transfer Radical Polymerization.
Analytical Letters, 46, (6), 969-981, (2013)
Sun XL et al., Molecularly Imprinted Layer-Coated Silica Gel Particles for Selective Solid-Phase Extraction of Pefloxacin and Enrofloxacin from Milk Samples.
Food Analytical Methods, 6, (5), 1361-1369, (2013)
Li Y et al., Identification of 3-chloro-1, 2-propandiol using molecularly imprinted composite solid-phase extraction materials.
Analytical and Bioanalytical Chemistry, 406, (25), 6319-6327, (2014)
Sun XL et al., Highly selective dummy molecularly imprinted polymer as a solid-phase extraction sorbent for five bisphenols in tap and river water.
Journal of Chromatography A, 1343, 33-41, (2014)
Sun XL et al., Development and Application of 3-Chloro-1, 2-propandiol Electrochemical Sensor Based on a Polyaminothiophenol Modified Molecularly Imprinted Film.
Journal of Agricultural and Food Chemistry, 62, (20), 4552-4557, (2014)
Sun XL et al., Novel dummy molecularly imprinted polymers for matrix solid-phase dispersion extraction of eight fluoroquinolones from fish samples.
Journal of Chromatography A, 1359, 1-7, (2014)
Sun XL et al., Highly class-selective solid-phase extraction of bisphenols in milk, sediment and human urine samples using well-designed dummy molecularly imprinted polymers.
Journal of Chromatography A, 1360, 9-16, (2014)
Wang QY et al., An electrochemical sensor based on molecularly imprinted membranes on a P-ATP-AuNP modified electrode for the determination of acrylamide.
Analytical Methods, 6, (16), 6452-6458, (2014)
Du X et al., A Facile Potential-Induced In-Situ Ion Removal Trick: Fabrication of High-Selective Ion-Imprinted Film for Trivalent Yttrium Ion Separation.
Electrochimica Acta, 176, 1313-1323, (2015)
Ji J et al., Electrochemical sensor based on molecularly imprinted film at Au nanoparticles-carbon nanotubes modified electrode for determination of cholesterol.
Biosensors and Bioelectronics, 66, 590-595, (2015)
Sun H et al., Solid-phase extraction based on a molecularly imprinted polymer for the selective determination of four benzophenones in tap and river water.
Journal of Separation Science, 38, (19), 3412-3420, (2015)
Sun JD et al., Electrochemical sensor for determination of tulathromycin built with molecularly imprinted polymer film.
Analytical and Bioanalytical Chemistry, 407, (7), 1951-1959, (2015)
Yang JJ et al., Preparation of molecularly imprinted polymers using dummy template and the applications in selective solid-phase extraction of seven bisphenols from human urine, bovine serum and beer samples.
Chinese Journal of Chromatography, 33, (5), 468-474, (2015)
Yang JJ et al., Molecularly imprinted polymer microspheres prepared by Pickering emulsion polymerization for selective solid-phase extraction of eight bisphenols from human urine samples.
Analytica Chimica Acta, 872, 35-45, (2015)
Yang JJ et al., Novel sponge-like molecularly imprinted mesoporous silica material for selective isolation of bisphenol A and its analogues from sediment extracts.
Analytica Chimica Acta, 853, 311-319, (2015)
Jiang H et al., Magnetic molecularly imprinted polymer nanoparticles based electrochemical sensor for the measurement of Gram-negative bacterial quorum signaling molecules (N-acyl-homoserine-lactones).
Biosensors and Bioelectronics, 75, 411-419, (2016)
Ma M et al., A disposable molecularly imprinted electrochemical sensor based on screen-printed electrode modified with ordered mesoporous carbon and gold nanoparticles for determination of ractopamine.
Journal of Electroanalytical Chemistry, 775, 171-178, (2016)
Sun H et al., Preparation of dummy-imprinted polymers by Pickering emulsion polymerization for the selective determination of seven bisphenols from sediment samples.
Journal of Separation Science, 39, (11), 2188-2195, (2016)
Wang LJ et al., Rapid determination of 15 [beta]2-agonists residues in swine urine by ultra performance liquid chromatography-tandem mass spectrometry coupled with molecularly imprinted solid phase extraction.
Chinese Journal of Chromatography, 34, (3), 240-248, (2016)
Yang YF et al., Determination of nine fluoroquinolone residues in chicken by ultra performance liquid chromatography-tandem mass spectrometry coupled with molecularly imprinted solid phase extraction.
Chinese Journal of Chromatography, 34, (11), 1063-1069, (2016)
Guo W et al., A novel molecularly imprinted electrochemical sensor modified with carbon dots, chitosan, gold nanoparticles for the determination of patulin.
Biosensors and Bioelectronics, 98, 299-304, (2017)
Sun XL et al., Photoelectrochemical sensor based on molecularly imprinted film modified hierarchical branched titanium dioxide nanorods for chlorpyrifos detection.
Sensors and Actuators B: Chemical, 251, 1-8, (2017)
de Dieu Habimana J et al., A class-specific artificial receptor-based on molecularly imprinted polymer-coated quantum dot centers for the detection of signaling molecules, N-acyl-homoserine lactones present in gram-negative bacteria.
Analytica Chimica Acta, 1031, 134-144, (2018)
Sun XL et al., Determination of nine bisphenols in sewage and sludge using dummy molecularly imprinted solid-phase extraction coupled with liquid chromatography tandem mass spectrometry.
Journal of Chromatography A, 1552, 10-16, (2018)
Shan XQ et al., A molecularly imprinted electrochemical sensor based on Au nanocross-chitosan composites for detection of paraquat.
Journal of Solid State Electrochemistry, 23, (4), 1211-1220, (2019)
Sun XL et al., Ultrasensitive Microfluidic Paper-Based Electrochemical Biosensor Based on Molecularly Imprinted Film and Boronate Affinity Sandwich Assay for Glycoprotein Detection.
ACS Applied Materials & Interfaces, 11, (17), 16198-16206, (2019)
Sun XL et al., Dummy molecularly imprinted solid phase extraction of climbazole from environmental water samples.
Talanta, 196, 47-53, (2019)
Sun XL et al., Preparation and evaluation of dummy-template molecularly imprinted polymer as a potential sorbent for solid phase extraction of imidazole fungicides from river water.
Journal of Chromatography A, 1586, 1-8, (2019)
Zhang XX et al., Dummy molecularly imprinted microspheres prepared by Pickering emulsion polymerization for matrix solid-phase dispersion extraction of three azole fungicides from fish samples.
Journal of Chromatography A, 1620, Article461013-(2020)
Abstracts of Papers of the American Chemical Society, 236, (AGFD), 193-(2008)
Journal of Separation Science, 36, (4), 752-757, (2013)
Modern Chemical Industry, 33, (12), 28-30, 32, (2013)
Shang HZ et al., Research progress of ion imprinted polymer.
Modern Chemical Industry, 33, (2), 20-23, 25, (2013)
He JN et al., Synthesis and application of ion imprinting polymer coated magnetic multi-walled carbon nanotubes for selective adsorption of nickel ion.
Applied Surface Science, 428, 110-117, (2018)
Zhang X et al., Preparation and properties of thermo-sensitive surface Pb(II) ion-imprinted polymers.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 577, 138-146, (2019)
Journal of Sol-Gel Science and Technology, 72, (1), 144-155, (2014)
Fan HT et al., Selective Removal of Lead(II) from Aqueous Solution by an Ion-Imprinted Silica Sorbent Functionalized with Chelating N-Donor Atoms.
Journal of Chemical & Engineering Data, 59, (6), 2106-2114, (2014)
Fan HT et al., Preparation, characterization, and selective adsorption for lead(II) of imprinted silica-supported organic-inorganic hybrid sorbent functionalized with chelating S, N-donor atoms.
Monatshefte für Chemie - Chemical Monthly, 146, (3), 459-463, (2015)
Li RH et al., Synthesis, characterization and application of dummy-template molecularly imprinted microspheres for 2, 4-d butyl ester.
Journal of Macromolecular Science, Part A, 54, (12), 931-937, (2017)
Liu HL et al., A fluorescent nanoprobe for 4-ethylguaiacol based on the use of a molecularly imprinted polymer doped with a covalent organic framework grafted onto carbon nanodots.
Microchimica Acta, 186, (3), Article182-(2019)
Yang YK et al., Fluorometric microplate-based dimethoate assay using CdSe/ZnS quantum dots coated with a molecularly imprinted polymer.
Microchimica Acta, 186, (8), Article589-(2019)
Journal of Chromatography A, 1627, Article461400-(2020)
Journal of Jiangsu Polytechnic University, 19, (4), 21-24, (2007)
Sun CJ et al., Graphical Evaluation of the Favorability of Adsorption Processes by Using Conditional Langmuir Constant.
Industrial & Engineering Chemistry Research, 52, (39), 14251-14260, (2013)
Journal of Huaqiao University (Natural Science), 26, (1), 47-50, (2005)
Sun XY et al., Preparation and properties of dibutyltin molecularly imprinted polymer.
Chemical Journal of Chinese Universities, 27, (8), 1443-1447, (2006)
Wei J et al., Preparation and Properties of Molecular Imprinting Polymer for Chiral Separation of Proline.
Chinese Journal of Applied Chemistry, 23, (12), 1336-1341, (2006)
Zhou Z et al., Synthesis and Recognition Capability of Monobutyltin Molecularly Imprinted Polymer.
Journal of Huaqiao University (Natural Science), 28, (1), 38-41, (2007)
Yang Y et al., Preparation and Properties of Trichlorfon Molecularly Imprinted Polymers.
Journal of Huaqiao University (Natural Science), 30, (3), 284-288, (2009)
Chen YP et al., Preparation and Application of Urea Electrochemical Sensor Based on Chitosan Molecularly Imprinted Films.
Electroanalysis, 23, (6), 1454-1461, (2011)
Huang YX et al., Preparation and Electrochemical Characters of Parathion Molecule Imprinted Polymeric Sensors.
Chemical Research in Chinese Universities, 27, (1), 28-33, (2011)
Chen JJ et al., Development of a chitosan molecularly imprinted electrochemical sensor for trichlorphon determination.
International Journal of Environmental Analytical Chemistry, 92, (9), 1046-1058, (2012)
Lian HT et al., A urea electrochemical sensor based on molecularly imprinted chitosan film doping with CdS quantum dots.
Analytical Biochemistry, 426, (1), 40-46, (2012)
Lian HT et al., Graphene Doped Molecularly Imprinted Electrochemical Sensor for Uric Acid.
Analytical Letters, 45, (18), 2717-2727, (2012)
Liu B et al., Dopamine molecularly imprinted electrochemical sensor based on graphene - chitosan composite.
Electrochimica Acta, 75, (1), 108-114, (2012)
Ren C et al., Preparation of Hybrid Membrane Containing Mn-Doped ZnS Quantum Dots Capped by Imprinting Polymer and Their Application for Fluorescence Recognition of 4-Nitrophenol.
Chinese Journal of Analytical Chemistry, 40, (9), 1391-1396, (2012)
Sun ZH et al., Sensitivity Enhancement of Graphene Doped Molecular Imprinting Electrochemical Sensors.
Journal of Huaqiao University (Natural Science), 33, (4), 401-407, (2012)
Yin JF et al., Highly Selective Determination of Uric Acid in Human Serum by Molecularly Imprinted Electrochemical Sensor.
Journal of Huaqiao University (Natural Science), 33, (1), 33-38, (2012)
Zhang YH et al., Characterization and thermodynamic properties of Cu(II) imprinted chitosan crosslinked membrane.
Environmental Science, 33, (7), 2403-2409, (2012)
Liu B et al., Xanthine microsensor based on polypyrrole molecularly imprinted film modified carbon fiber microelectrodes.
Analytical Biochemistry, 440, (2), 220-226, (2013)
Wang XL et al., Response Performance of Molecular Imprinted Polymers Based on Electrochemical Microsensor for Xanthine.
Journal of Huaqiao University (Natural Science), 34, (6), 655-661, (2013)
Chen D et al., Preparation and Properties of Tyrosine Molecularly Imprinted Electrochemical Sensor.
Journal of Huaqiao University (Natural Science), 35, (4), 403-408, (2014)
Zhang LL et al., Imprinted-like biopolymeric micelles as efficient nanovehicles for curcumin delivery.
Colloids and Surfaces B: Biointerfaces, 123, 15-22, (2014)
Lin L et al., An l-dopa electrochemical sensor based on a graphene doped molecularly imprinted chitosan film.
Analytical Methods, 7, (4), 1387-1394, (2015)
Zhou J et al., Sensitive Artemisinin Electrochemical Sensor Based on Polymerized Molecularly Imprinted Membranes.
International Journal of Electrochemical Science, 11, 3114-3122, (2016)
Chen L et al., Sensitive detection of L-5-hydroxytryptophan based on molecularly imprinted polymers with graphene amplification.
Analytical Biochemistry, 526, 58-65, (2017)
Ma RT et al., Improved surface imprinting based on a simplified mass-transfer process for the selective extraction of IgG.
Journal of Materials Chemistry B, 5, (36), 7512-7518, (2017)
Sun XY et al., Erratum to: Boronate-affinity based magnetic molecularly imprinted nanoparticles for the efficient extraction of the model glycoprotein horseradish peroxidase.
Microchimica Acta, 184, (9), 3637-3637, (2017)
Sun XY et al., Boronate-affinity based magnetic molecularly imprinted nanoparticles for the efficient extraction of the model glycoprotein horseradish peroxidase.
Microchimica Acta, 184, (10), 3729-3737, (2017)
Guo P et al., Dummy-surface molecularly imprinted polymers as a sorbent of micro-solid-phase extraction combined with dispersive liquid-liquid microextraction for determination of five 2-phenylpropionic acid NSAIDs in aquatic environmental samples.
Analytical and Bioanalytical Chemistry, 410, (2), 373-389, (2018)
Sun XY et al., Magnetic boronate modified molecularly imprinted polymers on magnetite microspheres modified with porous TiO2 (Fe3O4@pTiO2@MIP) with enhanced adsorption capacity for glycoproteins and with wide operational pH range.
Microchimica Acta, 185, (12), Article565-(2018)
Sun XY et al., Synthesis of magnetic molecularly imprinted nanoparticles with multiple recognition sites for the simultaneous and selective capture of two glycoproteins.
Journal of Materials Chemistry B, 6, (4), 688-696, (2018)
Liu B et al., Differential potential ratiometric sensing platform for enantiorecognition of chiral drugs.
Analytical Biochemistry, 574, 39-45, (2019)
Ma RT et al., A fluorescent molecularly imprinted device for the on-line analysis of AFP in human serum.
Journal of Materials Chemistry B, 7, (40), 6187-6194, (2019)
Ion Exchange and Adsorption, 17, (4), 360-368, (2001)
Wang H et al., Preparation and characterization of theophylline crystal-imprinted polymers.
Acta Polymerica Sinica, 1, (2), 288-291, (2004)
Wang H et al., Studies on protein imprinted polymers.
Acta Polymerica Sinica, (4), 610-613, (2004)
Wang H et al., Advances in Molecularly Imprinted Polymers:From Small Molecules Towards Biological Macromolecules.
Chinese Polymer Bulletin, (1), 86-93, (2005)
Wang H et al., Preparation and Application of Molecularly Imprinted Polymers.
Chemical Industry and Engineering, 22, (5), 367-370, (2005)
Han RF et al., Separation/enrichment of active natural low content protein using protein imprinted polymer.
Journal of Chromatography B, 873, (1), 113-118, (2008)
Long Y et al., Molecular imprinted polymer with positively charged assistant recognition polymer chains for adsorption/enrichment of low content target protein.
Chinese Science Bulletin, 53, (17), 2617-2623, (2008)
Long Y et al., Two-step purification of low-content cellular protein using protein-imprinted polymers.
Analytical Biochemistry, 380, (2), 268-275, (2008)
Liu Y et al., Application of Molecular Imprinting and Fluorescence Analysis Techniques in Explosive Detection.
Progress In Chemistry, 21, (12), 2712-2717, (2009)
Sun Y et al., Polymerized organogel particles formed and imprinted by chiral gelators and their selective adsorption for phenylalanine racemates.
Soft Matter, 7, (2), 348-350, (2011)
Huangfu FY et al., Preparation and Imprinted Modes of Norfloxacin-Zinc(II) Imprinted Polymer.
Polymer Materials Science and Engineering, 28, (9), 166-170, (2012)
Sun Y et al., Synthesis of Norfloxacin-Zinc (II) Imprinted Polymer by Precipitation Polymerization and Study on Its Imprinting Form.
Acta Chimica Sinica, 70, (14), 1569-1575, (2012)
Sun Y et al., Study on Molecular Recognition Mechanism of Chiral (S)-Ibuprofen's Hydrogen Bonds Self-assembly Imprinted Polymer.
Chemical Journal of Chinese Universities, 33, (4), 838-842, (2012)
Huangfu FY et al., Synthesis of molecularly imprinted polymers for chiral (S)-ibuprofen and their molecular recognition mechanism.
Polymer-Korea, 37, (3), 288-293, (2013)
Huangfu FY et al., Preparation and Properties of the Norfloxacin-Zinc (II) Molecularly Imprinted Membrane Chromatography.
Polymer Materials Science and Engineering, 29, (6), 129-132, (2013)
Huangfu FY et al., Preparation of Molecularly Imprinted Polymer Based on Combinatorial Imprinted for Recognition of Norfloxacin.
Polymer-Plastics Technology and Engineering, 52, (10), 957-963, (2013)
Fan HT et al., Selective removal of antimony(III) from aqueous solution using antimony(III)-imprinted organic-inorganic hybrid sorbents by combination of surface imprinting technique with sol-gel process.
Chemical Engineering Journal, 258, 146-156, (2014)
Fan HT et al., Selective adsorption of antimony(III) from aqueous solution by ion-imprinted organic-inorganic hybrid sorbent: Kinetics, isotherms and thermodynamics.
Journal of the Taiwan Institute of Chemical Engineers, 45, (5), 2640-2648, (2014)
Li W et al., Fabrication of Surface Protein-Imprinted Nanoparticles Using a Metal Chelating Monomer via Aqueous Precipitation Polymerization.
ACS Applied Materials & Interfaces, 7, (49), 27188-27196, (2015)
Liu MX et al., Selective adsorption of lead(II) from aqueous solution by ion-imprinted PEI-functionalized silica sorbent: studies on equilibrium isotherm, kinetics, and thermodynamics.
Desalination and Water Treatment, 57, (7), 3270-3282, (2016)
Qu X et al., Selective extraction of bioactive glycoprotein in neutral environment through Concanavalin A mediated template immobilization and dopamine surface imprinting.
RSC Advances, 6, (89), 86455-86463, (2016)
Sun Y et al., Preparation of hemoglobin (Hb) imprinted polymer by Hb catalyzed eATRP and its application in biosensor.
Biosensors and Bioelectronics, 77, 894-900, (2016)
Sun Y et al., Preparation of hemoglobin imprinted polymers based on graphene and protein removal assisted by electric potential.
RSC Advances, 6, (66), 61897-61905, (2016)
Ashley J et al., Quantitative Detection of Trace Level Cloxacillin in Food Samples Using Magnetic Molecularly Imprinted Polymer Extraction and Surface-Enhanced Raman Spectroscopy Nanopillars.
Analytical Chemistry, 89, (21), 11484-11490, (2017)
Ashley J et al., Molecularly imprinted polymers for sample preparation and biosensing in food analysis: Progress and perspectives.
Biosensors and Bioelectronics, 91, 606-615, (2017)
Sun Y et al., Application of molecularly imprinted polymers for the analysis of polycyclic aromatic hydrocarbons in lipid matrix-based biological samples.
Analytical and Bioanalytical Chemistry, 409, (29), 6851-6860, (2017)
Sun Y et al., Interconnectivity of macroporous molecularly imprinted polymers fabricated by hydroxyapatite-stabilized Pickering high internal phase emulsions-hydrogels for the selective recognition of protein.
Colloids and Surfaces B: Biointerfaces, 155, 142-149, (2017)
Ashley J et al., Dispersive solid-phase imprinting of proteins for the production of plastic antibodies.
Chemical Communications, 54, (27), 3355-3358, (2018)
Ashley J et al., A multifunctional molecularly imprinted polymer-based biosensor for direct detection of doxycycline in food samples.
Talanta, 182, 49-54, (2018)
Feng XT et al., Fluorometric determination of doxycycline based on the use of carbon quantum dots incorporated into a molecularly imprinted polymer.
Microchimica Acta, 185, (11), ArticleNo500-(2018)
Feng XT et al., Molecularly imprinted nanoparticles for inhibiting ribonuclease in reverse transcriptase polymerase chain reaction.
Analyst, 143, (12), 2750-2754, (2018)
Feng XT et al., A facile molecularly imprinted polymer-based fluorometric assay for detection of histamine.
RSC Advances, 8, (5), 2365-2372, (2018)
Wang YM et al., Synthesis of thermo-responsive bovine hemoglobin imprinted nanoparticles by combining ionic liquid immobilization with aqueous precipitation polymerization.
Journal of Separation Science, 41, (3), 765-773, (2018)
Yu XL et al., Magnetic molecularly imprinted polymer nanoparticles for separating aromatic amines from azo dyes - Synthesis, characterization and application.
Separation and Purification Technology, 204, 213-219, (2018)
Zhang B et al., Proceeding, High-peformance bimetallic SPR sensor for ciprofloxacin based on molecularly imprinted polymer,
ArticleNo107280N, (2018)
Zhou TC et al., Detection of hemoglobin using hybrid molecularly imprinted polymers/carbon quantum dots-based nanobiosensor prepared from surfactant-free Pickering emulsion.
Talanta, 190, 443-449, (2018)
Zhou TC et al., Fluorescent Nanosensor Based on Molecularly Imprinted Polymers Coated on Graphene Quantum Dots for Fast Detection of Antibiotics.
Biosensors, 8, (3), ArticleNo82-(2018)
Sun Y et al., Fabrication of a thermal responsive hemoglobin (Hb) biosensor via Hb-catalyzed eATRP on the surface of ZnO nanoflowers.
Journal of Electroanalytical Chemistry, 848, Article113346-(2019)
Yang X et al., Controlled synthesis of PEGylated surface protein-imprinted nanoparticles.
Analyst, 144, (18), 5439-5448, (2019)
Naseri M et al., The Use of Aptamers and Molecularly Imprinted Polymers in Biosensors for Environmental Monitoring: A Tale of Two Receptors.
Chemosensors, 8, (2), ArticleNo32-(2020)
Sun Y et al., Preparation of hemoglobin (Hb)-imprinted poly(ionic liquid)s via Hb-catalyzed eATRP on gold nanodendrites.
Analytical and Bioanalytical Chemistry, 412, (4), 983-991, (2020)
Wang T et al., Camptothecin-imprinted polymer microspheres with rosin-based cross-linker for separation of camptothecin from Camptotheca acuminata fruit.
Separation and Purification Technology, 234, Article116085-(2020)
Yang YP et al., Mesoporous yolk-shell structure molecularly imprinted magnetic polymers for the extraction and detection of 17[beta]-estradiol.
Analytical Methods, 12, (4), 507-513, (2020)
Bai R et al., Preparation of IgG imprinted polymers by metal-free visible-light-induced ATRP and its application in biosensor.
Talanta, 226, Article122160-(2021)
Chen ZC et al., Structure, adsorption and separation comparison between the thermosensitive block segment polymer modified ReO4- ion imprinted polymer and traditional ReO4- ion imprinted polymer.
Reactive and Functional Polymers, 164, Article104929-(2021)
Liu L et al., Electrochemical sensor based on molecularly imprinted film for high sensitivity detection of clenbuterol prepared using sol-gel method.
International Journal of Electrochemical Science, 16, Article210411-(2021)
Sun Y et al., Preparation and evaluation of photo-responsive hollow SnO2 molecularly imprinted polymers for the selective recognition of kaempferol.
Analytical Methods, 13, (7), 925-932, (2021)
Sun Y et al., Adsorption properties and recognition mechanisms of a novel surface imprinted polymer for selective removal of Cu(II)-citrate complexes.
Journal of Hazardous Materials, 424, Article127735-(2022)
Journal of Radioanalytical and Nuclear Chemistry, 322, (2), 901-911, (2019)
Microchimica Acta, 187, (9), Article496-(2020)
Zhao JH et al., A photoelectrochemical sensor based on Z-Scheme TiO2@Au@CdS and molecularly imprinted polymer for uric acid detection.
Microchimica Acta, 188, (6), Article188-(2021)
Sensors and Actuators B: Chemical, 281, 107-114, (2019)
Sun YF et al., A selective molecularly imprinted electrochemical sensor with GO@COF signal amplification for the simultaneous determination of sulfadiazine and acetaminophen.
Sensors and Actuators B: Chemical, 300, Article126993-(2019)
Sun YF et al., Ultrasensitive determination of sulfathiazole using a molecularly imprinted electrochemical sensor with CuS microflowers as an electron transfer probe and Au@COF for signal amplification.
Food Chemistry, 332, Article127376-(2020)
Nano Letters, 4, (12), 2467-2471, (2004)
Journal of Instrumental Analysis, 27, (10), 1071-1074, (2008)
Shi ZL et al., A high sensitive and fully reversible chemiluminescence sensor based on molecularly imprinted polymers for determination of sulfadiazine in cattle and chicken tissues.
Chinese Journal of Analysis Laboratory, 31, (4), 110-114, (2012)
Xu SX et al., Microwave-assisted preparation of monolithic molecularly imprinted polymeric fibers for solid phase microextraction.
Analyst, 138, (10), 2982-2987, (2013)
Zhang XF et al., Sensitive detection of bisphenol A in complex samples by in-column molecularly imprinted solid-phase extraction coupled with capillary electrophoresis.
Microchemical Journal, 121, 1-5, (2015)
Li YQ et al., Graphene oxide as a sacrificial material for fabricating molecularly imprinted polymers via Pickering emulsion polymerization.
RSC Advances, 6, (78), 74654-74661, (2016)
Sun YH et al., Bio-inspired magnetic molecularly imprinted polymers based on Pickering emulsions for selective protein recognition.
New Journal of Chemistry, 40, (10), 8745-8752, (2016)
Sun YH et al., Nanoscale trifunctional bovine hemoglobin for fabricating molecularly imprinted polydopamine via Pickering emulsions-hydrogels polymerization.
Colloids and Surfaces B: Biointerfaces, 159, 131-138, (2017)
Sun YH et al., Molecularly imprinted polymers fabricated via Pickering emulsions stabilized solely by food-grade casein colloidal nanoparticles for selective protein recognition.
Analytical and Bioanalytical Chemistry, 410, (13), 3133-3143, (2018)
Sun YH et al., Molecularly imprinted polymers fabricated using Janus particle-stabilized Pickering emulsions and charged monomer polymerization.
New Journal of Chemistry, 42, (9), 7355-7363, (2018)
Xu JF et al., Novel application of amphiphilic block copolymers in Pickering emulsions and selective recognition of proteins.
New Journal of Chemistry, 42, (4), 3028-3034, (2018)
Sun YH et al., Molecularly imprinted polymers fabricated by Pickering emulsion polymerization for the selective adsorption and separation of quercetin from Spina Gleditsiae.
New Journal of Chemistry, 43, (37), 14747-14755, (2019)
Acta Pharmaceutica Sinica, 46, (2), 132-137, (2011)
Duan FF et al., Preparation and Evaluation of Water-Compatible Surface Molecularly Imprinted Polymers for Selective Adsorption of Bisphenol A from Aqueous Solution.
Industrial & Engineering Chemistry Research, 53, (37), 14291-14300, (2014)
Han JY et al., Preliminary investigations into surface molecularly imprinted nanoparticles for Helicobacter pylori eradication.
Acta Pharmaceutica Sinica B, 5, (6), 577-582, (2015)
Wang YX et al., Preparation of lysozyme imprinted magnetic nanoparticles via surface graft copolymerization.
Journal of Biomaterials Science-Polymer Edition, 26, (11), 644-656, (2015)
Journal of Radioanalytical and Nuclear Chemistry, 295, (1), 265-270, (2013)
Zhang CJ et al., Kinetics of photocatalytic degradation of atrazine on molecularly imprinted titania film.
Asia-Pacific Journal of Chemical Engineering, 8, (3), 318-322, (2013)
Jia M et al., Improvement of imprinting effect of ionic liquid molecularly imprinted polymers by use of a molecular crowding agent.
Analytical and Bioanalytical Chemistry, 410, (2), 595-604, (2018)
Sun YK et al., A strategy of utilizing Zn(II) as metallic pivot in room temperature ionic liquid to prepare molecularly imprinted polymers for compound with intramolecular hydrogen bonds.
Analytical and Bioanalytical Chemistry, 410, (2), 349-359, (2018)
Sun YK et al., Cost-effective imprinting to minimize consumption of template in room-temperature ionic liquid for fast purification of chlorogenic acid from the extract of E. ulmoides leaves.
Analytical and Bioanalytical Chemistry, 411, (6), 1261-1271, (2019)
Yang J et al., Improving performance of molecularly imprinted polymers prepared with template of low purity utilizing the strategy of macromolecular crowding.
Journal of Chromatography A, 1624, Article461155-(2020)
Zhang X et al., Improving imprinting effect by reducing sites embedding: Selective extraction of 1, 2, 3, 4, 6-penta-O-galloyl-[beta]-d-glucose from Paeonia lactiflora Pall by hydrophilic molecularly imprinted polymers based on macromonomer and metal ion pivot.
Microchemical Journal, 158, Article105140-(2020)
Journal of Chemical Sciences, 126, (4), 1005-1011, (2014)
Duan HM et al., An ultrasensitive lysozyme chemiluminescence biosensor based on surface molecular imprinting using ionic liquid modified magnetic graphene oxide/[beta]-cyclodextrin as supporting material.
Analytica Chimica Acta, 918, 89-96, (2016)
Duan HM et al., An efficient Horseradish peroxidase chemiluminescence biosensor with surface imprinting based on phenylboronic acid functionalized ionic liquid@magnetic graphene oxide.
Sensors and Actuators B: Chemical, 236, 44-51, (2016)
Fei JJ et al., Preparation of a novel amino functionalized ion-imprinted hybrid monolithic column for the selective extraction of trace copper followed by ICP-MS detection.
Analytica Chimica Acta, 1162, Article338477-(2021)
Journal of Analytical Science, 27, (5), 661-664, (2012)
Cai LG et al., Preparation and Characterization of Porous Molecularly Imprinted Composite Membrane with Sudan I as the Template.
Food Science, 34, (18), 70-74, (2013)
Xu XY et al., Molecularly imprinted polymer based surface plasmon resonance sensors for detection of Sudan dyes.
Analytical Methods, 6, (11), 3751-3757, (2014)
Tang XJ et al., A novel Cd2+-imprinted chitosan-based composite membrane for Cd2+ removal from aqueous solution.
Materials Letters, 198, 121-123, (2017)
Wu YL et al., Dual-imprinted mixed matrix membranes for selective recognition and separation: A synergetic imprinting strategy based on complex initiation system.
Journal of Colloid and Interface Science, 606, 87-100, (2022)
Journal of Rare Earths, 23, (Supplement 1), 581-592, (2005)
Li XZ et al., Evaluation of ionic imprinted polymers by electrochemical recognition of rare earth ions.
Hydrometallurgy, 87, (1-2), 63-71, (2007)
Journal of Inorganic and Organometallic Polymers and Materials, 18, (4), 477-484, (2008)
Electroanalysis, 24, (7), 1647-1654, (2012)
Li YT et al., Electrochemical fabrication of reduced MoS2-based portable molecular imprinting nanoprobe for selective SERS determination of theophylline.
Microchimica Acta, 187, (4), Article203-(2020)
Journal of Chromatography A, 1361, 53-59, (2014)
Gan T et al., Highly sensitive and molecular selective electrochemical sensing of 6-benzylaminopurine with multiwall carbon nanotube@SnS2-assisted signal amplification.
Journal of Applied Electrochemistry, 46, (3), 389-401, (2016)
Li CG et al., Purification and identification of an actinomycin D analogue from actinomycetes associated with Ganoderma applanatum via magnetic molecularly imprinted polymers and tandem mass spectrometry.
Food and Chemical Toxicology, 119, 150-160, (2018)
Talanta, 226, Article122160-(2021)
Analytica Chimica Acta, 620, (1-2), 73-81, (2008)
Sai N et al., Molecular imprinted opal closest-packing photonic crystals for the detection of trace 17[beta]-estradiol in aqueous solution.
Talanta, 144, 157-162, (2015)
Sai N et al., A novel enrichment imprinted crystalline colloidal array for the ultratrace detection of chloramphenicol.
Talanta, 161, 1-7, (2016)
Tian Y et al., Preparation of Ampicillin Surface Molecularly Imprinted Polymers for Its Selective Recognition of Ampicillin in Eggs Samples.
International Journal of Analytical Chemistry, 2018, ArticleID5897381-(2018)
Zhou YQ et al., Preparation of Imazethapyr Surface Molecularly Imprinted Polymers for Its Selective Recognition of Imazethapyr in Soil Samples.
Journal of Analytical Methods in Chemistry, 2018, ArticleID7535417-(2018)
Li JM et al., Preparation of restricted access media molecularly imprinted polymers for efficient separation and enrichment ofloxacin in bovine serum samples.
Journal of Separation Science, 42, (15), 2491-2499, (2019)
Sai N et al., A novel photonic sensor for the detection of chloramphenicol.
Arabian Journal of Chemistry, 12, (8), 4398-4406, (2019)
Sun Z et al., A restricted access molecularly imprinted polymer coating on metal-organic frameworks for solid-phase extraction of ofloxacin and enrofloxacin from bovine serum.
RSC Advances, 9, (48), 27953-27960, (2019)
Wang X et al., Preparation of Ofloxacin-Restricted Access Media-Molecularly Imprinted Polymers for Its Selective Recognition of Ofloxacin in Milk Samples.
Chromatographia, 82, (7), 1041-1050, (2019)
Zhao SW et al., Molecularly imprinted polymer coating on metal-organic frameworks for solid-phase extraction of fluoroquinolones from water.
Journal of Separation Science, 42, (21), 3302-3310, (2019)
Li JM et al., Restricted access media-imprinted nanomaterials based on a metal-organic framework for highly selective extraction of fluoroquinolones in milk and river water.
Journal of Chromatography A, 1626, Article461364-(2020)
Zhao SW et al., Novel metal-organic framework combining with restricted access molecularly imprinted nanomaterials for solid-phase extraction of gatifloxacin from bovine serum.
Journal of Chromatography B, 1157, Article122338-(2020)
Zhou YQ et al., Restricted access magnetic imprinted microspheres for directly selective extraction of tetracycline veterinary drugs from complex samples.
Journal of Chromatography A, 1613, Article460684-(2020)
Zhao YJ et al., A novel molecularly imprinted polymer electrochemiluminescence sensor based on Fe2O3@Ru(bpy)32+ for determination of clenbuterol.
Sensors and Actuators B: Chemical, 350, Article130822-(2022)
Chinese Journal of Chromatography, 36, (8), 716-722, (2018)
Modern Food Science and Technology, 31, (9), 132-137, (2015)
Si HT et al., Synthesis of magnetic molecularly imprinted nanoparticles and their selective adsorption for dibenzothiophene.
Journal of Functional Materials, 47, (S1), 188-192, (2016)
Sun ZC et al., Preparation of Cadmium(II) Ion Imprinted Polymer Microspheres by Seedball Swelling Suspension Polymerization.
Chinese Journal of Materials Research, 30, (9), 669-674, (2016)
Analytical Letters, 45, (18), 2717-2727, (2012)
Sun ZH et al., Sensitivity Enhancement of Graphene Doped Molecular Imprinting Electrochemical Sensors.
Journal of Huaqiao University (Natural Science), 33, (4), 401-407, (2012)
Acta Chimica Sinica, 68, (24), 2600-2608, (2010)
Chinese Journal of Chemistry, 29, (10), 2134-2140, (2011)
Physical Chemistry Chemical Physics, 15, (40), 17250-17256, (2013)
ACS Applied Materials & Interfaces, 7, (28), 15474-15480, (2015)
Analyst, 113, (10), 1525-1528, (1988)
Applied Chemical Industry, 39, (9), 1401-1404, 418, (2010)
Zhang XH et al., Novel Biomimic Crystalline Colloidal Array for Fast Detection of Trace Parathion.
ACS Sensors, 2, (7), 1013-1019, (2017)
Biosensors and Bioelectronics, 26, (2), 458-462, (2010)
Sunayama H et al., Molecularly imprinted materials: Applications to fluorescent sensing systems.
Kobunshi, 61, (6), 406-409, (2012)
Inoue Y et al., Fluorescent molecularly imprinted polymer thin films for specific protein detection prepared with dansyl ethylenediamine-conjugated O-acryloyl l-hydroxyproline.
Biosensors and Bioelectronics, 48, 113-119, (2013)
Suga Y et al., Molecularly imprinted polymers prepared using protein-conjugated cleavable monomers followed by site-specific post-imprinting introduction of fluorescent reporter molecules.
Chemical Communications, 49, (76), 8450-8452, (2013)
Sunayama H et al., Molecularly Imprinted Protein Recognition Cavities Bearing Exchangeable Binding Sites for Postimprinting Site-Directed Introduction of Reporter Molecules for Readout of Binding Events.
ACS Applied Materials & Interfaces, 6, (22), 20003-20009, (2014)
Sunayama H et al., Fluorescent protein-imprinted polymers capable of signal transduction of specific binding events prepared by a site-directed two-step post-imprinting modification.
Chemical Communications, 50, (11), 1347-1349, (2014)
Takeuchi T et al., Conjugated-Protein Mimics with Molecularly Imprinted Reconstructible and Transformable Regions that are Assembled Using Space-Filling Prosthetic Groups.
Angewandte Chemie International Edition, 53, (47), 12765-12770, (2014)
Takeuchi T et al., Book chapter, Molecularly Imprinted Polymers,
In: Encyclopedia of Polymeric Nanomaterials, Kobayashi S, Müllen K (Eds.) Springer: Berlin, Heidelberg, 1-5, (2014)
Taguchi H et al., Preparation of molecularly imprinted polymers for the recognition of proteins via the generation of peptide-fragment binding sites by semi-covalent imprinting and enzymatic digestion.
Analyst, 140, (5), 1448-1452, (2015)
Takeuchi T et al., Book chapter, Molecularly Imprinted Polymers,
In: Encyclopedia of Polymeric Nanomaterials, Kobayashi S, Müllen K (Eds.) Springer: Berlin, Heidelberg, 1291-1295, (2015)
Takeuchi T et al., Book chapter, Post-imprinting and In-Cavity Functionalization,
In: Molecularly Imprinted Polymers in Biotechnology, Mattiasson B, Ye L (Eds.) Springer: Berlin, Heidelberg, Ch. 4, 95-106, (2015)
Horikawa R et al., A Programmable Signaling Molecular Recognition Nanocavity Prepared by Molecular Imprinting and Post-Imprinting Modifications.
Angewandte Chemie International Edition, 55, (42), 13023-13027, (2016)
Murase N et al., Molecularly imprinted polymers bearing spiropyran-based photoresponsive binding sites capable of photo-triggered switching for molecular recognition activity.
Journal of Polymer Science Part B: Polymer Physics, 54, (16), 1637-1644, (2016)
Sunayama H et al., Fluorescence signaling molecularly imprinted polymers for antibiotics prepared via site-directed post-imprinting introduction of plural fluorescent reporters within the recognition cavity.
Journal of Materials Chemistry B, 4, (44), 7138-7145, (2016)
Takeuchi T et al., Preparation of Multi-Functional Molecularly Imprinted Polymer Receptors via Post-Imprinting Modifications.
Kobunshi Ronbunshu, 73, (1), 19-29, (2016)
Nakai S et al., Regioselective Molecularly Imprinted Reaction Field for [4 + 4] Photocyclodimerization of 2-Anthracenecarboxylic Acid.
Langmuir, 33, (9), 2103-2108, (2017)
Suda N et al., Oriented, molecularly imprinted cavities with dual binding sites for highly sensitive and selective recognition of cortisol.
Royal Society Open Science, 4, (8), ArticleNo170300-(2017)
Mori K et al., A Pretreatment-Free, Polymer-Based Platform Prepared by Molecular Imprinting and Post-Imprinting Modifications for Sensing Intact Exosomes.
Angewandte Chemie International Edition, 58, (6), 1612-1615, (2018)
Sunayama H et al., Regulation of protein-binding activities of molecularly imprinted polymers via post-imprinting modifications to exchange functional groups within the imprinted cavity.
Journal of Molecular Recognition, 31, (3), ArticleNoe2633-(2018)
Takeuchi T et al., Beyond natural antibodies - a new generation of synthetic antibodies created by post-imprinting modification of molecularly imprinted polymers.
Chemical Communications, 54, (49), 6243-6251, (2018)
Morishige T et al., Post-Imprinting-Modified Molecularly Imprinted Nanocavities with Two Synergetic, Orthogonal, Glycoprotein-Binding Sites to Transduce Binding Events into Fluorescence Changes.
ChemNanoMat, 5, (2), 224-229, (2019)
Saeki T et al., Orientationally Fabricated Zwitterionic Molecularly Imprinted Nanocavities for Highly Sensitive Glycoprotein Recognition.
Langmuir, 35, (5), 1320-1326, (2019)
Cheubong C et al., Molecularly Imprinted Nanogels Capable of Porcine Serum Albumin Detection in Raw Meat Extract for Halal Food Control.
Analytical Chemistry, 92, (9), 6401-6407, (2020)
Cheubong C et al., Molecularly imprinted polymer nanogel-based fluorescence sensing of pork contamination in halal meat extracts.
Biosensors and Bioelectronics, 172, Article112775-(2021)
Ikegami T et al., In Silico Characterization of Binding Properties on a Molecularly Imprinted Polymer.
Bunseki Kagaku, 70, (3), 111-124, (2021)
Sunayama H et al., Protein-imprinted polymer films prepared via cavity-selective multi-step post-imprinting modifications for highly selective protein recognition.
Analytical and Bioanalytical Chemistry, 413, (24), 6183-6189, (2021)
Sunayama H et al., Multi-Functional Nanocavities Fabricated Using Molecular Imprinting and Post-Imprinting Modifications for Efficient Biomarker Detection.
Chromatography, 42, (2), 73-81, (2021)
Sunayama H et al., Simultaneous Detection of Two Tumor Marker Proteins Using Dual-Colored Signaling Molecularly Imprinted Polymers Prepared via Multi-Step Post-Imprinting Modifications.
Bulletin of the Chemical Society of Japan, 94, (2), 525-531, (2021)
Abstracts of Papers of the American Chemical Society, 208, (OLY), 469-469, (1994)
Chen G et al., A glucose sensing polymer.
Abstracts of Papers of the American Chemical Society, 213, (ANYL), 176-176, (1997)
Chen GH et al., A glucose-sensing polymer.
Abstracts of Papers of the American Chemical Society, 213, (MSE), 234-234, (1997)
Chen GH et al., A glucose-sensing polymer.
Nature Biotechnology, 15, (4), 354-357, (1997)
Arnold FH et al., Book chapter, Chiral ligand exchange adsorbents for amines and underivatized amino acids: "bait-and-switch" molecular imprinting,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 7, 109-118, (1998)
Scientific Reports, 11, (1), Article20831-(2021)
Sundhoro M et al., An electrochemical molecularly imprinted polymer sensor for rapid and selective food allergen detection.
Food Chemistry, 344, Article128648-(2021)
Talanta, 159, 74-79, (2016)
Prutthiwanasan B et al., Improved resolution of fluoroquinolones using cetyltrimethyl ammonium bromide-micellar electrokinetic chromatography and its application to residue analysis in surface water.
Journal of Chromatography B, 1092, 306-312, (2018)
Journal of Food Safety and Quality, 5, (11), 3587-3591, (2014)
Chen NN et al., Synthesis of molecularly imprinted polymers by atom transfer radical polymerization for the solid-phase extraction of phthalate esters in edible oil.
Journal of Separation Science, 40, (6), 1327-1333, (2017)
Journal of Chromatography A, 1526, 23-30, (2017)
Analytical Methods, 4, (6), 1813-1819, (2012)
Gao B et al., Computational simulation and preparation of fluorescent magnetic molecularly imprinted silica nanospheres for ciprofloxacin or norfloxacin sensing.
Journal of Separation Science, 37, (24), 3753-3759, (2014)
Microchimica Acta, 185, (6), 300-(2018)
Spectroscopy and Spectral Analysis, 31, (6), 1702-1706, (2011)
Electrochimica Acta, 381, Article138236-(2021)
Zhang XR et al., Out of Pocket
Procedia Engineering, 170, 84-87, (2017)
Journal of Chemical and Pharmaceutical Research, 6, (11), 305-311, (2014)
Journal of Environmental Chemical Engineering, 6, (2), 3436-3443, (2018)
Neolaka YAB et al., Characterization, isotherm, and thermodynamic data for selective adsorption of Cr(VI) from aqueous solution by Indonesia (Ende-Flores) natural zeolite Cr(VI)-imprinted-poly(4-VP-co-EGDMA)-ANZ (IIP-ANZ).
Data in Brief, 17, 1020-1029, (2018)
Neolaka YAB et al., Characterization, kinetic, and isotherm data for Cr(VI) removal from aqueous solution by Cr(VI)-imprinted poly(4-VP-co-MMA) supported on activated Indonesia (Ende-Flores) natural zeolite structure.
Data in Brief, 17, 969-979, (2018)
Wirawan T et al., Synthesis, characterization, and application of novel Zn(II)-ionic imprinted polymer for preconcentration of Zn(II) ions from aqueous solution.
IOP Conference Series: Materials Science and Engineering, 349, (1), ArticleNo012064-(2018)
Wirawan T et al., Adsorption of Zinc(II) onto Zn(II)-Ionic Imprinted Polymer.
IOP Conference Series: Materials Science and Engineering, 546, (2), Article022036-(2019)
Neolaka YAB et al., A Cr(VI)-imprinted-poly(4-VP-co-EGDMA) sorbent prepared using precipitation polymerization and its application for selective adsorptive removal and solid phase extraction of Cr(VI) ions from electroplating industrial wastewater.
Reactive and Functional Polymers, 147, Article104451-(2020)
Journal of Electroanalytical Chemistry, 801, 114-121, (2017)
Suquila FAC et al., Restricted access copper imprinted poly(allylthiourea): The role of hydroxyethyl methacrylate (HEMA) and bovine serum albumin (BSA) on the sorptive performance of imprinted polymer.
Chemical Engineering Journal, 350, 714-728, (2018)
da Silva RCS et al., Assessment of surfactants on performance of molecularly imprinted polymer toward adsorption of pharmaceutical.
Journal of Environmental Chemical Engineering, 7, (2), Article103037-(2019)
de Oliveira LLG et al., Synthesis and application of restricted access material-ion imprinted poly(allylthiourea) for selective separation of Cd2+ and humic acid exclusion.
Reactive and Functional Polymers, 134, 93-103, (2019)
Suquila FAC et al., Performance of restricted access copper-imprinted poly(allylthiourea) in an on-line preconcentration and sample clean-up FIA-FAAS system for copper determination in milk samples.
Talanta, 202, 460-468, (2019)
de Oliveira LLG et al., Restricted access material-ion imprinted polymer-based method for on-line flow preconcentration of Cd2+ prior to flame atomic absorption spectrometry determination.
Microchemical Journal, 157, Article105022-(2020)
Tarley CRT et al., Development of selective preconcentration/clean-up method for imidazolinone herbicides determination in natural water and rice samples by HPLC-PAD using an imazethapyr imprinted poly(vinylimidazole-TRIM).
Food Chemistry, 334, Article127345-(2021)
ACS Omega, 6, (41), 27007-27016, (2021)
1-4, (2013)
International Journal of Molecular Sciences, 15, (4), 6111-6136, (2014)
Surikumaran H et al., [beta]-Cyclodextrin Based Molecularly Imprinted Solid Phase Extraction for Class Selective Extraction of Priority Phenols in Water Samples.
Separation Science and Technology, 50, (15), 2342-2351, (2015)
Surikumaran H et al., Synthesis and evaluation of methacrylic acid functionalized [beta]-cyclodextrin based molecular imprinted polymer for 2, 4-dichlorophenol in water samples.
Desalination and Water Treatment, 57, (1), 254-267, (2016)
Journal of Chromatography A, 1364, 128-139, (2014)
Analytical Chemistry, 81, (7), 2633-2643, (2009)
Pietrzyk A et al., Molecularly imprinted poly[bis(2, 2'-bithienyl)methane] film with built-in molecular recognition sites for a piezoelectric microgravimetry chemosensor for selective determination of dopamine.
Bioelectrochemistry, 80, (1), 62-72, (2010)
Pietrzyk A et al., Molecularly imprinted polymer (MIP) based piezoelectric microgravimetry chemosensor for selective determination of adenine.
Biosensors and Bioelectronics, 25, (11), 2522-2529, (2010)
Nicholls IA et al., Rational design of biomimetic molecularly imprinted materials: theoretical and computational strategies for guiding nanoscale structured polymer development.
Analytical and Bioanalytical Chemistry, 400, (6), 1771-1786, (2011)
Suriyanarayanan S et al., Book chapter, Chemosensors Based on Molecularly Imprinted Polymers,
In: Molecular Imprinting, Haupt K (Ed.) Springer: Berlin / Heidelberg, 165-265, (2012)
Suriyanarayanan S et al., Biotinyl moiety-selective polymer films with highly ordered macropores.
Chemical Communications, 49, (46), 5274-5276, (2013)
Elmlund L et al., Biotin selective polymer nano-films.
Journal of Nanobiotechnology, 12, (March), Article No 8-(2014)
Suriyanarayanan S et al., Hierarchical Thin Film Architectures for Enhanced Sensor Performance: Liquid Crystal-Mediated Electrochemical Synthesis of Nanostructured Imprinted Polymer Films for the Selective Recognition of Bupivacaine.
Biosensors, 4, (2), 90-110, (2014)
Nicholls IA et al., Book chapter, Theoretical and Computational Strategies for the Study of the Molecular Imprinting Process and Polymer Performance,
In: Molecularly Imprinted Polymers in Biotechnology, Mattiasson B, Ye L (Eds.) Springer: Berlin, Heidelberg, Ch. 2, 25-50, (2015)
Suriyanarayanan S et al., Electrochemically synthesized molecularly imprinted polythiophene nanostructures as recognition elements for an aspirin-chemosensor.
Sensors and Actuators B: Chemical, 253, 428-436, (2017)
Ndizeye N et al., Hierarchical polymeric architectures through molecular imprinting in liquid crystalline environments.
European Polymer Journal, 106, 223-231, (2018)
Nicholls IA et al., Book chapter, Theoretical and Computational Strategies in Molecularly Imprinted Polymer Development,
In: Molecularly Imprinted Polymers for Analytical Chemistry Applications, Kutner W, Sharma PS (Eds.) Royal Society of Chemistry: Ch. 7, 197-226, (2018)
Nilsson SME et al., Enantioselective hyperporous molecularly imprinted thin film polymers.
RSC Advances, 9, (58), 33653-33656, (2019)
Nicholls IA et al., The Use of Computational Methods for the Development of Molecularly Imprinted Polymers.
Polymers, 13, (17), ArticleNo2841-(2021)
Analyst, 125, (1), 13-16, (2000)
Surugiu I et al., Development of a flow injection capillary chemiluminescent ELISA using an imprinted polymer instead of the antibody.
Analytical Chemistry, 73, (17), 4388-4392, (2001)
Surugiu I et al., Chemiluminescence imaging ELISA using an imprinted polymer as the recognition element instead of an antibody.
Analytical Chemistry, 73, (3), 487-491, (2001)
Surugiu I et al., Biomimetic arrays for optical multisensing.
Abstracts of Papers of the American Chemical Society, 221, (AGRO), 60-60, (2001)
Svitel J et al., Functionalized surfaces for optical biosensors: Applications to in vitro pesticide residual analysis.
Journal of Materials Science: Materials in Medicine, 12, (10-12), 1075-1078, (2001)
Ye L et al., Scintillation proximity assay using molecularly imprinted microspheres.
Analytical Chemistry, 74, (5), 959-964, (2002)
RSC Advances, 10, (22), 12823-12832, (2020)
Polymers for Advanced Technologies, 33, (1), 221-234, (2022)
Biosensors and Bioelectronics, 21, (12), 2339-2344, (2006)
Prathish KP et al., Molecularly imprinted polymer-based potentiometric sensor for degradation product of chemical warfare agents: Part I. Methylphosphonic acid.
Talanta, 71, (5), 1976-1980, (2007)
Analytica Chimica Acta, 633, (1), 119-126, (2009)
Suryanarayanan V et al., Molecularly Imprinted Electrochemical Sensors.
Electroanalysis, 22, (16), 1795-1811, (2010)
Indonesian Journal of Pharmaceutical Science and Technology, 6, (1), 27-35, (2019)
Progress in Polymer Science, 34, (1), 62-98, (2009)
Nature, 418, (6896), 399-403, (2002)
Zimmerman SC et al., Molecular imprinting inside dendrimers.
Journal of the American Chemical Society, 125, (44), 13504-13518, (2003)
Askim JR et al., Optical sensor arrays for chemical sensing: the optoelectronic nose.
Chemical Society Reviews, 42, (22), 8649-8682, (2013)
RSC Advances, 5, (95), 78379-78388, (2015)
Susmel S et al., Selectivity and Efficiency of Conductive Molecularly Imprinted Polymer (c-MIP) Based on 5-Phenyl-Dipyrromethane and 5-Phenol-Dipyrromethane for Quorum Sensing Precursors Detection.
Chemosensors, 5, (1), ArticleNo5-(2017)
Chemistry - A European Journal, 16, (21), 6352-6364, (2010)
Biosensors, 4, (2), 161-171, (2014)
Samardzic R et al., Quartz Crystal Microbalance In-Line Sensing of Escherichia Coli in a Bioreactor Using Molecularly Imprinted Polymers.
Sensor Letters, 12, (6-7), 1152-1155, (2014)
Phan NVH et al., Combined Layer/Particle Approaches in Surface Molecular Imprinting of Proteins: Signal Enhancement and Competition.
Sensors, 18, (1), ArticleNo180-(2018)
Latif U et al., Molecular Imprinted Based Quartz Crystal Microbalance Sensors for Bacteria and Spores.
Chemosensors, 8, (3), ArticleNo64-(2020)
Chemical Engineering Journal, 315, 459-468, (2017)
Lowdon JW et al., Engineering molecularly imprinted polymers (MIPs) for the selective extraction and quantification of the novel psychoactive substance (NPS) methoxphenidine and its regioisomers.
Analyst, 143, (9), 2002-2007, (2018)
International Journal of ChemTech Research, 1, (4), 1052-1057, (2009)
ACS Sensors, 1, (3), 258-264, (2016)
Guerreiro JRL et al., A saliva molecular imprinted localized surface plasmon resonance biosensor for wine astringency estimation.
Food Chemistry, 233, 457-466, (2017)
Forensic Science International, 231, (1-3), 317-324, (2013)
International Journal on Advanced Science, Engineering and Information Technology, 7, (2), 662-668, (2017)
Bow Y et al., Proceeding, Preparation of molecularly imprinted polymers simazine as material potentiometric sensor,
ArticleNo01002, (2017)
Journal of Environmental Science and Health, Part B, 53, (11), 738-745, (2018)
Journal of Environmental Science and Health, Part B, 53, (11), 738-745, (2018)
Process Biochemistry, 50, (10), 1537-1556, (2015)
Polymers for Advanced Technologies, 29, (12), 3134-3141, (2018)
Phungpanya C et al., Synthesis of prednisolone molecularly imprinted polymer nanoparticles by precipitation polymerization.
Polymers for Advanced Technologies, 29, (12), 3075-3084, (2018)
Separation Science and Technology, 49, (7), 1086-1095, (2014)
Larpant N et al., Exploring Matrix Effects on Binding Properties and Characterization of Cotinine Molecularly Imprinted Polymer on Paper-Based Scaffold.
Polymers, 11, (3), ArticleNo570-(2019)
Suwanwong Y et al., Molecularly imprinted polymers for the extraction and determination of water-soluble vitamins: A review from 2001 to 2020.
European Polymer Journal, 161, Article110835-(2021)
Journal of Chemical and Pharmaceutical Research, 6, (9), 65-70, (2014)
unknown source, (2000)
Suzuki A et al., Design of catalytic sites at oxide surfaces by metal-complex attaching and molecular imprinting techniques.
Journal of Molecular Catalysis A: Chemical, 182-183, (1), 125-136, (2002)
Ide T et al., Lanthanide selective adsorption by ion-imprinted polymer with chelidonic acid monoamide groups.
Separation Science and Technology, 51, (18), 2887-2895, (2016)
Bunseki Kagaku, 52, (12), 1141-1146, (2003)
Fuchiwaki Y et al., 6-Chloro-N, N-Diethyl-1, 3, 5-Triazine-2, 4-Diamine (Simazine) Electrochemical Sensing Chip Based on Biomimetic Recognition Utilizing a Molecularly Imprinted Polymer Layer on a Gold Chip.
Analytical Letters, 41, (8), 1398-1407, (2008)
Kubo I et al., Atrazine sensing chip based on molecularly imprinted polymer layer.
Electrochemistry, 76, (8), 541-544, (2008)
Uchiyamada K et al., Directional Coupler Biosensor with Molecularly Imprinted Polymer.
Sensors and Materials, 30, (5), 1009-1017, (2018)
Uchiyamada K et al., Perforated Bimodal Interferometric Biosensor for Affinity Sensing.
Advanced Materials Technologies, 4, (9), Article1800533-(2019)
Bulletin of the Chemical Society of Japan, 61, (11), 3991-3998, (1988)
Teraguchi M et al., Enantioselective permeation through membranes of chiral helical polymers prepared by depinanylsilylation of poly(diphenylacetylene) with a high content of the pinanylsilyl group.
Macromolecules, 36, (26), 9694-9697, (2003)
Analytical Chemistry, 65, (17), 2223-2224, (1993)
Suzuki M et al., Preparation of porous polymers by "in situ precipitation" using low molecular weight gelators.
Polymer Journal, 34, (6), 474-(2002)
Journal of Separation Science, 35, (5-6), 726-733, (2012)
Journal of Electroanalytical Chemistry, 473, (1-2), 145-155, (1999)
Djourelov N et al., Positron annihilation lifetime spectroscopy of molecularly imprinted hydroxyethyl methacrylate based polymers.
Polymer, 48, (9), 2692-2699, (2007)
Shiraishi Y et al., Selective photooxidation of chlorophenols with molecularly imprinted polymers containing a photosensitizer.
New Journal of Chemistry, 34, (4), 714-717, (2010)
Advances in Colloid and Interface Science, 147-148, 88-108, (2009)
Quimica Analitica, 18, (Suppl 1), 20-22, (1999)
Al-Kindy S et al., Molecularly imprinted polymers and optical sensing applications.
Critical Reviews in Analytical Chemistry, 30, (4), 291-309, (2000)
Suárez-Rodríguez JL et al., Flavonol fluorescent flow-through sensing based on a molecular imprinted polymer.
Analytica Chimica Acta, 405, (1-2), 67-76, (2000)
Suárez-Rodríguez JL et al., Fluorescent competitive flow-through assay for chloramphenicol using molecularly imprinted polymers.
Biosensors and Bioelectronics, 16, (9-12), 955-961, (2001)
Biosensors, 8, (2), ArticleNo35-(2018)
TrAC Trends in Analytical Chemistry, 19, (11), 676-698, (2000)
Svec F et al., Monolithic stationary phases for capillary electrochromatography based on synthetic polymers: Designs and applications.
HRC - Journal of High Resolution Chromatography, 23, (1), 3-18, (2000)
Svec F et al., Design of the monolithic polymers used in capillary electrochromatography columns.
Journal of Chromatography A, 887, (1-2), 3-29, (2000)
Hilder EF et al., Polymeric monolithic stationary phases for capillary electrochromatography.
Electrophoresis, 23, (22-23), 3934-3953, (2002)
Hilder EF et al., Development and application of polymeric monolithic stationary phases for capillary electrochromatography.
Journal of Chromatography A, 1044, (1-2), 3-22, (2004)
Svec F, Less common applications of monoliths: Preconcentration and solid-phase extraction.
Journal of Chromatography B, 841, (1-2), 52-64, (2006)
Lv YQ et al., Molecular imprinting of proteins in polymers attached to the surface of nanomaterials for selective recognition of biomacromolecules.
Biotechnology Advances, 31, (8), 1172-1186, (2013)
Lv YQ et al., Molecularly imprinted plasmonic nanosensor for selective SERS detection of protein biomarkers.
Biosensors and Bioelectronics, 80, 433-441, (2016)
Wen LY et al., Smart Lhotská I et al., Preparation of citrinin-selective molecularly imprinted polymer and its use for on-line solid-phase extraction coupled to liquid chromatography.
Analytical and Bioanalytical Chemistry, 411, (11), 2395-2404, (2019)
Novosvetská L et al., Fully automated method based on on-line molecularly imprinted polymer solid-phase extraction for determination of lovastatin in dietary supplements containing red yeast rice.
Analytical and Bioanalytical Chemistry, 411, (6), 1219-1228, (2019)
Kholová A et al., Comparison study of nanofibers, composite nano/microfiber materials, molecularly imprinted polymers, and core-shell sorbents used for on-line extraction-liquid chromatography of ochratoxins in Tokaj wines.
Microchemical Journal, 170, Article106680-(2021)
Journal of Molecular Recognition, 11, (1-6), 83-86, (1998)
Adbo K et al., Enantioselective Tröger's base synthetic receptors.
Bioorganic Chemistry, 27, (5), 363-371, (1999)
Nicholls IA et al., Can we rationally design molecularly imprinted polymers?
Analytica Chimica Acta, 435, (1), 9-18, (2001)
Svenson J et al., On the thermal and chemical stability of molecularly imprinted polymers.
Analytica Chimica Acta, 435, (1), 19-24, (2001)
Svenson J et al., A molecularly imprinted polymer-based synthetic transaminase.
Journal of the American Chemical Society, 126, (27), 8554-8560, (2004)
Svenson J et al., H-1 nuclear magnetic resonance study of the molecular imprinting of (-)-nicotine: template self-association, a molecular basis for cooperative ligand binding.
Journal of Chromatography A, 1024, (1-2), 39-44, (2004)
Svenson J et al., The role of functional monomer-template complexation on the performance of atrazine molecularly imprinted polymers.
Analytical Letters, 38, (1), 57-69, (2005)
Svenson J, Ultrasound-assisted preparation of molecularly imprinted polymers: Effects on polymer morphology, binding, and chromatographic behavior.
Analytical Letters, 39, (14), 2749-2760, (2006)
Rosengren-Holmberg JP et al., Synthesis and ligand recognition of paracetamol selective polymers: semi-covalent versus non-covalent molecular imprinting.
Organic & Biomolecular Chemistry, 7, (15), 3148-3155, (2009)
Analytical Chemistry, 67, (13), 2142-2144, (1995)
Analytica Chimica Acta, 626, (2), 147-154, (2008)
Manesiotis P et al., Water-compatible imprinted polymers for selective depletion of riboflavine from beverages.
Journal of Materials Chemistry, 19, (33), 6185-6193, (2009)
Angewandte Chemie International Edition, 53, (40), 10687-10690, (2014)
Analytical Chemistry, 73, (17), 4388-4392, (2001)
Surugiu I et al., Biomimetic arrays for optical multisensing.
Abstracts of Papers of the American Chemical Society, 221, (AGRO), 60-60, (2001)
Svitel J et al., Functionalized surfaces for optical biosensors: Applications to in vitro pesticide residual analysis.
Journal of Materials Science: Materials in Medicine, 12, (10-12), 1075-1078, (2001)
Talanta, 144, 1021-1029, (2015)
Svoboda P et al., Development of matrix effect-free MISPE-UHPLC-MS/MS method for determination of lovastatin in Pu-erh tea, oyster mushroom, and red yeast rice.
Journal of Pharmaceutical and Biomedical Analysis, 140, 367-376, (2017)
International Journal of Electrochemical Science, 8, 5755-5773, (2013)
Analytica Chimica Acta, 1125, 258-266, (2020)
Sensors and Actuators B: Chemical, 246, 96-107, (2017)
Journal of Stem Cells & Regenerative Medicine, 12, (2), 105-107, (2016)
Journal of Analytical Chemistry, 76, (10), 1172-1181, (2021)
Analytical Chemistry, 70, (15), 3304-3314, (1998)
Talanta, 194, 1-6, (2019)
RSC Advances, 6, (85), 81491-81499, (2016)
Scientific Reports, 7, ArticleNo44298-(2017)
McKitterick N et al., On-line duplex molecularly imprinted solid-phase extraction for analysis of low-abundant biomarkers in human serum by liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1655, Article462490-(2021)
Journal of Physics: Conference Series, 1282, (1), Article012030-(2019)
Materials Chemistry and Physics, 261, Article124228-(2021)
Indian Journal of Scientific Research, 5, (1), 362-368, (2014)
The Journal of Physical Chemistry C, 117, (43), 22290-22297, (2013)
International Journal of Nanomedicine, 2015, (10), 4883-4895, (2015)
HRC - Journal of High Resolution Chromatography, 23, (1), 3-18, (2000)
Chemical Communications, 51, (12), 2256-2258, (2015)
Abstracts of Papers of the American Chemical Society, 223, (CHED), 731-731, (2002)
Sudebno-Meditsinskaya Ekspertisa, 64, (6), 39-42, (2021)
Chemistry Letters, 13, (9), 1487-1490, (1984)
Electrochimica Acta, 53, (6), 2729-2736, (2008)
Menaker A et al., Electrosynthesized Surface-Imprinted Conducting Polymer Microrods for Selective Protein Recognition.
Advanced Materials, 21, (22), 2271-2275, (2009)
Öpik A et al., Molecularly imprinted polymers: a new approach to the preparation of functional materials.
Proceedings of the Estonian Academy of Sciences, 58, (1), 3-11, (2009)
Lautner G et al., Selective Artificial Receptors Based on Micropatterned Surface-Imprinted Polymers for Label-Free Detection of Proteins by SPR Imaging.
Advanced Functional Materials, 21, (3), 591-597, (2011)
Tretjakov A et al., Surface molecularly imprinted polydopamine films for recognition of immunoglobulin G.
Microchimica Acta, 180, (15-16), 1433-1442, (2013)
Ayankojo AG et al., Molecularly Imprinted Polymer Integrated with a Surface Acoustic Wave Technique for Detection of Sulfamethizole.
Analytical Chemistry, 88, (2), 1476-1484, (2016)
Tretjakov A et al., Molecularly imprinted polymer film interfaced with Surface Acoustic Wave technology as a sensing platform for label-free protein detection.
Analytica Chimica Acta, 902, 182-188, (2016)
Boroznjak R et al., A computational approach to study functional monomer-protein molecular interactions to optimize protein molecular imprinting.
Journal of Molecular Recognition, 30, (10), ArticleNoe2635-(2017)
Ayankojo AG et al., Enhancing binding properties of imprinted polymers for the detection of small molecules.
Proceedings of the Estonian Academy of Sciences, 67, (2), 138-146, (2018)
Ayankojo AG et al., Molecularly imprinted poly(meta-phenylenediamine) based QCM sensor for detecting Amoxicillin.
Sensors and Actuators B: Chemical, 258, 766-774, (2018)
Ayankojo AG et al., Hybrid molecularly imprinted polymer for amoxicillin detection.
Biosensors and Bioelectronics, 118, 102-107, (2018)
Kidakova A et al., Preparation of a surface-grafted protein-selective polymer film by combined use of controlled/living radical photopolymerization and microcontact imprinting.
Reactive and Functional Polymers, 125, 47-56, (2018)
Kidakova A et al., Advanced sensing materials based on molecularly imprinted polymers towards developing point-of-care diagnostics devices.
Proceedings of the Estonian Academy of Sciences, 68, (2), 158-167, (2019)
Ayankojo AG et al., Molecularly imprinted polymer-based sensor for electrochemical detection of erythromycin.
Talanta, 209, Article120502-(2020)
Ayankojo AG et al., Sulfamethizole-imprinted polymer on screen-printed electrodes: Towards the design of a portable environmental sensor.
Sensors and Actuators B: Chemical, 320, Article128600-(2020)
Kidakova A et al., Molecularly imprinted polymer-based SAW sensor for label-free detection of cerebral dopamine neurotrophic factor protein.
Sensors and Actuators B: Chemical, 308, Article127708-(2020)
Ayankojo AG et al., Molecularly imprinted polymer based electrochemical sensor for quantitative detection of SARS-CoV-2 spike protein.
Sensors and Actuators B: Chemical, 353, Article131160-(2022)
Analytica Chimica Acta, 504, (1), 167-177, (2004)
Syu MJ et al., An allosteric model for the binding of bilirubin to the bilirubin imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate).
Analytica Chimica Acta, 539, (1-2), 97-106, (2005)
Syu MJ et al., Binding specificity of [alpha]-bilirubin-imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate) toward [alpha]-bilirubin.
Biomaterials, 26, (22), 4684-4692, (2005)
Tsai HA et al., Synthesis of creatinine-imprinted poly([beta]-cyclodextrin) for the specific binding of creatinine.
Biomaterials, 26, (15), 2759-2766, (2005)
Tsai HA et al., Synthesis and characterization of creatinine imprinted poly(4-vinylpyridine-co-divinylbenzene) as a specific recognition receptor.
Analytica Chimica Acta, 539, (1-2), 107-116, (2005)
Hsieh RY et al., Designing a molecularly imprinted polymer as an artificial receptor for the specific recognition of creatinine in serums.
Biomaterials, 27, (9), 2083-2089, (2006)
Syu MJ et al., Ionic effect on the binding of bilirubin to the imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate).
Journal of Chromatography A, 1122, (1-2), 54-62, (2006)
Syu MJ et al., Amperometric detection of bilirubin from a micro-sensing electrode with a synthetic bilirubin imprinted poly(MAA-co-EGDMA) film.
Biosensors and Bioelectronics, 22, (4), 550-557, (2006)
Wu AH et al., Synthesis of bilirubin imprinted polymer thin film for the continuous detection of bilirubin in an MIP/QCM/FIA system.
Biosensors and Bioelectronics, 21, (12), 2345-2353, (2006)
Huang CY et al., A portable potentiostat for the bilirubin-specific sensor prepared from molecular imprinting.
Biosensors and Bioelectronics, 22, (8), 1694-1699, (2007)
Chen CY et al., Diagnostic role of biliary pancreatic elastase for cholangiocarcinoma in patients with cholestasis.
Clinica Chimica Acta, 390, (1-2), 82-89, (2008)
Chang YS et al., Synthesis of an Imprinted Hybrid Organic-Inorganic Polymeric Sol-Gel Matrix Toward the Specific Binding and Isotherm Kinetics Investigation of Creatinine.
Analytical Chemistry, 81, (6), 2098-2105, (2009)
Chou SK et al., Via zinc(II) protoporphyrin to the synthesis of poly(ZnPP-MAA-EGDMA) for the imprinting and selective binding of bilirubin.
Biomaterials, 30, (7), 1255-1262, (2009)
Syu MJ et al., Synthesis of Recognition Matrix from 4-Methylamino-N-Allylnaphthal-Imide with Fluorescent Effect for the Imprinting of Creatinine.
Analytical Chemistry, 82, (21), 8821-8829, (2010)
Tsai HA et al., Preparation of imprinted poly(tetraethoxysilanol) sol-gel for the specific uptake of creatinine.
Chemical Engineering Journal, 168, (3), 1369-1376, (2011)
Syu MJ et al., Amperometric Sensing of Bilirubin By the Ionic Liquid Doped Imprinted Polymer Modified Electrode.
ECS Meeting Abstracts, MA2018-02, (56), 1991-1991, (2018)
Biosensors and Bioelectronics, 21, (6), 901-907, (2005)
Journal of Chromatography A, 964, (1-2), 99-111, (2002)
Stanley BJ et al., Affinity distributions of a molecularly imprinted polymer calculated numerically by the expectation-maximization method.
Langmuir, 19, (3), 772-778, (2003)
Szabelski P, A simple model of enantioselective adsorption on chiral stationary phases.
Applied Surface Science, 227, (1-4), 94-103, (2004)
Szabelski P et al., Phenomenological Modeling of Separation of Enantiomers by Nonlinear Chromatography.
Acta Chromatographica, 20, (4), 513-547, (2008)
Mini-Reviews in Organic Chemistry, 10, (4), 400-408, (2013)
Journal of Liquid Chromatography & Related Technologies, 32, (13), 1831-1846, (2009)
Szajnecki L et al., Studies on sorption of bifenthrin and diazinon insecticides on molecularly imprinted polymers.
Polymers for Advanced Technologies, 30, (7), 1595-1604, (2019)
Journal of Separation Science, 38, (24), 4240-4247, (2015)
Dorkó Z et al., Relationship between Commonly Used Adsorption Isotherm Equations Impedes Isotherm Selection.
Periodica Polytechnica Chemical Engineering, 61, (1), 10-14, (2017)
Mini-Reviews in Organic Chemistry, 10, (4), 400-408, (2013)
Abstracts of Papers of the American Chemical Society, 223, (ANYL), 074-074, (2002)
TrAC Trends in Analytical Chemistry, 73, 19-38, (2015)
Plotka-Wasylka J et al., Modern trends in solid phase extraction: New sorbent media.
TrAC Trends in Analytical Chemistry, 77, 23-43, (2016)
Plotka-Wasylka J et al., New Polymeric Materials for Solid Phase Extraction.
Critical Reviews in Analytical Chemistry, 47, (5), 373-383, (2017)
Plotka-Wasylka J et al., Book chapter, Miniaturized Solid Phase Extraction,
In: Green Extraction Techniques Principles, Advances and Applications, Ibáńez E, Cifuentes A (Eds.) Elsevier: Ch. 10, 279-318, (2017)
Journal of Inclusion Phenomena and Macrocyclic Chemistry, 61, (1), 147-151, (2008)
Wybranska K et al., Adenine Molecularly Imprinted Polymer-Coated Submicrometer Silica Gel Particles.
Chemistry of Materials, 22, (18), 5392-5399, (2010)
Plewa A et al., Molecularly Imprinted Hybrid Adsorbents for Adenine and Adenosine-5'-triphosphate.
Journal of Medicinal Chemistry, 55, (20), 8712-8720, (2012)
Mikulska A et al., Polymeric/silicagel hybrid molecularly photoimprinted adsorbents for adenosine and its derivatives.
European Polymer Journal, 59, 230-238, (2014)
Iwanowska A et al., Selective adsorption of modified nucleoside cancer biomarkers by hybrid molecularly imprinted adsorbents.
Journal of Separation Science, 39, (15), 3072-3080, (2016)
Critical Reviews in Environmental Science and Technology, 47, (11), 909-963, (2017)
Czarny K et al., Molecularly imprinted polymer film grafted from porous silica for efficient enrichment of steroid hormones in water samples.
Journal of Separation Science, 42, (17), 2858-2866, (2019)
Langmuir, 27, (8), 5062-5070, (2011)
Azenha M et al., Computational and Experimental Study of the Effect of PEG in the Preparation of Damascenone-Imprinted Xerogels.
Langmuir, 29, (6), 2024-2032, (2013)
ACS Applied Materials & Interfaces, 7, (18), 9516-9525, (2015)
Razali M et al., Sustainable wastewater treatment and recycling in membrane manufacturing.
Green Chemistry, 17, (12), 5196-5205, (2015)
Szekely G et al., Genotoxic Impurities in Pharmaceutical Manufacturing: Sources, Regulations, and Mitigation.
Chemical Reviews, 115, (16), 8182-8229, (2015)
Szekely G et al., Book chapter, Biomimics of Metalloenzymes via Imprinting,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 7, 121-158, (2016)
Didaskalou C et al., Valorisation of agricultural waste with an adsorption/nanofiltration hybrid process: from materials to sustainable process design.
Green Chemistry, 19, (13), 3116-3125, (2017)
Kupai J et al., Long-term stability and reusability of molecularly imprinted polymers.
Polymer Chemistry, 8, (4), 666-673, (2017)
Pogány P et al., Experimental and theoretical investigation of the complexation of methacrylic acid and diisopropyl urea.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 170, 69-76, (2017)
Sulc R et al., Phospholipid imprinted polymers as selective endotoxin scavengers.
Scientific Reports, 7, ArticleNo44299-(2017)
Voros V et al., Process Intensification via Continuous and Simultaneous Isolation of Antioxidants: An Upcycling Approach for Olive Leaf Waste.
ACS Sustainable Chemistry & Engineering, 7, (22), 18444-18452, (2019)
Analytical and Bioanalytical Chemistry, 403, (3), 785-796, (2012)
Tetrahedron, 72, (46), 7335-7342, (2016)
European Polymer Journal, 49, (6), 1268-1286, (2013)
TrAC Trends in Analytical Chemistry, 83, (Part B), 55-69, (2016)
Critical Reviews in Analytical Chemistry, 42, (3), 198-213, (2012)
Szultka M et al., Development of novel molecularly imprinted solid-phase microextraction fibers and their application for the determination of antibiotic drugs in biological samples by SPME-LC/MS<sup>n</sup>.
Analytical and Bioanalytical Chemistry, 403, (3), 785-796, (2012)
Szultka M et al., Simultaneous determination of selected chemotherapeutics in human whole blood by molecularly imprinted polymers coated solid phase microextraction fibers and liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 940, 66-76, (2013)
Buszewski B et al., Book chapter, Solid phase extraction - principles, trends and applications,
In: MEMBRANY TEORIA I PRAKTYKA (Membrane Theory and Practice), Wodzki R (Ed.) Stowarzyszenie na Rzecz Rozwoju Wydzialu Chemii Uniwersytet Mikolaja Kopernika: Torun, Poland, 99-131, (2014)
Szultka M et al., Microextraction sample preparation techniques in biomedical analysis.
Journal of Separation Science, 37, (21), 3094-3105, (2014)
Szultka M et al., Pharmacokinetic study of amoxicillin in human plasma by solid-phase microextraction followed by high-performance liquid chromatography-triple quadrupole mass spectrometry.
Biomedical Chromatography, 28, (2), 255-264, (2014)
Critical Reviews in Analytical Chemistry, 46, (3), 236-247, (2016)
Journal of Separation Science, 27, (10-11), 837-842, (2004)
Szumski M et al., Considerations on influence of charge distribution on determination of biomolecules and microorganisms and tailoring the monolithic (continuous bed) materials for bioseparations.
Journal of Biochemical and Biophysical Methods, 70, (1), 107-115, (2007)
Buszewski B et al., Supramolecular recognition of estrogens via molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 397, (7), 2977-2986, (2010)
Szumski M et al., Monolithic molecularly imprinted polymeric capillary columns for isolation of aflatoxins.
Journal of Chromatography A, 1364, 163-170, (2014)
Molecules, 12, (11), 2434-2449, (2007)
Lulinski P et al., Efficient strategy for the selective determination of dopamine in human urine by molecularly imprinted solid-phase extraction.
Journal of Separation Science, 39, (5), 895-903, (2016)
Journal of Medicinal Chemistry, 55, (20), 8712-8720, (2012)
ECS Meeting Abstracts, MA2015-01, (45), 2309-2309, (2015)
Cieplak M et al., Selective electrochemical sensing of human serum albumin by semi-covalent molecular imprinting.
Biosensors and Bioelectronics, 74, 960-966, (2015)
Journal of Separation Science, 36, (3), 578-584, (2013)
Roszko M et al., Simultaneous separation of chlorinated/brominated dioxins, polychlorinated biphenyls, polybrominated diphenyl ethers and their methoxylated derivatives from hydroxylated analogues on molecularly imprinted polymers prior to gas/liquid chromatography and mass spectrometry.
Talanta, 144, 171-183, (2015)
Separation and Purification Technology, 86, (1), 79-87, (2012)
Székely G et al., Design, preparation and characterization of novel molecularly imprinted polymers for removal of potentially genotoxic 1, 3-diisopropylurea from API solutions.
Separation and Purification Technology, 86, (1), 190-198, (2012)
Székely G et al., Removal of potentially genotoxic acetamide and arylsulfonate impurities from crude drugs by molecular imprinting.
Journal of Chromatography A, 1240, (1), 52-58, (2012)
Székely G et al., Molecularly imprinted organic solvent nanofiltration membranes - Revealing molecular recognition and solute rejection behaviour.
Reactive and Functional Polymers, 86, 215-224, (2015)
Advanced Functional Materials, 23, (37), 4703-4709, (2013)
Journal of Chromatography A, 887, (1-2), 3-29, (2000)
Journal of Separation Science, 28, (18), 2468-2476, (2005)
Journal of the Chilean Chemical Society, 59, (4), 2731-2736, (2014)
Cáceres C et al., Molecularly Imprinted Polymers for the Selective Extraction of Bisphenol A and Progesterone from Aqueous Media.
Polymers, 10, (6), ArticleNo679-(2018)
Journal of Colloid and Interface Science, 472, 126-134, (2016)
Microchemical Journal, 110, 510-516, (2013)
Journal of Biotechnology, 342, 13-27, (2021)
Journal of the Chilean Chemical Society, 66, (2), 5215-5219, (2021)
Analytical Letters, 40, (7), 1294-1306, (2007)
Chemical Communications, (25), 3224-3226, (2005)
Sánchez-Barragán I et al., Molecularly imprinted polymers based on iodinated monomers for selective room-temperature phosphorescence optosensing of fluoranthene in water.
Analytical Chemistry, 77, (21), 7005-7011, (2005)
Sánchez-Barragán I et al., Room-temperature phosphorescence (RTP) for optical sensing.
TrAC Trends in Analytical Chemistry, 25, (10), 958-967, (2006)
Sánchez-Barragán I et al., A molecularly imprinted polymer for carbaryl determination in water.
Sensors and Actuators B: Chemical, 123, (2), 798-804, (2007)
Traviesa-Alvarez JM et al., Room temperature phosphorescence optosensing of benzo[a]pyrene in water using halogenated molecularly imprinted polymers.
Analyst, 132, (3), 218-223, (2007)
Analytica Chimica Acta, 898, 50-59, (2015)
Chantada-Vázquez MP et al., Simple and Sensitive Molecularly Imprinted Polymer - Mn-Doped ZnS Quantum Dots Based Fluorescence Probe for Cocaine and Metabolites Determination in Urine.
Analytical Chemistry, 88, (5), 2734-2741, (2016)
Chantada-Vázquez MP et al., Synthesis and characterization of novel molecularly imprinted polymer - coated Mn-doped ZnS quantum dots for specific fluorescent recognition of cocaine.
Biosensors and Bioelectronics, 75, 213-221, (2016)
Sánchez-González J et al., Development of magnetic molecularly imprinted polymers for solid phase extraction of cocaine and metabolites in urine before high performance liquid chromatography - tandem mass spectrometry.
Talanta, 147, 641-649, (2016)
Sánchez-González J et al., Determination of cocaine and its metabolites in plasma by porous membrane-protected molecularly imprinted polymer micro-solid-phase extraction and liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1451, 15-22, (2016)
Sánchez-González J et al., Magnetic molecularly imprinted polymer based - micro-solid phase extraction of cocaine and metabolites in plasma followed by high performance liquid chromatography - tandem mass spectrometry.
Microchemical Journal, 127, 206-212, (2016)
Sánchez-González J et al., Cannabinoids assessment in plasma and urine by high performance liquid chromatography-tandem mass spectrometry after molecularly imprinted polymer microsolid-phase extraction.
Analytical and Bioanalytical Chemistry, 409, (5), 1207-1220, (2017)
Chantada-Vázquez MP et al., Development and application of molecularly imprinted polymer - Mn-doped ZnS quantum dot fluorescent optosensing for cocaine screening in oral fluid and serum.
Talanta, 181, 232-238, (2018)
Sánchez-González J et al., Development of a micro-solid-phase extraction molecularly imprinted polymer technique for synthetic cannabinoids assessment in urine followed by liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1550, 8-20, (2018)
Sánchez-González J et al., NMR spectroscopy for assessing cocaine-functional monomer interactions when preparing molecularly imprinted polymers.
Microchemical Journal, 147, 813-817, (2019)
Sánchez-González J et al., HPLC-MS/MS combined with membrane-protected molecularly imprinted polymer micro-solid-phase extraction for synthetic cathinones monitoring in urine.
Drug Testing and Analysis, 11, (1), 33-44, (2019)
Science of The Total Environment, 454 - 455, 299-306, (2013)
International Journal of Environmental Science and Technology, 12, (10), 3079-3088, (2015)
Samah NA et al., Molecularly imprinted polymer for the removal of diclofenac from water: Synthesis and characterization.
Science of The Total Environment, 631-632, 1534-1543, (2018)
Samah NA et al., Modelling the Diclofenac and Indomethacin Recovery by Molecularly Imprinted Polymer.
Journal of Physical Science, 29, (Suppl.1), 67-74, (2018)
Journal of Electroanalytical Chemistry, 638, (2), 246-253, (2010)
Microporous And Mesoporous Materials, 203, 32-40, (2015)
Journal of Pharmaceutical and Biomedical Analysis, 42, (3), 291-321, (2006)
UPB Scientific Bulletin, Series B: Chemistry and Materials Science, 71, (4), 21-30, (2009)
Nicolescu TV et al., Influence of crosslinker/porogen ratio upon imprinted polymer parameters.
U. P. B. Science Bulletin, Series B, 73, (1), 163-172, (2011)
Florea AM et al., An innovative approach to prepare hypericin molecularly imprinted pearls using a "phyto-template".
Talanta, 148, 37-45, (2016)
Florea AM et al., One-step preparation of molecularly imprinted hollow beads for pseudohypericin separation from Hypericum perforatum L. extracts.
European Polymer Journal, 100, 48-56, (2018)
Advanced Healthcare Materials, 4, (9), 1322-1326, (2015)
In: Molecular Recognition: Biotechnology, Chemical Engineering and Materials Applications, McEvoy JA (Ed.) Nova Science Publishers, Inc.: New York, Ch. 2, 45-77, (2011)
Tetrahedron, 72, (46), 7335-7342, (2016)
Materials Science and Engineering: C, 42, 436-442, (2014)
Gültekin A et al., Preparation of MIP-based QCM nanosensor for detection of caffeic acid.
Talanta, 119, 533-537, (2014)
Sensors and Actuators B: Chemical, 296, Article126653-(2019)
Söylemez MA et al., Preparation and detailed structural characterization of Penicillin G imprinted polymers by PALS and XPS.
Radiation Physics and Chemistry, 159, 174-180, (2019)
Söylemez MA et al., Synthesis of well-defined molecularly imprinted bulk polymers for the removal of azo dyes from water resources.
Current Research in Green and Sustainable Chemistry, 4, Article100196-(2021)
Journal of Chromatography B, 1017-1018, 89-100, (2016)
Separation Science and Technology, 56, (18), 3066-3078, (2021)
Journal of Separation Science, 42, (11), 1962-1971, (2019)
Zeitschrift für Chemie, 7, (11), 444-445, (1967)
Advanced Functional Materials, 29, (15), Article1807332-(2019)
Tchinda R et al., Recognition of protein biomarkers using epitope-mediated molecularly imprinted films: Histidine or cysteine modified epitopes?
Biosensors and Bioelectronics, 123, 260-268, (2019)
Drzazgowska J et al., Self-Assembled Monolayer Epitope Bridges for Molecular Imprinting and Cancer Biomarker Sensing.
Analytical Chemistry, 92, (7), 4798-4806, (2020)
S BM
S BM et al., Design of Copper Ion Selective Polymer by Molecular Imprinting Approach.International Journal of Latest Research in Science and Technology, 4, (2), 154-160, (2015)
Sa-nguanprang S
Sa-nguanprang S et al., An optosensor based on a hybrid sensing probe of mesoporous carbon and quantum dots embedded in imprinted polymer for ultrasensitive detection of thiamphenicol in milk.Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 264, Article120324-(2022)
Saad B
Lee TP et al., Molecularly imprinted polymer as sorbent in micro-solid phase extraction of ochratoxin A in coffee, grape juice and urine.Talanta, 88, (1), 129-135, (2012)
Lee TP et al., Micro-solid phase extraction of ochratoxin A, and its determination in urine using capillary electrophoresis.
Microchimica Acta, 180, (11-12), 1149-1156, (2013)
Rozaini MNH et al., Rapid ultrasound assisted emulsification micro-solid phase extraction based on molecularly imprinted polymer for HPLC-DAD determination of bisphenol A in aqueous matrices.
Talanta, 171, 242-249, (2017)
Rozaini MNH et al., Molecularly imprinted silica gel incorporated with agarose polymer matrix as mixed matrix membrane for separation and preconcentration of sulfonamide antibiotics in water samples.
Talanta, 199, 522-531, (2019)
Saad E
Hosny H et al., Isolation of sinapic acid from broccoli using molecularly imprinted polymers.Journal of Separation Science, 41, (5), 1164-1172, (2018)
Saad EM
Saad EM et al., Preparation and application of molecularly imprinted polymer for isolation of chicoric acid from Chicorium intybus L. medicinal plant.Analytica Chimica Acta, 877, 80-89, (2015)
Kamal Ahmed R et al., Design and application of molecularly imprinted Polypyrrole/Platinum nanoparticles modified platinum sensor for the electrochemical detection of Vardenafil.
Microchemical Journal, 171, Article106771-(2021)
Saad EM et al., Molecularly imprinted polymers for selective extraction of rosmarinic acid from Rosmarinus officinalis L.
Food Chemistry, 335, Article127644-(2021)
Saad N
Saad N et al., Molecularly imprinted phenyl-functionalized silica aerogels: Selective adsorbents for methylxanthines and PAHs.Microporous And Mesoporous Materials, 292, Article109759-(2020)
Saadaoui A
Saadaoui A et al., New biosourced chiral molecularly imprinted polymer: Synthesis, characterization, and evaluation of the recognition capacity of methyltestosterone.Journal of Molecular Recognition, 30, (4), ArticleNoe2594-(2017)
Saadati F
Farid MM et al., Molecular imprinting method for fabricating novel glucose sensor: Polyvinyl acetate electrode reinforced by MnO2/CuO loaded on graphene oxide nanoparticles.Food Chemistry, 194, 61-67, (2016)
Saadati F et al., Synthesis and characterization of nanostructure molecularly imprinted polyaniline/graphene oxide composite as highly selective electrochemical sensor for detection of p-nitrophenol.
Journal of the Taiwan Institute of Chemical Engineers, 86, 213-221, (2018)
Saarma M
Kidakova A et al., Molecularly imprinted polymer-based SAW sensor for label-free detection of cerebral dopamine neurotrophic factor protein.Sensors and Actuators B: Chemical, 308, Article127708-(2020)
Saatçilar Ö
Saatçilar Ö et al., Binding behavior of Fe3+ ions on ion-imprinted polymeric beads for analytical applications.Journal of Applied Polymer Science, 101, (5), 3520-3528, (2006)
Saavedra LNM
Saavedra LNM et al., Thermodynamic study of a magnetic molecular imprinted polymer for removal of nitrogenous pollutant from gasoline.Fuel, 210, 380-389, (2017)
Sabathié N
Kébir N et al., Chemically modified polysulfones for molecular imprinting. Synthesis and complexation with a fluorescent model template.Reactive and Functional Polymers, 73, (3), 531-539, (2013)
Sabatini E
Steinberg S et al., Ion-selective monolayer membranes based upon self-assembling tetradentate ligand monolayers on gold electrodes .2. Effect of applied potential on ion binding.Journal of the American Chemical Society, 113, (14), 5176-5182, (1991)
Sabbah M
Garnier M et al., Hybrid Molecularly Imprinted Polymers: The Future of Nanomedicine?Nanomaterials, 11, (11), ArticleNo3091-(2021)
Sabhapondit S
Chatterjee TN et al., Molecular Imprinted Polymer Based Electrode for Sensing Catechin (+C) in Green Tea.IEEE Sensors Journal, 18, (6), 2236-2244, (2018)
Chatterjee TN et al., Development of a nickel hydroxide nanopetal decorated molecular imprinted polymer based electrode for sensitive detection of epigallocatechin-3-gallate in green tea.
Sensors and Actuators B: Chemical, 283, 69-78, (2019)
Das D et al., Electrochemical Detection of Epicatechin in Green Tea Using Quercetin-Imprinted Polymer Graphite Electrode.
IEEE Sensors Journal, 21, (23), 26526-26533, (2021)
Sabik H
Sabik H et al., Multiresidue methods using solid-phase extraction techniques for monitoring priority pesticides, including triazines and degradation products, in ground and surface waters.Journal of Chromatography A, 885, (1-2), 217-236, (2000)
Sabir S
Balouch A et al., Review: Arsenic Remediation by Synthetic and Natural Adsorbents.Pakistan Journal of Analytical & Environmental Chemistry, 18, (1), 18-36, (2017)
Saboori AM
Saboori AM et al., Selective binding of organophosphate pesticides using molecular imprinted polymers.FASEB Journal, 17, (4), A586-A586, (2003)
Saboori AM et al., Preparation of molecular imprinted polymers against dichlorvos, an organophosphate pesticide.
FASEB Journal, 18, (8), C169-C169, (2004)
Sabourin L
Sabourin L et al., Molecularly imprinted polymer combinatorial libraries for multiple simultaneous chiral separations.Analytical Communications, 35, (9), 285-287, (1998)
Sabrina N
Sabrina N et al., Molecularly Imprinted Polymer (MIPs) Nanomaterials Modified as Absorbing Cholesterol.Journal of Physics: Conference Series, 1788, (1), Article012001-(2021)
Sabry GM
Hegazy EA et al., Radiation Synthesis and Characterization of Cholesterol Molecularly Imprinted Polymer of Crosslinked Hydroxyethyl Methacrylate.International Journal of Science and Research (IJSR), 5, (1), ArticleID:NOV152733-(2016)
Sabu C
Sabu C et al., Bioinspired and biomimetic systems for advanced drug and gene delivery.Journal of Controlled Release, 287, 142-155, (2018)
Sabu C et al., Bioinspired oral insulin delivery system using yeast microcapsules.
Materials Science and Engineering: C, 103, Article109753-(2019)
Saburi N
Alizadeh N et al., Rapid determination of benzoate in soft drinks by solid-state benzoate ion selective sensor based on conducting polypyrrole film.Food Control, 28, (2), 315-320, (2012)
Sabzehmeidani MM
Jahankhah S et al., Hydrophilic magnetic molecularly imprinted resin in PVDF membrane for efficient selective removal of dye.Journal of Environmental Management, 300, Article113707-(2021)
Sabzi RE
Alizadeh T et al., Synthesis of nano-sized cyanide ion-imprinted polymer via non-covalent approach and its use for the fabrication of a CN--selective carbon nanotube impregnated carbon paste electrode.Talanta, 147, 90-97, (2016)
Sabán López A
Sabán López A et al., Synthesis of magnetic green nanoparticle - Molecular imprinted polymers with emerging contaminants templates.Journal of Environmental Chemical Engineering, 8, (4), Article103889-(2020)
Sacchiero RJ
Huval CC et al., Book chapter, Molecularly imprinted bile acid sequestrants: Synthesis and biological studies,In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 13, 85-90, (2004)
Sacchiro RJ
Huval CC et al., Novel cholesterol lowering polymeric drugs obtained by molecular imprinting.Macromolecules, 34, (6), 1548-1550, (2001)
Sacco HC
Ciuffi KJ et al., Polymeric organic-inorganic hybrid material containing iron(III) porphyrin using sol-gel process.Journal of Non-Crystalline Solids, 247, (1-3), 146-152, (1999)
Ciuffi KJ et al., Synthesis of fluorinated metalloporphyrinosilica imprinted with templates through sol-gel process.
Journal of Non-Crystalline Solids, 273, (1-3), 100-108, (2000)
Iamamoto Y et al., Porphyrinosilica and metalloporphyrinosilica: Hybrid organic-inorganic materials prepared by sol-gel processing.
Anais Da Academia Brasileira De Ciencias, 72, (1), 59-66, (2000)
Sacco HC et al., Synthesis of manganese porphyrinosilica imprinted with templates using the sol-gel process.
Journal of Non-Crystalline Solids, 273, (1-3), 150-158, (2000)
Sachdev T
Chauhan R et al., Recent advances in mycotoxins detection.Biosensors and Bioelectronics, 81, 532-545, (2016)
Sachdeva A
Canfarotta F et al., A novel thermal detection method based on molecularly imprinted nanoparticles as recognition elements.Nanoscale, 10, (4), 2081-2089, (2018)
Sacramento AS
Sacramento AS et al., Novel biomimetic composite material for potentiometric screening of acetylcholine, a neurotransmitter in Alzheimer's disease.Materials Science and Engineering: C, 79, 541-549, (2017)
Sadecka J
Sadecka J et al., Molecularly imprinted polymers in analytical chemistry.Chemicke Listy, 99, (4), 222-230, (2005)
Sadegh H
Mohajeri SA et al., Development of a pH-responsive imprinted polymer for diclofenac and study of its binding properties in organic and aqueous media.Drug Development and Industrial Pharmacy, 38, (5), 616-622, (2012)
Sadegh N
Sadegh N et al., Ultrasound-assisted solid phase microextraction-HPLC method based on Fe3O4@SiO2-NH2-molecularly imprinted polymer magnetic nano-sorbent for rapid and efficient extraction of harmaline from Peganum harmala extract.Journal of Chromatography B, 1171, Article122640-(2021)
Sadeghi H
Asfaram A et al., Simple and selective detection of quercetin in extracts of plants and food samples by dispersive-micro-solid phase extraction based on core-shell magnetic molecularly imprinted polymers.New Journal of Chemistry, 42, (19), 16144-16153, (2018)
Banan K et al., MIP-based extraction techniques for the determination of antibiotic residues in edible meat samples: Design, performance & recent developments.
Trends In Food Science & Technology, 119, 164-178, (2022)
Sadeghi HB
Mahabadi M et al., Proceeding, Synthesis of Molecularly Imprinted Polymers for sorption of Mefenamic acid based on the surface of modified silica gel,(2011)
Oskouei M et al., Proceeding, Synthesis of a New Molecularly Imprinted Polymer and its Application for Extraction, Preconcentration and Determination of Theophylline,
(2011)
Sadeghi HB et al., Potentiometric Sensing of Lamotrigine Based on Molecularly Imprinted Polymers.
Electroanalysis, 23, (11), 2716-2723, (2011)
Bangaleh Z et al., A New Potentiometric Sensor for Determination and Screening Phenylalanine in Blood Serum Based on Molecularly Imprinted Polymer.
Iranian Journal of Pharmaceutical Research, 18, (1), 61-71, (2019)
Sadeghi M
Sarabadani P et al., Ion-imprinted polymeric nanoparticles as a novel sorbent to separate radioyttrium from Sr target.Radiochimica Acta, 101, (11), 725-731, (2013)
Sarabadani P et al., Synthesis and characterization of a novel nanostructured ion-imprinted polymer for pre-concentration of Y(III) ions.
Analytical Methods, 6, (3), 741-749, (2014)
Sarabadani P et al., Solid phase extraction of radioyttrium from irradiated strontium target using nanostructure ion imprinted polymer formed with 1-hydroxy-4-(prop-2-enyloxy)-9, 10-anthraquinone.
Applied Radiation and Isotopes, 90, 8-14, (2014)
Sadeghi O
Ebrahimzadeh H et al., Novel magnetic ion imprinted polymer as a highly selective sorbent for extraction of gold ions in aqueous samples.Analytical Methods, 4, (10), 3232-3237, (2012)
Karimi M et al., Potentiometric Determination of Mercury Ions by Ion Imprinted Polymer Coated Multiwall Carbon Nanotube: High Selective Sensor for Determination of Trace Amounts of Mercury Ions in Biological Samples.
Oriental Journal of Chemistry, 28, (4), 1557-1566, (2012)
Aboufazeli F et al., Novel ion imprinted polymer magnetic mesoporous silica nano-particles for selective separation and determination of lead ions in food samples.
Food Chemistry, 141, (4), 3459-3465, (2013)
Behbahani M et al., Synthesis and characterisation of nano structure lead (II) ion-imprinted polymer as a new sorbent for selective extraction and preconcentration of ultra trace amounts of lead ions from vegetables, rice, and fish samples.
Food Chemistry, 138, (2-3), 2050-2056, (2013)
Ebrahimzadeh H et al., Novel ion-imprinted polymer coated on nanoporous silica as a highly selective sorbent for the extraction of ultratrace quantities of gold ions from mine stone samples.
Microchimica Acta, 180, (5-6), 445-451, (2013)
Ebrahimzadeh H et al., Novel ion imprinted polymer coated multiwalled carbon nanotubes as a high selective sorbent for determination of gold ions in environmental samples.
Chemical Engineering Journal, 215-216, 315-321, (2013)
Moazzen E et al., A high selective ion-imprinted polymer grafted on a novel nanoporous material for efficient gold extraction.
Journal of Separation Science, 36, (11), 1826-1833, (2013)
Najafi E et al., A novel magnetic ion imprinted nano-polymer for selective separation and determination of low levels of mercury(II) ions in fish samples.
Food Chemistry, 141, (4), 4040-4045, (2013)
Sadeghi O et al., Determination of Pb(II) Ions Using Novel Ion-Imprinted Polymer Magnetic Nanoparticles: Investigation of the Relation Between Pb(II) Ions in Cow's Milk and Their Nutrition.
Food Analytical Methods, 6, (3), 753-760, (2013)
Aboufazeli F et al., Novel Cd(II) Ion Imprinted Polymer Coated on Multiwall Carbon Nanotubes as a Highly Selective Sorbent for Cadmium Determination in Food Samples.
Journal of AOAC International, 97, (1), 173-178, (2014)
Karimi M et al., Determination of Sulfonamides in Chicken Meat by Magnetic Molecularly Imprinted Polymer Coupled to HPLC-UV.
Food Analytical Methods, 7, (1), 73-80, (2014)
Ebrahimzadeh H et al., A magnetic ion-imprinted polymer for lead(II) determination: A study on the adsorption of lead(II) by beverages.
Journal of Food Composition and Analysis, 41, 74-80, (2015)
Sadeghi S
Feng SY et al., Molecularly imprinted solid-phase extraction for the screening of antihyperglycemic biguanides.Journal of Chromatography A, 1027, (1-2), 155-160, (2004)
Sadeghi S et al., Potentiometric sensing of levamisole hydrochloride based on molecularly imprinted polymer.
Sensors and Actuators B: Chemical, 122, (1), 158-164, (2007)
Sadeghi S et al., Synthesis of a new ion imprinted polymer material for separation and preconcentration of traces of uranyl ions.
Reactive and Functional Polymers, 67, (10), 966-976, (2007)
Sadeghi S et al., Magnetic nanoparticles with an imprinted polymer coating for the selective extraction of uranyl ions.
Microchimica Acta, 178, (1), 89-97, (2012)
Sadeghi S et al., Electroanalytical determination of sulfasalazine in pharmaceutical and biological samples using molecularly imprinted polymer modified carbon paste electrode.
Sensors and Actuators B: Chemical, 168, (1), 336-344, (2012)
Sadeghi S et al., Voltammetric sensor based on carbon paste electrode modified with molecular imprinted polymer for determination of sulfadiazine in milk and human serum.
Materials Science and Engineering: C, 33, (8), 4884-4891, (2013)
Sadeghi S et al., Selective solid-phase extraction using molecular imprinted polymer sorbent for the analysis of Florfenicol in food samples.
Food Chemistry, 141, (2), 1242-1251, (2013)
Azodi-Deilami S et al., Magnetic molecularly imprinted polymer nanoparticles coupled with high performance liquid chromatography for solid-phase extraction of carvedilol in serum samples.
Journal of Applied Polymer Science, 131, (23), Article No 41209-(2014)
Sadeghi S et al., Solid-Phase Extraction of Florfenicol from Meat Samples by a Newly Synthesized Surface Molecularly Imprinted Sol-Gel Polymer.
Food Analytical Methods, 7, (10), 2084-2094, (2014)
Sadeghi S et al., The development of a new optical sensor based on the Mn doped ZnS quantum dots modified with the molecularly imprinted polymers for sensitive recognition of florfenicol.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 159, 83-89, (2016)
Sadeghian GH
Akbari-Adergani B et al., Integrated photografted molecularly imprinted polymers with a cellulose acetate membrane for the extraction of melamine from dry milk before HPLC analysis.Journal of Separation Science, 40, (6), 1361-1368, (2017)
Sadeghian R
Hatamluyi B et al., Improved solid phase extraction for selective and efficient quantification of sunset yellow in different food samples using a novel molecularly imprinted polymer reinforced by Fe3O4@UiO-66-NH2.Food Chemistry, 357, Article129782-(2021)
Sadeghzadeh S
Nezhadali A et al., Experimental design-artificial neural network-genetic algorithm optimization and computer-assisted design of celecoxib molecularly imprinted polymer/carbon nanotube sensor.Journal of Electroanalytical Chemistry, 795, 32-40, (2017)
Nezhadali A et al., Spectrophotometric determination of fluoxetine by molecularly imprinted polypyrrole and optimization by experimental design, artificial neural network and genetic algorithm.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 190, 181-187, (2018)
Sadi B
Hrdina A et al., Synthesis of crown ether modified cation exchange polymer particles for 90Sr urinalysis.Reactive and Functional Polymers, 72, (5), 295-302, (2012)
Sadi BB
Bahraini N et al., Molecularly Imprinted Polymers for 90Sr Urine Bioassay.Health Physics, 101, (2), 128-135, (2011)
Lai EPC et al., Cd2+, Cu2+, Pb2+, Sr2+, and Y3+ binding characteristics of 17[beta]-estradiol molecularly imprinted polymer particles incorporated with dicyclohexano-18-crown-6 for urine bioassay.
Journal of Applied Polymer Science, 123, (1), 12-19, (2012)
Sadiki I
Betlem K et al., Evaluating the temperature dependence of heat-transfer based detection: A case study with caffeine and Molecularly Imprinted Polymers as synthetic receptors.Chemical Engineering Journal, 359, 505-517, (2019)
Sadjadi S
Shirazifard P et al., Selective solid-phase extraction of trace Pb(II) from aqueous solution using Pb(II)-ion imprinted polymer.Separation Science and Technology, 51, (2), 248-254, (2016)
Sadler R
Canfarotta F et al., Biocompatibility and internalization of molecularly imprinted nanoparticles.Nano Research, 9, (11), 3463-3477, (2016)
Sadoqi M
Okafor A et al., Surface Imprinted Sensor with Fluorescence Detection.Sensor Letters, 13, (9), 743-749, (2015)
Sadowska M
Cywinski P et al., Fluorescent, molecularly imprinted thin-layer films based on a common polymer.Journal of Applied Polymer Science, 105, (1), 229-235, (2007)
Sadowska M et al., Molecularly Imprinted Thin Polymeric Film as a Fluorescent Sensor for Nucleotides.
Molecular Crystals And Liquid Crystals, 486, (1), 203-212, (2008)
Wandelt B et al., Polymeric Sensory Systems Based on Molecular Imprinting for Identification and Separation of Molecules and Bigger Biological Objects.
Molecular Crystals And Liquid Crystals, 486, (1), 257-270, (2008)
Cywinski PJ et al., Thin-layer molecularly imprinted sensors studied by fluorescence microscopy.
e-Journal of Surface Science and Nanotechnology, 8, 293-297, (2010)
Sadowski R
Sadowski R et al., Isolation and determination of estrogens in water samples by solid-phase extraction using molecularly imprinted polymers and HPLC.Journal of Separation Science, 36, (14), 2299-2305, (2013)
Gadzala-Kopciuch R et al., Applications of Molecularly Imprinted Polymers for Isolation of Estrogens from Environmental Water Samples.
Current Analytical Chemistry, 12, (4), 315-323, (2016)
Sadoyan G
Gomes C et al., Development of Molecularly Imprinted Polymers to Target Polyphenols Present in Plant Extracts.Processes, 5, (4), ArticleNo72-(2017)
Sadr MH
Sheykhaghaei G et al., Synthesis of molecularly imprinted polymer nanoparticles for selective extraction and pre-concentration of protriptyline by ultrasound-assisted extraction method in human plasma.Analytical Methods, 8, (11), 2413-2419, (2016)
Sheykhaghaei G et al., Synthesis and characterization of core-shell magnetic molecularly imprinted polymer nanoparticles for selective extraction of tizanidine in human plasma.
Bulletin of Materials Science, 39, (3), 647-653, (2016)
Sadriu I
Sadriu I et al., Molecularly imprinted polymer modified glassy carbon electrodes for the electrochemical analysis of isoproturon in water.Talanta, 207, Article120222-(2020)
Saedi Z
Roushani M et al., Synthesis and application of ion-imprinted polymer for extraction and pre-concentration of iron ions in environmental water and food samples.Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 153, 637-644, (2016)
Roushani M et al., Preparation an electrochemical sensor for detection of manganese (II) ions using glassy carbon electrode modified with multi walled carbon nanotube-chitosan-ionic liquid nanocomposite decorated with ion imprinted polymer.
Journal of Electroanalytical Chemistry, 804, 1-6, (2017)
Roushani M et al., Application of ion-imprinted polymer synthesized by precipitation polymerization as an efficient and selective sorbent for separation and pre-concentration of chromium ions from some real samples.
Journal of the Iranian Chemical Society, 15, (10), 2241-2249, (2018)
Saeed Ashraf Janjua MR
Ullah B et al., 4-Nitrophenol imprinted core-shell poly(N-isopropylacrylamide-acrylic acid)/poly(acrylic acid) microgels loaded with cadmium nanoparticles: A novel catalyst.Materials Chemistry and Physics, 260, Article124156-(2021)
Saeedfar K
Futra D et al., A novel electrochemical sensor for 17[beta]-estradiol from molecularly imprinted polymeric microspheres and multi-walled carbon nanotubes grafted with gold nanoparticles.Analytical Methods, 8, (6), 1381-1389, (2016)
Saeedzadeh Amiri N
Saeedzadeh Amiri N et al., Application of ratiometric fluorescence sensor-based microwave-assisted synthesized CdTe quantum dots and mesoporous structured epitope-imprinted polymers for highly efficient determination of tyrosine phosphopeptide.Analytical Methods, 12, (1), 63-72, (2020)
Saeidi I
Peyrovi M et al., Synthesis of magnetic nanoparticle-based molecularly imprinted polymer as a selective sorbent for efficient extraction of ezetimibe from biological samples.Biomedical Chromatography, 33, (1), Article_e4404-(2019)
Saeidi M
Bazmandegan-Shamili A et al., High-Performance Liquid Chromatographic Determination of Diazinon after Its Magnetic Dispersive Solid-Phase Microextraction Using Magnetic Molecularly Imprinted Polymer.Food Analytical Methods, 9, (9), 2621-2630, (2016)
Bazmandegan-Shamili A et al., MultiSimplex optimization of the dispersive solid-phase microextraction and determination of fenitrothion by magnetic molecularly imprinted polymer and high-performance liquid chromatography.
Journal of the Iranian Chemical Society, 15, (5), 1181-1189, (2018)
Saeki T
Saeki T et al., Orientationally Fabricated Zwitterionic Molecularly Imprinted Nanocavities for Highly Sensitive Glycoprotein Recognition.Langmuir, 35, (5), 1320-1326, (2019)
Saelim J
Suedee R et al., Chiral determination of various adrenergic drugs by thin-layer chromatography using molecularly imprinted chiral stationary phases prepared with a-agonists.Analyst, 124, (7), 1003-1009, (1999)
Suedee R et al., Thin-layer chromatographic separation of chiral drugs on molecularly imprinted chiral stationary phases.
Jpc-Journal Of Planar Chromatography-Modern Tlc, 14, (3), 194-198, (2001)
Saengkerdsub S
Zhang ZT et al., Intersurface ion-imprinting synthesis on layered magadiite hosts.Chemistry of Materials, 15, (15), 2921-2925, (2003)
Saenkasa Z
Saenkasa Z et al., Comparison of molecular adsorption ability of the molecularly imprinted polymers prepared by ethylene glycol dimethacrylate and trimethylolpropane trimethacrylate as cross linkers.Journal of Applied Polymer Science, 103, (4), 2325-2330, (2007)
Safaeijavan R
Kazemi A et al., Thermosensitive molecularly imprinted poly(1-vinyl-2-pyrrolidone/methyl methacrylate/N-vinylcaprolactam) for selective extraction of imatinib mesylate in human biological fluid.Journal of Separation Science, 43, (3), 614-621, (2020)
Safaraliee L
Javanbakht M et al., A Biomimetic Potentiometric Sensor Using Molecularly Imprinted Polymer for the Cetirizine Assay in Tablets and Biological Fluids.Electroanalysis, 20, (18), 2023-2030, (2008)
Javanbakht M et al., Molecularly imprinted polymer based potentiometric sensor for the determination of hydroxyzine in tablets and biological fluids.
Analytica Chimica Acta, 612, (1), 65-74, (2008)
Safarian S
Madadian-Bozorg N et al., Poly (methacrylic acid)-based molecularly imprinted polymer nanoparticles containing 5-fluourouracil used in colon cancer therapy potentially.Polymers for Advanced Technologies, 29, (8), 2401-2409, (2018)
Fallah-Darrehchi M et al., Conductive conduit based on electrospun poly (l-lactide-co-D, l-lactide) nanofibers containing 4-aminopyridine-loaded molecularly imprinted poly (methacrylic acid) nanoparticles used for peripheral nerve regeneration.
International Journal of Biological Macromolecules, 190, 499-507, (2021)
Safaryan AHM
Munawar H et al., Determination of Fumonisin B1 in maize using molecularly imprinted polymer nanoparticles-based assay.Food Chemistry, 298, Article125044-(2019)
Safdarian M
Safdarian M et al., Facile synthesis of magnetic molecularly imprinted polymer: Perphenazine template and its application in urine and plasma analysis.Journal of Chromatography A, 1455, 28-36, (2016)
Safdarian M et al., Rapid microwave-assisted distillation-precipitation polymerization for the synthesis of magnetic molecular imprinted polymers coupled to HPTLC determination of perphenazine in human urine.
New Journal of Chemistry, 43, (1), 48-57, (2019)
Ramezani Z et al., Metal-coded hydrogel magnetic molecularly imprinted polymer for preconcentration and cleanup of sarcosine: Determination in urine; coupled to on-column capillary electrophoresis.
Talanta, 230, Article122309-(2021)
Saffar S
Mashinchian O et al., Cell-Imprinted Substrates Act as an Artificial Niche for Skin Regeneration.ACS Applied Materials & Interfaces, 6, (15), 13280-13292, (2014)
Safi S
Peighambarzadeh SZ et al., Presence of atrazine in the biological samples of cattle and its consequence adversity in human health.Iranian Journal of Public Health, 40, (4), 112-121, (2011)
Safina GD
Safina GD et al., Analysis of guest binary mixtures by tert-butylcalix[6]arene using host memory of previously bound guests.Organic & Biomolecular Chemistry, 11, (8), 1318-1325, (2013)
Safinya CR
Ikawa T et al., Molecular Scale Imaging of F-Actin Assemblies Immobilized on a Photopolymer Surface.Physical Review Letters, 98, (1), Art. No. 018101-(2007)
Safran V
Safran V et al., Rapid sensing of Cu+2 in water and biological samples by sensitive molecularly imprinted based plasmonic biosensor.Microchemical Journal, 148, 141-150, (2019)
Safran V et al., Development of Molecularly Imprinted Polymer-Based Optical Sensor for the Sensitive Penicillin G Detection in Milk.
ChemistrySelect, 6, (43), 11865-11875, (2021)
Safrany A
Zsebi Z et al., Analytical followup of the gamma initiated synthesis of a molecularly imprinted polymer.Analytica Chimica Acta, 608, (2), 197-203, (2008)
Safwat N
Kamel AH et al., Assessment of pesticides in environmental samples using voltammetric molecular imprinted based sensors: A review.European Chemical Bulletin, 5, (2), 69-76, (2016)
Sagawa T
Ohkubo K et al., Homogeneous and heterogeneous esterolytic catalyzes of imidazole-containing polymers prepared by molecular imprinting of a transition-state analog.Journal of Molecular Catalysis, 87, (1), L21-L24, (1994)
Ohkubo K et al., Homogeneous esterolytic catalysis of a polymer prepared by molecular imprinting of a transition-state analog.
Journal of Molecular Catalysis, 93, (2), 189-193, (1994)
Ohkubo K et al., High esterolytic activity of a novel water-soluble polymer catalyst imprinted by a transition-state analog.
Journal of the Chemical Society-Chemical Communications, (20), 2143-2144, (1995)
Ohkubo K et al., Molecular design of transition-state analog-imprinted polymer catalysts-stereoselective esterolysis of amino-acid esters.
Kobunshi Ronbunshu, 52, (10), 644-649, (1995)
Ohkubo K et al., Catalytic activities of novel L-histidyl group-introduced polymers imprinted by a transition-state analog in the hydrolysis of amino-acid esters.
Journal of Molecular Catalysis A: Chemical, 101, (2), L111-L114, (1995)
Ohkubo K et al., Catalytic activity of a novel water-soluble cross-linked polymer imprinted by a transition-state analogue for the stereoselective hydrolysis of enantiomeric amino acid esters.
Polymer, 37, (17), 3993-3995, (1996)
Sagawa T et al., Esterolytic catalyses of self-assembled monolayers prepared by molecular imprinting of a transition-state analogue.
Abstracts of Papers of the American Chemical Society, 215, (COLL), 166-166, (1998)
Sagawa T et al., Catalytic and stereoselective activities of cross-linked polymers imprinted with reaction intermediate for enzyme-like reactions.
Recent Research Developments in Pure & Applied Chemistry, 3, (1), 57-71, (1999)
Ohkubo K et al., Shape- and stereo-selective esterase activities of cross-linked polymers imprinted with a transition-state analogue for the hydrolysis of amino acid esters.
Journal of Molecular Catalysis A: Chemical, 165, (1-2), 1-7, (2001)
Ohkubo K et al., Influence of cross-linking monomer and hydrophobic styrene comonomer on stereoselective esterase activities of polymer catalyst imprinted with a transition-state analogue for hydrolysis of amino acid esters.
Polymer, 42, (5), 2263-2266, (2001)
Sagawa T et al., Rate-enhancement of hydrolysis of long-chain amino acid ester by cross-linked polymers imprinted with a transition-state analogue: evaluation of imprinting effect in kinetic analysis.
Analytica Chimica Acta, 504, (1), 37-41, (2004)
Sagawa T et al., Proceeding, Surface molecularly imprinted TiO2 nanoparticle for photoreduction of viologen,
Ellingson R (Ed.), 25-30, (2006)
Sagawa T, Efficient photoinduced electron transfer using TiO2 doped polymer.
Kobunshi Ronbunshu, 68, (5), 307-314, (2011)
Sagawa Y
Morihara K et al., Footprint catalysis .3. Inducible alteration of substrate specificities of silica(alumina) gel catalysts for 2, 4-dinitrophenolysis of toluic anhydrides by footprint imprinting.Bulletin of the Chemical Society of Japan, 62, (2), 499-505, (1989)
Sagdilek E
Osman B et al., Molecularly imprinted composite cryogel for extracorporeal removal of uric acid.Colloids and Surfaces B: Biointerfaces, 183, Article110456-(2019)
Sagin F
Uygun ZO et al., Development of a biomimetic affinity column coupled to tandem mass spectrometry by molecular imprinting for specific glycosaminoglycan separation from urine.FEBS Journal, 283, (S1), 314-314, (2016)
Sagiv J
Sagiv J, Organized monolayers by adsorption. III. Irreversible adsorption and memory effects in skeletonized silane monolayers.Israel Journal of Chemistry, 18, (3-4), 346-353, (1979)
Sagiv J, Organized monolayers by adsorption. 1. Formation and structure of oleophobic mixed monolayers on solid surfaces.
Journal of the American Chemical Society, 102, (1), 92-98, (1980)
Cohen SR et al., Thermally induced disorder in organized organic monolayers on solid substrates.
Journal of Physical Chemistry, 90, (14), 3054-3056, (1986)
Rubinstein I et al., Ionic recognition and selective response in self-assembling monolayer membranes on electrodes.
Nature, 332, (6163), 426-429, (1988)
Saglam N
Safran V et al., Rapid sensing of Cu+2 in water and biological samples by sensitive molecularly imprinted based plasmonic biosensor.Microchemical Journal, 148, 141-150, (2019)
Derazshamshir A et al., Phenol removal from wastewater by surface imprinted bacterial cellulose nanofibres.
Environmental Technology, 41, (24), 3134-3145, (2020)
Saha J
Ali M et al., Zero-order therapeutic release from imprinted hydrogel contact lenses within in vitro physiological ocular tear flow.Journal of Controlled Release, 124, (3), 154-162, (2007)
Venkatesh S et al., Transport and structural analysis of molecular imprinted hydrogels for controlled drug delivery.
European Journal of Pharmaceutics and Biopharmaceutics, 69, (3), 852-860, (2008)
Saha P
Das PS et al., Contact lenses: A development towards ocular drug delivery system.World Journal of Pharmaceuticla Research, 6, (9), 207-216, (2017)
Saha S
Roy E et al., Shape effect on the fabrication of imprinted nanoparticles: Comparison between spherical-, rod-, hexagonal-, and flower-shaped nanoparticles.Chemical Engineering Journal, 321, 195-206, (2017)
Sahar Afzali Borujeni SA
Sahar Afzali Borujeni SA et al., Proceeding, Synthesis of Ion Imprinted Polymers for uptake of Cobalt(II) from invironmental samples,(2011)
Sahara M
Yamashita K et al., Proceeding, Dependence of gel structure on the molecular recognition ability of stimuli-responsive imprinting hydrogel,1843, (2002)
Yamashita K et al., Proceeding, Preparation of imprinting hydrogel adsorbents,
1842, (2002)
Sahebnasagh A
Rahmani A et al., Haloperidol imprinted polymer: preparation, evaluation, and application for drug assay in brain tissue.Analytical and Bioanalytical Chemistry, 406, (29), 7729-7739, (2014)
Sahebnasagh A et al., Preparation and Evaluation of Histamine Imprinted Polymer as a Selective Sorbent in Molecularly Imprinted Solid-Phase Extraction Coupled with High Performance Liquid Chromatography Analysis in Canned Fish.
Food Analytical Methods, 7, (1), 1-8, (2014)
Sahedur Rahman M
Ahmed MB et al., Chloramphenicol interaction with functionalized biochar in water: sorptive mechanism, molecular imprinting effect and repeatable application.Science of The Total Environment, 609, 885-895, (2017)
Sahin F
Turan E et al., Molecularly imprinted biocompatible magnetic nanoparticles for specific recognition of Ochratoxin A.Sensors and Actuators B: Chemical, 227, 668-676, (2016)
Sahin M
Özcan L et al., Electrochemical preparation of a molecularly imprinted polypyrrole-modified pencil graphite electrode for determination of ascorbic acid.Sensors, 8, (9), 5792-5805, (2008)
Sahin S
Isik D et al., Electrochemical impedimetric detection of kanamycin using molecular imprinting for food safety.Microchemical Journal, 160, Article105713-(2021)
Sahin Y
Özcan L et al., Determination of paracetamol based on electropolymerized-molecularly imprinted polypyrrole modified pencil graphite electrode.Sensors and Actuators B: Chemical, 127, (2), 362-369, (2007)
Özcan L et al., Electrochemical preparation of a molecularly imprinted polypyrrole-modified pencil graphite electrode for determination of ascorbic acid.
Sensors, 8, (9), 5792-5805, (2008)
Özkorucuklu SP et al., Voltammetric Behaviour of Sulfamethoxazole on Electropolymerized-Molecularly Imprinted Overoxidized Polypyrrole.
Sensors, 8, (12), 8463-8478, (2008)
Sahiner N
Seven F et al., Metal ion-imprinted hydrogel with magnetic properties and enhanced catalytic performances in hydrolysis of NaBH4 and NH3BH3.International Journal of Hydrogen Energy, 38, (35), 15275-15284, (2013)
Seven F et al., Imprinting hydrogels with metal ions for metal nanoparticle preparation and use in hydrogen production as catalysis media.
Abstracts of Papers of the American Chemical Society, 245, (POLY), 366-(2013)
Sahoo G
Sahu D et al., Nano silver imprinted polyvinyl alcohol nanocomposite thin films for Hg2+ sensor.Sensors and Actuators B: Chemical, 246, 96-107, (2017)
Sahoo P
Sahoo P, Molecular recognition of caffeine in solution and solid state.Bioorganic Chemistry, 58, 26-47, (2015)
Sahraei R
Abbasi S et al., Synthesis and application of ion-imprinted polymer nanoparticles for the determination of nickel ions.Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 140, 534-543, (2015)
Roushani M et al., Synthesis and application of ion-imprinted polymer nanoparticles for the extraction and preconcentration of zinc ions.
Food Chemistry, 173, 266-273, (2015)
Hemmati K et al., Synthesis and characterization of a novel magnetic molecularly imprinted polymer with incorporated graphene oxide for drug delivery.
Polymer, 101, 257-268, (2016)
Sahragard A
Bojdi MK et al., A palladium imprinted polymer for highly selective and sensitive electrochemical determination of ultra-trace of palladium ions.Electrochimica Acta, 149, 108-116, (2014)
Sahu D
Sahu D et al., Nano silver imprinted polyvinyl alcohol nanocomposite thin films for Hg2+ sensor.Sensors and Actuators B: Chemical, 246, 96-107, (2017)
Sai N
Guo C et al., Detection of bisphenol A using an opal photonic crystal sensor.Sensors and Actuators B: Chemical, 166-167, (1), 17-23, (2012)
Sai N et al., An imprinted crystalline colloidal array chemical-sensing material for detection of trace diethylstilbestrol.
Analyst, 138, (9), 2720-2728, (2013)
Sai N et al., Molecular imprinted opal closest-packing photonic crystals for the detection of trace 17[beta]-estradiol in aqueous solution.
Talanta, 144, 157-162, (2015)
Sai N et al., A novel enrichment imprinted crystalline colloidal array for the ultratrace detection of chloramphenicol.
Talanta, 161, 1-7, (2016)
Sai N et al., A novel photonic sensor for the detection of chloramphenicol.
Arabian Journal of Chemistry, 12, (8), 4398-4406, (2019)
Sai-Anand G
Anantha-Iyengar G et al., Functionalized conjugated polymers for sensing and molecular imprinting applications.Progress in Polymer Science, 88, 1-129, (2019)
Saiapina OY
Soldatkin AP et al., Biosensors. A quarter of a century of R&D experience.Biopolymers and Cell, 29, (3), 188-206, (2013)
Said MSM
Ishak N et al., Surface Modification of PVDF Membrane with a Caffeic Acid-Imprinted Polymer Layer.Research Communication in Engineering Science & Technology 1 (2018)
Nasir AM et al., One-pot synthesis of molecular-imprinted membrane for selective extraction of caffeic acid.
Polymer Bulletin, 77, (8), 3953-3968, (2020)
Said R
Moein MM et al., Solid Phase Microextraction and Related Techniques for Drugs in Biological Samples.Journal of Analytical Methods in Chemistry, 2014, Article ID 921350-(2014)
Saifuddin N
Saifuddin N et al., Microwave Enhanced Synthesis of Chitosan-graft-Polyacrylamide Molecularly Imprinted Polymer (MIP) for Selective Extraction of Antioxidants.E-Journal of Chemistry, 7, (4), 1362-1374, (2010)
Saifuddin N et al., Microwave enhanced synthesis of chitosan-graft-polyacrylamide molecular imprinting polymer for selective removal of 17[beta]-estradiol at trace concentration.
Asian Journal of Biochemistry, 6, (1), 38-54, (2011)
Saigo A
Fukusaki EI et al., An artificial plastic receptor that discriminates axial asymmetry.Journal of Bioscience and Bioengineering, 90, (6), 665-668, (2000)
Saigo K
Ishida Y et al., Switching of Structural Order in a Cross-Linked Polymer Triggered by the Desorption/Adsorption of Guest Molecules.Journal of the American Chemical Society, 128, (40), 13068-13069, (2006)
Amano S et al., Solid-State Hosts by the Template Polymerization of Columnar Liquid Crystals: Locked Supramolecular Architectures around Chiral 2-Amino Alcohols.
Chemistry - A European Journal, 13, (18), 5186-5196, (2007)
Saiki Y
Matsui J et al., Face-to-face porphyrin moieties assembled with spacing for pyrazine recognition in molecularly imprinted polymers.Biosensors and Bioelectronics, 25, (3), 635-639, (2009)
Saimatsu K
Nagaoka T et al., Entrapment of Whole Cell Bacteria into Conducting Polymers.Journal of Flow Injection Analysis, 29, (1), 7-10, (2012)
Tokonami S et al., Label-Free and Selective Bacteria Detection Using a Film with Transferred Bacterial Configuration.
Analytical Chemistry, 85, (10), 4925-4929, (2013)
Saini RP
Arora RK et al., Biosensor: Way of Diagnostics.International Journal of Pharmaceutical Sciences and Research, 4, (7), 2517-2527, (2013)
Saini S
Saint-Pierre G et al., Proceeding, Smart sensor for environmental applications,Cane C, Chiao JC, Verdu FV (Eds.), 273-284, (2005)
Nicholls C et al., Displacement imprinted polymer receptor analysis (DIPRA) for chlorophenolic contaminants in drinking water and packaging materials.
Biosensors and Bioelectronics, 21, (7), 1171-1177, (2006)
Saini SS
Kaur K et al., Micelle enhanced and terbium sensitized spectrofluorimetric determination of danofloxacin in milk using molecularly imprinted solid phase extraction.Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 96, 790-795, (2012)
Saini SS et al., Molecularly Imprinted Polymers for the Detection of Food Toxins: A Minireview.
Advances in Nanoparticles, 2, (1), 60-65, (2013)
Sainio T
Laatikainen M et al., Complexation of Nickel with 2-(Aminomethyl)pyridine at High Zinc Concentrations or in a Nonaqueous Solvent Mixture.Journal of Chemical & Engineering Data, 59, (7), 2207-2214, (2014)
Laatikainen K et al., Effect of template ion-ligand complex stoichiometry on selectivity of ion-imprinted polymers.
Talanta, 134, 538-545, (2015)
Lenoble V et al., Nickel retention by an ion-imprinted polymer: Wide-range selectivity study and modelling of the binding structures.
Chemical Engineering Journal, 304, 20-28, (2016)
Meouche W et al., Effect of porogen solvent on the properties of nickel ion imprinted polymer materials prepared by inverse suspension polymerization.
European Polymer Journal, 87, 124-135, (2017)
Laatikainen K et al., In situ complexation versus complex isolation in synthesis of ion imprinted polymers.
Reactive and Functional Polymers, 122, 1-8, (2018)
Saint CP
Cetó X et al., Electrochemical detection of N-nitrosodimethylamine using a molecular imprinted polymer.Sensors and Actuators B: Chemical, 237, 613-620, (2016)
Saint-Aman E
Heitzmann M et al., Complexation of poly(pyrrole-EDTA like) film modified electrodes: Application to metal cations electroanalysis.Electrochimica Acta, 52, (9), 3082-3087, (2007)
Buica GO et al., Poly(pyrrole-EDTA like) modified electrodes for mercury ions electroanalysis.
Journal of Optoelectronics and Advanced Materials, 11, (8), 1152-1159, (2009)
Buica GO et al., Voltammetric Sensing of Mercury and Copper Cations at Poly(EDTA-like) Film Modified Electrode.
Electroanalysis, 21, (1), 77-86, (2009)
Saint-Pierre G
Saint-Pierre G et al., Proceeding, Smart sensor for environmental applications,Cane C, Chiao JC, Verdu FV (Eds.), 273-284, (2005)
Sainz-Gonzalo FJ
Sainz-Gonzalo FJ et al., The development of a screening molecularly imprinted polymer optosensor for detecting xylenes in water samples.Microchemical Journal, 99, (2), 278-282, (2011)
Sainz-Gonzalo FJ et al., Synthesis and characterization of a molecularly imprinted polymer optosensor for TEXs-screening in drinking water.
Biosensors and Bioelectronics, 26, (7), 3331-3338, (2011)
Saisho M
Shiomi Y et al., Specific complexation of glucose with a diphenylmethane-3, 3'-diboronic acid-derivative - correlation between the absolute configuration of monosaccharide and disaccharide and the circular dichroic activity of the complex.Journal of the Chemical Society-Perkin Transactions 1, (17), 2111-2117, (1993)
Saito A
Yamazaki T et al., Molecular recognition of AGEs using molecularly imprinted polymer.Nippon Kagakkai Koen Yokoshu, 86, (2), 944-(2006)
Saito G
Pellizzoni E et al., Fluorescent molecularly imprinted nanogels for the detection of anticancer drugs in human plasma.Biosensors and Bioelectronics, 86, 913-919, (2016)
Pellizzoni E et al., Corrigendum to "Fluorescent molecularly imprinted nanogels for the detection of anticancer drugs in human plasma" [Biosens. Bioelectron. 86 (2016) 913-919].
Biosensors and Bioelectronics, 94, 728-(2017)
Saito K
Saito K et al., Proceeding, Less crosslinked molecularly imprinted polymer catalyst prepared from N-acryloylamino acid derivatives,1721, (2002)
Saito K et al., Proceeding, Synthesis of less cross-linked molecularly imprinted polymer catalyst by using the monomers containing peptide structure in side chain,
720, (2002)
Kawaguchi M et al., Molecularly imprinted solid phase extraction using stable isotope labeled compounds as template and liquid chromatography-mass spectrometry for trace analysis of bisphenol A in water sample.
Analytica Chimica Acta, 539, (1-2), 83-89, (2005)
Kushida N et al., Development of molecularly imprinted catalysts using various interactions from N-acryloylpeptide derivatives.
Polymer Preprints, Japan, 54, (1), 1888-(2005)
Oyama T et al., Polymer catalysts from "sequence-conformation imprinting" with N-acryloylpeptide monomers.
Polymer Preprints, Japan, 55, (2), 3865-3866, (2006)
Kataoka H et al., Recent advances in SPME techniques in biomedical analysis.
Journal of Pharmaceutical and Biomedical Analysis, 54, (5), 926-950, (2011)
Sakamoto Y et al., Determination of Chloramphenicol in Honey and Royal Jelly by Sample Clean-up with Molecular Imprinted Polymer.
Bunseki Kagaku, 61, (5), 383-389, (2012)
Saito M
Nguyen DQ et al., Proceeding, Advanced Materials for Pathogenic Bacterial Sensing,370-374, (2019)
Saito T
Ji HS et al., Increasing the sensitivity of piezoelectric odour sensors based on molecularly imprinted polymers.Biosensors and Bioelectronics, 15, (7-8), 403-409, (2000)
Matsuda Y et al., Synthesis of functional capsule gel incorporated with nicotine imprinted polymer and adsorptive characteristic for nicotine.
Journal of the Materials Science Society of Japan, 37, (4), 195-199, (2000)
Kajitani H et al., Asdorption Characteristics and Application of Caffeine-Imprinted Polymer.
Nippon Kagakkai Koen Yokoshu, 82, 284-(2002)
Kajitani H et al., Caffeine-Imprinted Polymer.
Nippon Kagakkai Koen Yokoshu, 81, (1), 562-(2002)
Kajitani H et al., Synthesis and Adsorption Characteristics of Caffeine-Imprinted Polymer.
Nippon Kagakkai Koen Yokoshu, 83, (1), 58-(2003)
Sajadi P
Sajadi P et al., Selective extraction and determination of sumatriptan succinate in human urine by synthesized thermosensitive molecularly imprinted poly(3-allyloxy-1, 2-propanediol/N-vinylcaprolactam).Separation Science and Technology, 53, (18), 2906-2915, (2018)
Sajini T
Sajini T et al., Book chapter, Photoresponsive materials containing azomoieties - a facile approach in molecular imprinting,In: Mathematical and Analytical Techniques, Haghi AK, Balköse D, Mukbaniani OV, Mercader AG (Eds.) Apple Academic Press: Oakville, Ontario, Ch. 13, (2017)
Sajini T et al., A brief overview of molecularly imprinted polymers supported on titanium dioxide matrices.
Materials Today Chemistry, 11, 283-295, (2019)
Sajini T et al., Kinetic and thermodynamic studies of molecularly imprinted polymers for the selective adsorption and specific enantiomeric recognition of D-mandelic acid.
Journal of Polymer Research, 26, (4), Article88-(2019)
Sajini T et al., Computational Design and Fabrication of Enantioselective Recognition Sorbents for L-phenylalanine Benzyl Ester on Multiwalled Carbon Nanotubes Using Molecular Imprinting Technology.
Chinese Journal of Polymer Science, 37, (12), 1305-1318, (2019)
Sajini T et al., Tailoring of photo-responsive molecularly imprinted polymers on multiwalled carbon nanotube as an enantioselective sensor and sorbent for L-PABE.
Composites Science and Technology, 181, Article107676-(2019)
Sajini T et al., Rational design and synthesis of photo-responsive molecularly imprinted polymers for the enantioselective intake and release of l-phenylalanine benzyl ester on multiwalled carbon nanotubes.
Polymer, 173, 127-140, (2019)
Sajini T et al., A brief overview of molecularly imprinted polymers: Highlighting computational design, nano and photo-responsive imprinting.
Talanta Open, 4, Article100072-(2021)
Sajjadi SM
Dahaghin Z et al., A novel magnetic ion imprinted polymer as a selective magnetic solid phase for separation of trace lead(II) ions from agricultural products, and optimization using a Box-Behnken design.Food Chemistry, 237, 275-281, (2017)
Sajjadi Z
Hashemi SH et al., Application of Box-Behnken design in response surface methodology for the molecularly imprinted polymer pipette-tip solid phase extraction of methyl red from seawater samples and its determination by spectrophotometery.Marine Pollution Bulletin, 137, 306-314, (2018)
Sajjadifar S
Abbasi S et al., Bio-dispersive liquid liquid microextraction based on nano rhamnolipid aggregates combined with molecularly imprinted-solid phase extraction for selective determination of paracetamol in human urine samples followed by HPLC.Microchemical Journal, 146, 106-114, (2019)
Abbasi S et al., Enrichment of cardiovascular drugs using rhamnolipid bioaggregates after dispersive solid phase extraction based water compatible magnetic molecularly imprinted biopolymers.
Microchemical Journal, 157, Article104874-(2020)
Sajonz P
Sajonz P et al., Study of the thermodynamics and mass transfer kinetics of two enantiomers on a polymeric imprinted stationary phase.Journal of Chromatography A, 810, (1-2), 1-17, (1998)
Chen YB et al., Influence of thermal annealing on the thermodynamic and mass transfer kinetic properties of D- and L-phenylalanine anilide on imprinted polymeric stationary phases.
Analytical Chemistry, 71, (5), 928-938, (1999)
Sakaguchi K
Nilsson KGI et al., Molecular imprinting of acetylated carbohydrate-derivatives into methacrylic polymers.Journal of Chromatography A, 707, (2), 199-203, (1995)
Shiomi T et al., A method for the molecular imprinting of hemoglobin on silica surfaces using silanes.
Biomaterials, 26, (27), 5564-5571, (2005)
Sakai FJ
Zhao Y et al., Progressive Macromolecular Self-Assembly: From Biomimetic Chemistry to Bio-Inspired Materials.Advanced Materials, 25, (37), 5215-5256, (2013)
Sakai K
Yoshimi Y et al., Template recognition and changes in the diffusive permeability of a thin layer of molecularly imprinted polymer.Japanese Journal of Artificial Organs, 29, (2), 441-445, (2000)
Hattori K et al., Gate effect of cellulosic dialysis membrane grafted with molecularly imprinted polymer.
Journal of Chemical Engineering of Japan, 34, (11), 1466-1469, (2001)
Yoshimi Y et al., Gate effect Yoshimi Y et al., Gate Effect Hattori K et al., Gate effect of theophylline-imprinted polymers grafted to the cellulose by living radical polymerization.
Journal of Membrane Science, 233, (1-2), 169-173, (2004)
Hattori K et al., Chiral-selectivity on gate effect of phenylalanine-imprinted polymers grafted onto cellulosic membrane.
Chem Sens, 20, (Supplement B), 384-385, (2004)
Hattori K et al., Effect of electrostatic interactions on gate effect in molecularly imprinted polymers.
Electrochemistry, 72, (7), 508-510, (2004)
Sekine S et al., Chiral sensing in organic solvent using gate effect of molecularly imprinted polymer.
Chem Sens, 21, (Supplement B), 22-24, (2005)
Hattori K et al., Gate effect of glucose-imprinted dialysis membrane.
Nephrology Dialysis Transplantation, 22, (Suppl. 6), 121-122, (2007)
Sekine SI et al., Influence of solvents on chiral discriminative gate effect of molecularly imprinted poly(ethylene glycol dimethacrylate-co-methacrylic acid).
Sensors and Actuators B: Chemical, 127, (2), 512-517, (2007)
Yoshimi Y et al., Development of an enzyme-free glucose sensor using the gate effect of a molecularly imprinted polymer.
Journal of Artificial Organs, 12, (4), 264-270, (2009)
Yoshimi Y et al., A glucose sensor using gate effect of molecularly imprinted polymer grafted on electrode.
Journal of Bioscience and Bioengineering, 108, (Supplement 1), S31-S31, (2009)
Hattori K et al., Chiral-selectivity on gate effect of phenylalanine-imprinted polymers grafted onto cellulosic membrane.
Chem Sens, 20, (Supplement B), 384-385, (2011)
Sakai Y
Haginaka J et al., Uniform-sized molecularly imprinted polymer material for propranolol. Recognition of propranolol and its metabolites.Analytical Sciences, 14, (4), 823-826, (1998)
Sasagawa Y et al., Detection of GOD Using a Molecular Imprinting Polymer Thin Film.
Nippon Kagakkai Koen Yokoshu, 75, 179-(1998)
Haginaka J et al., Preparation of molecularly imprinted polymers for propanolol and its metabolites, and their application to direct serum injection assays.
Chromatography, 20, (2), 188-189, (1999)
Alvarez-Lorenzo C et al., Polymer gels that memorize elements of molecular conformation.
Macromolecules, 33, (23), 8693-8697, (2000)
Haginaka J et al., Uniform-sized molecularly imprinted polymer material for (S)-propranolol.
Journal of Pharmaceutical and Biomedical Analysis, 22, (6), 899-907, (2000)
Alvarez-Lorenzo C et al., Reversible adsorption of calcium ions by imprinted temperature sensitive gels.
Journal of Chemical Physics, 114, (6), 2812-2816, (2001)
Hirayama K et al., Synthesis of polymer particles with specific lysozyme recognition sites by a molecular imprinting technique.
Journal of Applied Polymer Science, 81, (14), 3378-3387, (2001)
Hirayama K et al., Preparation of a sensor device with specific recognition sites for acetaldehyde by molecular imprinting technique.
Sensors and Actuators B: Chemical, 86, (1), 20-25, (2002)
Sakakibara Y
Suzuki M et al., Preparation of porous polymers by "in situ precipitation" using low molecular weight gelators.Polymer Journal, 34, (6), 474-(2002)
Sakamoto M
Tatemichi M et al., Protein-Templated Organic/Inorganic Hybrid Materials Prepared by Liquid-Phase Deposition.Journal of the American Chemical Society, 129, (35), 10906-10910, (2007)
Sakamoto S
Yoshikawa M et al., Molecularly imprinted polymeric membranes for optical resolution.Journal of Membrane Science, 108, (1-2), 171-175, (1995)
Yoshikawa M et al., Molecularly imprinted polymeric membranes containing DIDE derivatives for optical resolution of amino acids.
Macromolecules, 29, (25), 8197-8203, (1996)
Yoshikawa M et al., Alternative molecularly imprinted polymeric membranes from a tetrapeptide residue consisting of D- or L-amino acids.
Macromolecular Rapid Communications, 18, (9), 761-767, (1997)
Yoshikawa M et al., Molecularly imprinted polymeric membranes involving tetrapeptide EQKL derivatives as chiral-recognition sites toward amino acids.
Analytica Chimica Acta, 365, (1-3), 59-67, (1998)
Yoshikawa M et al., Chiral recognition of N-a-acetyltryptophans with molecularly imprinted polymeric membranes containing DVNE derivatives.
Sen'i Gakkaishi, 54, (2), 77-84, (1998)
Sakamoto T
Kodakari N et al., Molecular-sieving gas sensor prepared by chemical vapor deposition of silica on tin oxide using an organic template.Bulletin of the Chemical Society of Japan, 71, (2), 513-519, (1998)
Sakamoto W
Hayashi K et al., Cellulose-based molecularly imprinted red-blood-cell-like microparticles for the selective capture of cortisol.Carbohydrate Polymers, 193, 173-178, (2018)
Sakamoto Y
Sakamoto Y et al., Determination of Chloramphenicol in Honey and Royal Jelly by Sample Clean-up with Molecular Imprinted Polymer.Bunseki Kagaku, 61, (5), 383-389, (2012)
Sakane S
Sasaki Y et al., Polymer-Stabilized Micropixelated Liquid Crystals with Tunable Optical Properties Fabricated by Double Templating.Advanced Materials, 29, (37), ArticleNo1703054-(2017)
Sakarkar DM
Shelke CR et al., Synthesis and characterization of MIPs - a viable commercial venture.Pharmaceutical Reviews, 6, (5), (2008)
Sakata K
Sakata K et al., Siloxane polymer-films with varied microstructures.Chemistry Letters, 18, (12), 2159-2162, (1989)
Sakata T
Nishitani S et al., Development of molecularly imprinted polymer-based field effect transistor for sugar chain sensing.Japanese Journal of Applied Physics, 56, (4S), 04CM02-(2017)
Kajisa T et al., Molecularly Imprinted Artificial Biointerface for an Enzyme-Free Glucose Transistor.
ACS Applied Materials & Interfaces, 10, (41), 34983-34990, (2018)
Kajisa T et al., Well-designed dopamine-imprinted polymer interface for selective and quantitative dopamine detection among catecholamines using a potentiometric biosensor.
Biosensors and Bioelectronics, 117, 810-817, (2018)
Nishitani S et al., Potentiometric Adsorption Isotherm Analysis of a Molecularly Imprinted Polymer Interface for Small-Biomolecule Recognition.
ACS Omega, 3, (5), 5382-5389, (2018)
Yang HY et al., Potentiometric Langmuir Isotherm Analysis of Histamine-Selective Molecularly Imprinted Polymer-Based Field-Effect Transistor.
ECS Journal of Solid State Science and Technology, 7, (7), Q3079-Q3082, (2018)
Sakata T et al., Molecularly imprinted polymer-based bioelectrical interfaces with intrinsic molecular charges.
RSC Advances, 10, (29), 16999-17013, (2020)
Sakhraoui HEEY
Ait-Touchente Z et al., Zinc Oxide Nanorods Wrapped with Ion-Imprinted Polypyrrole Polymer for Picomolar Selective and Electrochemical Detection of Mercury II Ions.Proceedings, 2, (13), Article1004-(2018)
Sakiyama T
Enoki T et al., Frustrations in polymer conformation in gels and their minimization through molecular imprinting.Physical Review Letters, 85, (23), 5000-5003, (2000)
Sakoguchi A
Kamata I et al., Li (I) Selective Resins Prepared by Means of Molecular Imprinting Technique Utilizing Synergistic Effect.Bulletin of the Society of Sea Water Science, Japan, 56, (3), 228-233, (2002)
Araki K et al., Effect of the Functional Molecule on Adsorption Characteristics of Lithium-selective Surface Imprinted Polymer.
Journal of Ion Exchange, 14, (Supplement), 2-7, (2003)
Sakoguchi A et al., Li (I) Selective Adsorption by Means of Organic Resins Imprinted with Fluorine-containing [beta]-Diketone and Neutral Phosphorus Compound.
Journal of Ion Exchange, 14, (Supplement), 333-336, (2003)
Sakohara S
Kanazawa R et al., Preparation of molecular imprinted thermosensitive gel adsorbents and adsorption/desorption properties of heavy metal ions by temperature swing.Journal of Chemical Engineering of Japan, 37, (1), 59-66, (2004)
Kanazawa R et al., Preparation of thermosensitive microgel adsorbent for quick adsorption of heavy metal ions by a temperature change.
Journal of Chemical Engineering of Japan, 37, (6), 804-807, (2004)
Tokuyama H et al., Equilibrium and kinetics for temperature swing adsorption of a target metal on molecular imprinted thermosensitive gel adsorbents.
Separation and Purification Technology, 44, (2), 152-159, (2005)
Tokuyama H et al., Development and performance of a novel molecular imprinted thermosensitive gel with a cross-linked chelating group for the temperature swing adsorption of a target metal.
Journal of Chemical Engineering of Japan, 38, (8), 633-640, (2005)
Tokuyama H et al., Preparation of molecular imprinted thermosensitive gels grafted onto polypropylene by plasma-initiated graft polymerization.
Reactive and Functional Polymers, 68, (1), 182-188, (2008)
Saksena K
Saksena K et al., Chiral analysis of ascorbic acid in bovine serum using ultrathin molecular imprinted polyaniline/graphite electrode.Journal of Electroanalytical Chemistry, 795, 103-109, (2017)
Sakti SCW
Sakti SCW et al., Adsorption of gold(III) on ionic imprinted amino-silica hybrid prepared from rice hull ash.Pure And Applied Chemistry, 85, (1), 211-223, (2013)
Sakurai S
Yoshikawa M et al., Moelcularly imprinted materials from water soluble proteins from Geobacillus thermodenitrificans DSM465.Polymer Preprints, Japan, 54, (1), 1478-(2005)
Yoshikawa M et al., Green polymers from Geobacillus thermodenitrificans DSM465 - Candidates for molecularly imprinted materials.
Macromolecular Bioscience, 6, (3), 210-215, (2006)
Salahshoor Z
Rossi E et al., Detection of chlorantraniliprole residues in tomato using field-deployable MIP photonic sensors.Microchimica Acta, 188, (3), Article70-(2021)
Salajegheh M
Salajegheh M et al., Computational design as a green approach for facile preparation of molecularly imprinted polyarginine-sodium alginate-multiwalled carbon nanotubes composite film on glassy carbon electrode for theophylline sensing.Journal of Pharmaceutical and Biomedical Analysis, 162, 215-224, (2019)
Salajegheh M et al., Morphine Sensing by a Green Modified Molecularly Imprinted Poly L-Lysine/Sodium Alginate-activated Carbon/Glassy Carbon Electrode Based on Computational Design.
Electroanalysis, 31, (3), 468-476, (2019)
Salam A
Salam A et al., Enantio-selective MIP "nano-monolith" composite membranes.Desalination, 199, (1-3), 532-534, (2006)
Salam A et al., Effect of Surface Modification on the Synthesis of Pore-Filling Polymeric Monoliths in Microfiltration Membranes Made from Poly(propylene) and Poly(ethylene terephthalate).
Macromolecular Materials And Engineering, 292, (3), 310-318, (2007)
Salam AA
Abu-Dalo MA et al., Ion Imprinted Polymer Based Electrochemical Sensor for Environmental Monitoring of Copper(II).International Journal of Electrochemical Science, 10, 6780-6793, (2015)
Salam KMM
Mahmoud GA et al., Radiation synthesis of imprinted hydrogels for selective metal ions adsorption.Desalination and Water Treatment, 57, (35), 16540-16551, (2016)
Salam MA
AL-Ammari RH et al., Electrochemical molecularly imprinted polymer based on zinc oxide/graphene/poly(o-phenylenediamine) for 4-chlorophenol detection.Synthetic Metals, 254, 141-152, (2019)
Salama KN
Beduk T et al., One-step electrosynthesized molecularly imprinted polymer on laser scribed graphene bisphenol a sensor.Sensors and Actuators B: Chemical, 314, Article128026-(2020)
Surya SG et al., A chitosan gold nanoparticles molecularly imprinted polymer based ciprofloxacin sensor.
RSC Advances, 10, (22), 12823-12832, (2020)
Lahcen AA et al., Laser-scribed graphene sensor based on gold nanostructures and molecularly imprinted polymers: Application for Her-2 cancer biomarker detection.
Sensors and Actuators B: Chemical, 347, Article130556-(2021)
Salami-Kalajahi M
Abdollahi E et al., Molecular Recognition Ability of Molecularly Imprinted Polymer Nano- and Micro-Particles by Reversible Addition-Fragmentation Chain Transfer Polymerization.Polymer Reviews, 56, (4), 557-583, (2016)
Abdollahi E et al., Synthesis of new molecularly imprinted polymer via reversible addition fragmentation transfer polymerization as a drug delivery system.
Polymer, 143, 245-257, (2018)
Salamon Z
Devanathan S et al., Subpicomolar sensing of [delta]-opioid receptor ligands by molecular-imprinted polymers using plasmon-waveguide resonance spectroscopy.Analytical Chemistry, 77, (8), 2569-2574, (2005)
Salarian M
Behbahani M et al., A nanostructured ion-imprinted polymer for the selective extraction and preconcentration of ultra-trace quantities of nickel ions.Microchimica Acta, 178, (3), 429-437, (2012)
Behbahani M et al., Synthesis and characterisation of nano structure lead (II) ion-imprinted polymer as a new sorbent for selective extraction and preconcentration of ultra trace amounts of lead ions from vegetables, rice, and fish samples.
Food Chemistry, 138, (2-3), 2050-2056, (2013)
Behbahani M et al., Synthesis, characterization and analytical application of Zn(II)-imprinted polymer as an efficient solid-phase extraction technique for trace determination of zinc ions in food samples.
Journal of Food Composition and Analysis, 34, (1), 81-89, (2014)
Behbahani M et al., Application of a tailor-made polymer as a selective and sensitive colorimetric sensor for reliable detection of trace levels of uranyl ions in complex matrices.
RSC Advances, 5, (74), 59912-59920, (2015)
Salarian R
Karimi M et al., A graphene based-biomimetic molecularly imprinted polyaniline sensor for ultrasensitive detection of human cardiac troponin T (cTnT).Synthetic Metals, 256, Article116136-(2019)
Salavagione HJ
Salavagione HJ et al., Chemical sensors based on polymer composites with carbon nanotubes and graphene: the role of the polymer.Journal of Materials Chemistry A, 2, (35), 14289-14328, (2014)
Salavati H
Kia S et al., Preparation of a novel molecularly imprinted polymer by the sol-gel process for solid phase extraction of vitamin D3.RSC Advances, 6, (38), 31906-31914, (2016)
Salavati MR
Fayazi M et al., Synthesis and application of a novel nanostructured ion-imprinted polymer for the preconcentration and determination of thallium(I) ions in water samples.Journal of Hazardous Materials, 309, 27-36, (2016)
Salbini M
D’Aurelio R et al., A Comparison of EIS and QCM NanoMIP-Based Sensors for Morphine.Nanomaterials, 11, (12), ArticleNo3360-(2021)
Salehi E
Salehi E et al., Thermodynamic investigation and mathematical modeling of ion-imprinted membrane adsorption.Journal of Membrane Science, 389, (1), 334-342, (2012)
Salehi E, Application of diffusive transport model for better insight into retardation mechanisms involved in ion-imprinted membrane transport.
Chinese Journal of Chemical Engineering, 24, (9), 1161-1165, (2016)
Salehi L
Rohani Moghadam M et al., Voltammetric sensing of oxacillin by using a screen-printed electrode modified with molecularly imprinted polyaniline, gold nanourchins and graphene oxide.Microchimica Acta, 186, (12), Article798-(2019)
Salehi S
Salehi S et al., Synthesis of molecular imprinted polymers for selective extraction of domperidone from human serum using high performance liquid chromatography with fluorescence detection.Journal of Chromatography B, 1027, 165-173, (2016)
Salehnia M
Lauer M et al., On the chemistry of binding-sites, 4. On an unusual increase in reactivity of arylboronic acids by neighboring groups.Chemische Berichte-Recueil, 118, 246-260, (1985)
Salem SA
Hussein HA et al., Designing and fabrication of new VIP biosensor for the rapid and selective detection of foot-and-mouth disease virus (FMDV).Biosensors and Bioelectronics, 141, Article111467-(2019)
Sales GF
Silva BVM et al., An ultrasensitive human cardiac troponin T graphene screen-printed electrode based on electropolymerized-molecularly imprinted conducting polymer.Biosensors and Bioelectronics, 77, 978-985, (2016)
Moreira FTC et al., Colorimetric cellulose-based test-strip for rapid detection of amyloid [beta]-42.
Microchimica Acta, 188, (10), Article334-(2021)
Sales MG
Moreira FTC et al., Man-tailored biomimetic sensor of molecularly imprinted materials for the potentiometric measurement of oxytetracycline.Biosensors and Bioelectronics, 26, (2), 566-574, (2010)
Moreira FTC et al., New potentiometric sensors based on two competitive recognition sites for determining tetracycline residues using flow-through system.
Procedia Engineering, 5, 1200-1203, (2010)
Kamel AH et al., Biomimetic Sensor Potentiometric System for Doxycycline Antibiotic Using a Molecularly Imprinted Polymer as an Artificial Recognition Element.
Sensor Letters, 9, (5), 1654-1660, (2011)
Moreira FTC et al., Biomimetic sensors of molecularly-imprinted polymers for chlorpromazine determination.
Materials Science and Engineering: C, 31, (5), 1121-1128, (2011)
Moreira FTC et al., Myoglobin-biomimetic electroactive materials made by surface molecular imprinting on silica beads and their use as ionophores in polymeric membranes for potentiometric transduction.
Biosensors and Bioelectronics, 26, (12), 4760-4766, (2011)
Moreira FTC et al., Artificial antibodies for troponin T by its imprinting on the surface of multiwalled carbon nanotubes: Its use as sensory surfaces.
Biosensors and Bioelectronics, 28, (1), 243-250, (2011)
Oliveira HMV et al., Ciprofloxacin-imprinted polymeric receptors as ionophores for potentiometric transduction.
Electrochimica Acta, 56, (5), 2017-2023, (2011)
Moreira FTC et al., Surface Imprinting Approach on Screen Printed Electrodes Coated with Carboxylated PVC for Myoglobin detection with Electrochemical Transduction.
Procedia Engineering, 47, 865-868, (2012)
Queiros RB et al., Determination of Microcystin-LR in waters in the subnanomolar range by sol-gel imprinted polymers on solid contact electrodes.
Analyst, 137, (10), 2437-2444, (2012)
Moreira FTC et al., Host-tailored sensors for leucomalachite green potentiometric measurements.
Journal of Chemistry, 2013, Article ID 605403-(2013)
Sales MGF
Kamel AH et al., Novel Potentiometric Sensors of Molecular Imprinted Polymers for Specific Binding of Chlormequat.Electroanalysis, 20, (2), 194-202, (2008)
Moreira FTC et al., New biomimetic sensors for the determination of tetracycline in biological samples: Batch and flow mode operations.
Analytical Methods, 2, (12), 2039-2045, (2010)
Queirós RB et al., Sensors for the Detection and Quantification of Bacterial Contamination in Water for Human Use.
Advanced Engineering Materials, 12, (5), B175-B178, (2010)
Queirós RB et al., Proceeding, Optical cavity fibre sensor for detection of microcystin-LR in water,
Santos JL, Culshaw B, Lopez-Higuera JM, MacPherson WN (Eds.), Art. No. 76531N, (2010)
Almeida SAA et al., Sulphonamide-imprinted sol-gel materials as ionophores in potentiometric transduction.
Materials Science and Engineering: C, 31, (8), 1784-1790, (2011)
Almeida SAA et al., Novel LTCC-potentiometric microfluidic device for biparametric analysis of organic compounds carrying plastic antibodies as ionophores: Application to sulfamethoxazole and trimethoprim.
Biosensors and Bioelectronics, 30, (1), 197-203, (2011)
Guerreiro JRL et al., New sensing materials of molecularly-imprinted polymers for the selective recognition of Chlortetracycline.
Microchemical Journal, 97, (2), 173-181, (2011)
Guerreiro JRL et al., Selective recognition in potentiometric transduction of amoxicillin by molecularly imprinted materials.
European Food Research and Technology, 232, (1), 39-50, (2011)
Kamel AH et al., A Solid Binding Matrix/Mimic Receptor-Based Sensor System for Trace Level Determination of Iron Using Potential Measurements.
International Journal of Electrochemistry, 2011, Article ID 643683-(2011)
Kamel AH et al., Molecularly-Imprinted Materials for Potentiometric Transduction: Application to the Antibiotic Enrofloxacin.
Analytical Letters, 44, (12), 2107-2123, (2011)
Moreira FTC et al., Biomimetic norfloxacin sensors made of molecularly-imprinted materials for potentiometric transduction.
Microchimica Acta, 172, (1), 15-23, (2011)
Queirós RB et al., Microcystin-LR detection in water by the Fabry-Pérot interferometer using an optical fibre coated with a sol-gel imprinted sensing membrane.
Biosensors and Bioelectronics, 26, (9), 3932-3937, (2011)
Rebelo TSCR et al., Trimethoprim-selective electrodes with molecularly imprinted polymers acting as ionophores and potentiometric transduction on graphite solid-contact.
Microchemical Journal, 98, (1), 21-28, (2011)
Almeida SAA et al., Optimizing potentiometric ionophore and electrode design for environmental on-site control of antibiotic drugs: Application to sulfamethoxazole.
Biosensors and Bioelectronics, 35, (1), 319-326, (2012)
Queirós RB et al., Label-free Detection of Microcystin-LR in Waters Using Real-Time Potentiometric Biosensors Based on Single-Walled Carbon Nanotubes Imprinted Polymers.
Procedia Engineering, 47, 758-761, (2012)
Moreira FTC et al., Smart plastic antibody material (SPAM) tailored on disposable screen printed electrodes for protein recognition: Application to myoglobin detection.
Biosensors and Bioelectronics, 45, 237-244, (2013)
Moreira FTC et al., Novel biosensing device for point-of-care applications with plastic antibodies grown on Au-screen printed electrodes.
Sensors and Actuators B: Chemical, 182, 733-740, (2013)
Moreira FTC et al., Electrochemical biosensor based on biomimetic material for myoglobin detection.
Electrochimica Acta, 107, 481-487, (2013)
Queirós RB et al., Recycling old screen-printed electrodes with newly designed plastic antibodies on the wall of carbon nanotubes as sensory element for in situ detection of bacterial toxins in water.
Sensors and Actuators B: Chemical, 189, 21-29, (2013)
Tavares APM et al., Haemoglobin smart plastic antibody material tailored with charged binding sites on silica nanoparticles: its application as an ionophore in potentiometric transduction.
RSC Advances, 3, (48), 26210-26219, (2013)
Cabral-Miranda G et al., Backside-surface imprinting as a new strategy to generate specific plastic antibody materials.
Journal of Materials Chemistry B, 2, (20), 3087-3095, (2014)
Moreira FTC et al., Protein-responsive polymers for point-of-care detection of cardiac biomarker.
Sensors and Actuators B: Chemical, 196, 123-132, (2014)
Moret J et al., New molecularly-imprinted polymer for carnitine and its application as ionophore in potentiometric selective membranes.
Materials Science and Engineering: C, 43, 481-487, (2014)
Rebelo TSCR et al., Novel Prostate Specific Antigen plastic antibody designed with charged binding sites for an improved protein binding and its application in a biosensor of potentiometric transduction.
Electrochimica Acta, 132, 142-150, (2014)
Truta LAAN et al., Graphene-based biomimetic materials targeting urine metabolite as potential cancer biomarker: Application over different conductive materials for potentiometric transduction.
Electrochimica Acta, 150, 99-107, (2014)
Moreira FTC et al., Detection of cardiac biomarker proteins using a disposable based on a molecularly imprinted polymer grafted onto graphite.
Microchimica Acta, 182, (5-6), 975-983, (2015)
Guerreiro JRL et al., Molecular Imprinting of Complex Matrices at Localized Surface Plasmon Resonance Biosensors for Screening of Global Interactions of Polyphenols and Proteins.
ACS Sensors, 1, (3), 258-264, (2016)
Khan MAR et al., Plastic antibody for the electrochemical detection of bacterial surface proteins.
Sensors and Actuators B: Chemical, 233, 697-704, (2016)
Martins GV et al., 8-hydroxy-2'-deoxyguanosine (8-OHdG) biomarker detection down to picoMolar level on a plastic antibody film.
Biosensors and Bioelectronics, 86, 225-234, (2016)
Moreira FTC et al., Screen-printed electrode produced by printed-circuit board technology. Application to cancer biomarker detection by means of plastic antibody as sensing material.
Sensors and Actuators B: Chemical, 223, 927-935, (2016)
Rebelo TSCR et al., Protein imprinted materials designed with charged binding sites on screen-printed electrode for microseminoprotein-beta determination in biological samples.
Sensors and Actuators B: Chemical, 223, 846-852, (2016)
Rebelo TSCR et al., Protein Imprinted Material electrochemical sensor for determination of Annexin A3 in biological samples.
Electrochimica Acta, 190, 887-893, (2016)
Rebelo TSCR et al., Testing the variability of PSA expression by different human prostate cancer cell lines by means of a new potentiometric device employing molecularly antibody assembled on graphene surface.
Materials Science and Engineering: C, 59, 1069-1078, (2016)
Tavares APM et al., Conductive Paper with Antibody-Like Film for Electrical Readings of Biomolecules.
Scientific Reports, 6, ArticleNo26132-(2016)
Ferreira NS et al., New electrochemically-derived plastic antibody on a simple conductive paper support for protein detection: Application to BSA.
Sensors and Actuators B: Chemical, 243, 1127-1136, (2017)
Frasco MF et al., Imprinting Technology in Electrochemical Biomimetic Sensors.
Sensors, 17, (3), ArticleNo523-(2017)
Guerreiro JRL et al., A saliva molecular imprinted localized surface plasmon resonance biosensor for wine astringency estimation.
Food Chemistry, 233, 457-466, (2017)
Khan MAR et al., Artificial receptors for the electrochemical detection of bacterial flagellar filaments from Proteus mirabilis.
Sensors and Actuators B: Chemical, 244, 732-741, (2017)
Moreira FTC et al., Smart naturally plastic antibody based on poly([alpha]-cyclodextrin) polymer for [beta]-amyloid-42 soluble oligomer detection.
Sensors and Actuators B: Chemical, 240, 229-238, (2017)
Ribeiro JA et al., Electrochemical detection of cardiac biomarker myoglobin using polyphenol as imprinted polymer receptor.
Analytica Chimica Acta, 981, 41-52, (2017)
Sacramento AS et al., Novel biomimetic composite material for potentiometric screening of acetylcholine, a neurotransmitter in Alzheimer's disease.
Materials Science and Engineering: C, 79, 541-549, (2017)
Sales MGF et al., Autonomous electrochemical biosensors: A new vision to direct methanol fuel cells.
Biosensors and Bioelectronics, 98, 428-436, (2017)
Cardoso AR et al., In-situ generated molecularly imprinted material for chloramphenicol electrochemical sensing in waters down to the nanomolar level.
Sensors and Actuators B: Chemical, 256, 420-428, (2018)
Gomes RS et al., Sensing CA 15-3 in point-of-care by electropolymerizing O-phenylenediamine (oPDA) on Au-screen printed electrodes.
PLoS ONE, 13, (5), ArticleNoe0196656-(2018)
Moreira FTC et al., Redox probe-free readings of a [beta]-amyloid-42 plastic antibody sensory material assembled on copper@carbon nanotubes.
Sensors and Actuators B: Chemical, 264, 1-9, (2018)
Moreira FTC et al., Biomimetic materials assembled on a photovoltaic cell as a novel biosensing approach to cancer biomarker detection.
Scientific Reports, 8, (1), ArticleNo10205-(2018)
Piloto AM et al., Plastic antibodies tailored on quantum dots for an optical detection of myoglobin down to the femtomolar range.
Scientific Reports, 8, (1), ArticleNo4944-(2018)
Ribeiro JA et al., Disposable electrochemical detection of breast cancer tumour marker CA 15-3 using poly(Toluidine Blue) as imprinted polymer receptor.
Biosensors and Bioelectronics, 109, 246-254, (2018)
Santos ART et al., Antibody Biomimetic Material Made of Pyrrole for CA 15-3 and Its Application as Sensing Material in Ion-Selective Electrodes for Potentiometric Detection.
Biosensors, 8, (1), ArticleNo8-(2018)
Tavares APM et al., Novel electro-polymerized protein-imprinted materials using Eriochrome black T: Application to BSA sensing.
Electrochimica Acta, 262, 214-225, (2018)
Cardoso AR et al., Molecularly-imprinted chloramphenicol sensor with laser-induced graphene electrodes.
Biosensors and Bioelectronics, 124-125, 167-175, (2019)
Cardoso AR et al., An impedimetric molecularly-imprinted biosensor for Interleukin-1[beta] determination, prepared by in-situ electropolymerization on carbon screen-printed electrodes.
Bioelectrochemistry, 130, Article107287-(2019)
Carneiro MCCG et al., Dual biorecognition by combining molecularly-imprinted polymer and antibody in SERS detection. Application to carcinoembryonic antigen.
Biosensors and Bioelectronics, 146, Article111761-(2019)
Moreira FTC et al., Autonomous biosensing device merged with photovoltaic technology for cancer biomarker detection.
Journal of Electroanalytical Chemistry, 855, Article113611-(2019)
Rebelo TSCR et al., Molecularly imprinted polymer SPE sensor for analysis of CA-125 on serum.
Analytica Chimica Acta, 1082, 126-135, (2019)
Tavares APM et al., Photovoltaics, plasmonics, plastic antibodies and electrochromism combined for a novel generation of self-powered and self-signalled electrochemical biomimetic sensors.
Biosensors and Bioelectronics, 137, 72-81, (2019)
Tavares APM et al., Self-powered and self-signalled autonomous electrochemical biosensor applied to cancinoembryonic antigen determination.
Biosensors and Bioelectronics, 140, Article111320-(2019)
Truta LAAN et al., Carcinoembryonic antigen imprinting by electropolymerization on a common conductive glass support and its determination in serum samples.
Sensors and Actuators B: Chemical, 287, 53-63, (2019)
Piloto AM et al., Label-free quantum dot conjugates for human protein IL-2 based on molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 304, Article127343-(2020)
Serrano VM et al., In-situ production of Histamine-imprinted polymeric materials for electrochemical monitoring of fish.
Sensors and Actuators B: Chemical, 311, Article127902-(2020)
Cerqueira SMV et al., Development of an electrochemical biosensor for Galectin-3 detection in point-of-care.
Microchemical Journal, 164, Article105992-(2021)
Gonçalves MdL et al., Electrochemical Point-of Care (PoC) Determination of Interleukin-6 (IL-6) Using a Pyrrole (Py) Molecularly Imprinted Polymer (MIP) on a Carbon-Screen Printed Electrode (C-SPE).
Analytical Letters, 54, (16), 2611-2623, (2021)
Tavares APM et al., Innovative screen-printed electrodes on cork composite substrates applied to sulfadiazine electrochemical sensing.
Journal of Electroanalytical Chemistry, 880, Article114922-(2021)
Sales TLS
Simőes NS et al., Hollow mesoporous structured molecularly imprinted polymer as adsorbent in pipette-tip solid-phase extraction for the determination of antiretrovirals from plasma of HIV-infected patients.Electrophoresis, 39, (20), 2581-2589, (2018)
Salgado-Figueroa P
Jara-Ulloa P et al., Polypyrrole Molecularly Imprinted Modified Glassy Carbon Electrode for the Recognition of Gallic Acid.Journal of The Electrochemical Society, 160, (4), H243-H246, (2013)
Salghi R
Bouri M et al., Selective extraction and determination of catecholamines in urine samples by using a dopamine magnetic molecularly imprinted polymer and capillary electrophoresis.Talanta, 99, 897-903, (2012)
Salgueiro-Fernández R
Sánchez-González J et al., Cannabinoids assessment in plasma and urine by high performance liquid chromatography-tandem mass spectrometry after molecularly imprinted polymer microsolid-phase extraction.Analytical and Bioanalytical Chemistry, 409, (5), 1207-1220, (2017)
Salian V
Byrne ME et al., Molecular imprinting within hydrogels II: Progress and analysis of the field.International Journal of Pharmaceutics, 364, (2), 188-212, (2008)
Salian VD
Salian VD et al., Proceeding, Characterization of the network structure of molecularly imprinted polymers by determination of kinetic chain length distribution,(2008)
Salian VD et al., The role of living/controlled radical polymerization in the formation of improved imprinted polymers.
Journal of Molecular Recognition, 25, (6), 361-369, (2012)
Salian VD et al., Crosslinking diversity on network morphology, template binding, and template transport of molecularly imprinted polymers prepared via living radical polymerization.
Journal of Applied Polymer Science, 130, (5), 3588-3599, (2013)
Salian VD et al., Living Radical Polymerization and Molecular Imprinting: Improving Polymer Morphology in Imprinted Polymers.
Macromolecular Materials And Engineering, 298, (4), 379-390, (2013)
Salian VD et al., Controlled Drug Release from Weakly Crosslinked Molecularly Imprinted Networks: The Benefit of Living Radical Polymerization.
Macromolecular Chemistry And Physics, 214, (20), 2355-2366, (2013)
Salian VD et al., Molecularly imprinted polymers via living radical polymerization: Relating increased structural homogeneity to improved template binding parameters.
Reactive and Functional Polymers, 78, 38-46, (2014)
Salih B
Bayramoglu G et al., Removal of bisphenol A from aqueous medium using molecularly surface imprinted microbeads.Chemosphere, 150, 275-284, (2016)
Salimi A
Alizadeh N et al., Ultrasensitive Bioaffinity Electrochemical Sensors: Advances and New Perspectives.Electroanalysis, 30, (12), 2803-2840, (2018)
Babamiri B et al., Nickel nanoclusters as a novel emitter for molecularly imprinted electrochemiluminescence based sensor toward nanomolar detection of creatinine.
Biosensors and Bioelectronics, 107, 272-279, (2018)
Babamiri B et al., A molecularly imprinted electrochemiluminescence sensor for ultrasensitive HIV-1 gene detection using EuS nanocrystals as luminophore.
Biosensors and Bioelectronics, 117, 332-339, (2018)
Bahari D et al., Ultrasensitive molecularly imprinted fluorescence sensor for simultaneous determination of CA125 and CA15-3 in human serum and OVCAR-3 and MCF-7 cells lines using Cd and Ni nanoclusters as new emitters.
Analytical and Bioanalytical Chemistry, 413, (15), 4049-4061, (2021)
Salimi S
Behbahani M et al., Application of a tailor-made polymer as a selective and sensitive colorimetric sensor for reliable detection of trace levels of uranyl ions in complex matrices.RSC Advances, 5, (74), 59912-59920, (2015)
Bojdi MK et al., Selective and Sensitive Determination of Uranyl Ions in Complex Matrices by Ion Imprinted Polymers-Based Electrochemical Sensor.
Electroanalysis, 27, (10), 2458-2467, (2015)
Salimraftar N
Noee S et al., Imprinted microspheres and nanoparticles with diclofenac sodium: effect of solvent on the morphology and recognition properties.Polymer International, 62, (12), 1711-1716, (2013)
Salimraftar N et al., Three-level response surface full-factorial design: advanced chemometric approach for optimizing diclofenac sodium-imprinted polymer.
Polymer Bulletin, 71, (1), 19-30, (2014)
Salinas A
Sánchez-Barragán I et al., Molecularly imprinted polymers based on iodinated monomers for selective room-temperature phosphorescence optosensing of fluoranthene in water.Analytical Chemistry, 77, (21), 7005-7011, (2005)
Salinas MR
Garde-Cerdán T et al., Molecularly Imprinted Polymer-Assisted Simple Clean-Up of 2, 4, 6-Trichloroanisole and Ethylphenols from Aged Red Wines.American Journal of Enology and Viticulture, 59, (4), 396-400, (2008)
Salinas Y
Salinas Y et al., Optical chemosensors and reagents to detect explosives.Chemical Society Reviews, 41, (3), 1261-1296, (2012)
Panagiotopoulou M et al., Molecularly Imprinted Polymer Coated Quantum Dots for Multiplexed Cell Targeting and Imaging.
Angewandte Chemie International Edition, 55, (29), 8244-8248, (2016)
Salinas-Castillo A
Salinas-Castillo A et al., Iodinated molecularly imprinted polymer for room temperature phosphorescence optosensing of fluoranthene.Chemical Communications, (25), 3224-3226, (2005)
Valero-Navarro A et al., The development of a MIP-optosensor for the detection of monoamine naphthalenes in drinking water.
Biosensors and Bioelectronics, 24, (7), 2305-2311, (2009)
Porcel-Valenzuela M et al., Molecularly imprinted silica films prepared by electroassisted deposition for the selective detection of dopamine.
Sensors and Actuators B: Chemical, 222, 63-70, (2016)
Salitra Y
Brandis A et al., A two-step strategy to visually identify molecularly imprinted polymers for tagged proteins.Journal of Separation Science, 40, (16), 3358-3367, (2017)
Sallacan N
Sallacan N et al., Imprinting of nucleotide and monosaccharide recognition sites in acrylamidephenylboronic acid-acrylamide copolymer membranes associated with electronic transducers.Analytical Chemistry, 74, (3), 702-712, (2002)
Salleh B
Lee TP et al., Molecularly imprinted polymer as sorbent in micro-solid phase extraction of ochratoxin A in coffee, grape juice and urine.Talanta, 88, (1), 129-135, (2012)
Lee TP et al., Micro-solid phase extraction of ochratoxin A, and its determination in urine using capillary electrophoresis.
Microchimica Acta, 180, (11-12), 1149-1156, (2013)
Salleh S
Sanagi MM et al., Molecularly imprinted polymers for solid phase extraction of orghanophosphorus pesticides.Malaysian Journal of Fundamental and Applied Sciences, 6, (1), 27-30, (2010)
Sanagi MM et al., Determination of organophosphorus pesticides using molecularly imprinted polymer solid phase extraction.
The Malaysian Journal of Analytical Sciences, 15, (2), 175-183, (2011)
Sanagi MM et al., Molecularly imprinted polymer solid-phase extraction for the analysis of organophosphorus pesticides in fruit samples.
Journal of Food Composition and Analysis, 32, (2), 155-161, (2013)
Salleo A
Parlak O et al., Molecularly selective nanoporous membrane-based wearable organic electrochemical device for noninvasive cortisol sensing.Science Advances, 4, (7), eaar2904-(2018)
Salles MO
Bueno L et al., MIP-based electrochemical protein profiling.Sensors and Actuators B: Chemical, 204, 88-95, (2014)
Salles MO et al., Development of a Molecularly Imprinted Modified Electrode to Evaluate Phenacetin Based on the Preconcentration of Acetaminophen.
Journal of the Brazilian Chemical Society, 27, (1), 54-61, (2016)
Sallés J
Gómez-Caballero A et al., Solid-phase synthesis of imprinted nanoparticles as artificial antibodies against the C-terminus of the cannabinoid CB1 receptor: exploring a viable alternative for bioanalysis.Microchimica Acta, 188, (11), Article368-(2021)
Salman M
Ara B et al., Preparation of microspheric Fe(III)-ion imprinted polymer for selective solid phase extraction.Applied Water Science, 8, (1), ArticleNo41-(2018)
Salmi Z
Salmi Z et al., On the interfacial chemistry of aryl diazonium compounds in polymer science.Chemical Papers, 66, (5), 369-391, (2012)
Salmi Z et al., Preparation of MIP grafts for quercetin by tandem aryl diazonium surface chemistry and photopolymerization.
Microchimica Acta, 180, (15-16), 1411-1419, (2013)
Bakas I et al., Molecularly imprinted polymeric sensings layers grafted from aryl diazonium-modified surfaces for electroanalytical applications. A mini review.
Surface And Interface Analysis, 46, (10-11), 1014-1020, (2014)
Bakas I et al., Picomolar Detection of Melamine Using Molecularly Imprinted Polymer-Based Electrochemical Sensors Prepared by UV-Graft Photopolymerization.
Electroanalysis, 27, (2), 429-439, (2015)
Ayadi H et al., Molecularly imprinted PVC beads for the recognition of proteins.
Journal of Applied Polymer Science, 133, (33), ArticleNo43694-(2016)
Saloni J
Saloni J et al., Molecularly imprinted polymers for detection of explosives: computational study on molecular interactions of 2, 6-dinitrotoluene and methacrylic acid complex.Structural Chemistry, 21, (6), 1171-1184, (2010)
Saloni J et al., Theoretical study of molecular interactions of TNT, acrylic acid, and ethylene glycol dimethacrylate - Elements of molecularly imprinted polymer modeling process.
Polymer, 52, (4), 1206-1216, (2011)
Saloni J et al., Theoretical Investigation on Monomer and Solvent Selection for Molecular Imprinting of Nitrocompounds.
Journal of Physical Chemistry A, 117, (7), 1531-1534, (2013)
Saloni J, Intermolecular interactions in molecular imprinting.
Abstracts of Papers of the American Chemical Society, 247, (COMP), 246-(2014)
Saloni JM
Saloni JM, Computational insight to molecular imprinting.Abstracts of Papers of the American Chemical Society, 245, (COMP), 264-(2013)
Salsabilah
Masykur A et al., Preparation of Cu(II) ion-imprinted based on carboxymethyl chitosan and application as adsorbent of Cu(II) ion.IOP Conference Series: Materials Science and Engineering, 509, Article012001-(2019)
Salsedo E
Vozzi G et al., SOFT-MI: A novel microfabrication technique integrating soft-lithography and molecular imprinting for tissue engineering applications.Biotechnology and Bioengineering, 106, (5), 804-817, (2010)
Salvador A
Lopez-Nogueroles M et al., Development of a selective solid phase extraction method for nitro musk compounds in environmental waters using a molecularly imprinted sorbent.Talanta, 110, 128-134, (2013)
Salvador JP
Salvador JP et al., A New Methodology for the Rational Design of Molecularly Imprinted Polymers.Analytical Letters, 40, (7), 1294-1306, (2007)
Salvador JP et al., Book chapter, Application of bioassays/biosensors for the analysis of pharmaceuticals in environmental samples,
In: Analysis, Fate and Removal of Pharmaceuticals in the Water Cycle, Petrovic M (Ed.) Elsevier: Ch. 2.8, 279-334, (2007)
Salvi AM
Carbone ME et al., Interactions between elastin-like peptides and an insulating poly(ortho-aminophenol) membrane investigated by AFM and XPS.Analytical and Bioanalytical Chemistry, 410, (20), 4925-4941, (2018)
Salvo A
Alesci A et al., Extracts deriving from olive mill waste water and their effects on the liver of the goldfish Carassius auratus fed with hypercholesterolemic diet.Natural Product Research, 28, (17), 1343-1349, (2014)
Samadi A
Wei XL et al., Synthesis and characterization of molecularly imprinted polymers for chromatographic separations.Separation Science and Technology, 40, (1-3), 109-129, (2005)
Samadi S
Omidi F et al., Coupling of Molecular Imprinted Polymer Nanoparticles by High Performance Liquid Chromatography as an Efficient Technique for Sensitive and Selective Trace Determination of 4-Chloro-2-Methylphenoxy Acetic Acid in Complex Matrices.Iranian Journal of Public Health, 43, (5), 645-657, (2014)
Etemadi M et al., Selective adsorption of Cr(VI) ions from aqueous solutions using Cr6+-imprinted Pebax/chitosan/GO/APTES nanofibrous adsorbent.
International Journal of Biological Macromolecules, 95, 725-733, (2017)
Samadi Zadeh M
Ahmad Panahi H et al., Nickel Adsorption from Environmental Samples by Ion Imprinted Aniline -Formaldehyde Polymer.Iranian Journal of Chemistry and Chemical Engineering, 31, (3), 35-44, (2012)
Samadi-Maybodi A
Abbasifar J et al., Selective Determination of Atropine Using poly Dopamine-Coated Molecularly Imprinted Mn-Doped ZnS Quantum Dots.Journal of Fluorescence, 26, (5), 1645-1652, (2016)
Samadi-Maybodi A et al., Magnetized ion-imprinted polymer-coated nano-particles for selective separation and trace detection of 203Pb using gamma-ray spectrometry.
Journal of Radioanalytical and Nuclear Chemistry, 316, (2), 465-473, (2018)
Samadikuchaksaraei A
Eftekhari BS et al., Conductive chitosan/polyaniline hydrogel with cell-imprinted topography as a potential substrate for neural priming of adipose derived stem cells.RSC Advances, 11, (26), 15795-15807, (2021)
Samaei E
Alizadeh N et al., Electrochemically controlled solid phase microextraction of ibuprofen based on nanostructure conducting molecular imprinted polypyrrole and selective analysis in biological and formulation samples using ion mobility spectrometry.Analytical Methods, 6, (9), 2909-2915, (2014)
Samah NA
Samah NA et al., Molecularly imprinted polymer for the removal of diclofenac from water: Synthesis and characterization.Science of The Total Environment, 631-632, 1534-1543, (2018)
Samah NA et al., Modelling the Diclofenac and Indomethacin Recovery by Molecularly Imprinted Polymer.
Journal of Physical Science, 29, (Suppl.1), 67-74, (2018)
Samandari L
Shamsipur M et al., Synthesis, characterization and using a new terpyridine moiety-based ion-imprinted polymer nanoparticle: sub-nanomolar detection of Pb(II) in biological and water samples.Chemical Papers, 72, (11), 2707-2717, (2018)
Shamsipur M et al., Development of an ultrasensitive electrochemical genosensor for detection of HIV-1 pol gene using a gold nanoparticles coated carbon paste electrode impregnated with lead ion-imprinted polymer nanomaterials as a novel electrochemical probe.
Microchemical Journal, 160, Article105714-(2021)
Samanidou V
Samanidou V et al., Novel strategies for sample preparation in forensic toxicology.Bioanalysis, 3, (17), 2019-2046, (2011)
Samanidou V et al., Matrix molecularly imprinted mesoporous sol-gel sorbent for efficient solid-phase extraction of chloramphenicol from milk.
Analytica Chimica Acta, 914, 62-74, (2016)
Kechagia M et al., Trends in Microextraction-Based Methods for the Determination of Sulfonamides in Milk.
Separations, 4, (3), ArticleNo23-(2017)
Bitas D et al., Molecularly Imprinted Polymers as Extracting Media for the Chromatographic Determination of Antibiotics in Milk.
Molecules, 23, (2), ArticleNo316-(2018)
Kechagia M et al., One-pot synthesis of a multi-template molecularly imprinted polymer for the extraction of six sulfonamide residues from milk before high-performance liquid chromatography with diode array detection.
Journal of Separation Science, 41, (3), 723-731, (2018)
Samanidou VF
Papadoyannis IN et al., Book chapter, Sample preparation prior to HPLC,In: Encyclopedia of Chromatography, Cazes J (Ed.) Marcel Dekker: (2001)
Kalogiouri NP et al., Synthesis and application of molecularly imprinted polymers using sol-gel matrix imprinting technology for the efficient solid-phase extraction of BPA from water.
Microchemical Journal, 157, Article104965-(2020)
Kalogiouri NP et al., A green molecular imprinted solid-phase extraction protocol for bisphenol A monitoring with HPLC-UV to guarantee the quality and safety of walnuts under different storage conditions.
Journal of Separation Science, 44, (8), 1633-1640, (2021)
Tsalbouris A et al., Bisphenol A migration to alcoholic and non-alcoholic beverages - An improved molecular imprinted solid phase extraction method prior to detection with HPLC-DAD.
Microchemical Journal, 162, Article105846-(2021)
Samardzic R
Lieberzeit PA et al., Artificial receptor layers for detecting chemical and biological threats.Procedia Engineering, 5, 381-384, (2010)
Bajwa S et al., Nanostructured materials with biomimetic recognition abilities for chemical sensing.
Nanoscale Research Letters, 7, (1), 328-(2012)
Findeisen A et al., Artificial receptor layers for detecting chemical and biological agent mimics.
Sensors and Actuators B: Chemical, 170, 196-200, (2012)
Lieberzeit PA et al., MIP Sensors on the Way to Biotech Application: Selectivity and Ruggedness.
Procedia Engineering, 47, 534-537, (2012)
Samardzic R et al., Quartz Crystal Microbalance In-Line Sensing of Escherichia Coli in a Bioreactor Using Molecularly Imprinted Polymers.
Sensor Letters, 12, (6-7), 1152-1155, (2014)
Samatya S
Samatya S et al., The effect of polystyrene as a porogen on the fluoride ion adsorption of Zr(IV) surface-immobilized resin.Reactive and Functional Polymers, 70, (1), 63-68, (2010)
Mizuki H et al., Zr(IV)-Immobilized Resin Prepared by Surface Template Polymerization for Fluoride Ion Removal.
Solvent Extraction and Ion Exchange, 29, (1), 146-156, (2011)
Sambe H
Sambe H et al., Direct injection analysis of bisphenol A in serum by combination of isotope imprinting with liquid chromatography-mass spectrometry.Analyst, 130, (1), 38-40, (2005)
Sambe H et al., Retentivity and enantioselectivity of uniformly-sized molecularly imprinted polymers for (S)-nilvadipine in aqueous and non-aqueous mobile phases.
Analytical Sciences, 21, (4), 391-395, (2005)
Sambe H et al., Uniformly-Sized, Molecularly Imprinted Polymers for (-)-Nicotine by Precipitation Polymerization and Their Applications.
Chromatography, 27, (Supplement 1), 43-44, (2006)
Sambe H et al., Uniformly-sized, molecularly imprinted polymers for nicotine by precipitation polymerization.
Journal of Chromatography A, 1134, (1-2), 88-94, (2006)
Sambe H et al., Simultaneous determination of bisphenol A and its halogenated derivatives in river water by combination of isotope imprinting and liquid chromatography-mass spectrometry.
Journal of Chromatography A, 1134, (1-2), 16-23, (2006)
Haginaka J et al., Uniformly-sized, molecularly imprinted polymers for (-)-epigallocatechin gallate, -epicatechin gallate and -gallocatechin gallate by multi-step swelling and polymerization method.
Journal of Chromatography A, 1156, (1-2), 45-50, (2007)
Sambe H et al., Molecularly imprinted polymers for triazine herbicides prepared by multi-step swelling and polymerization method: Their application to the determination of methylthiotriazine herbicides in river water.
Journal of Chromatography A, 1152, (1-2), 130-137, (2007)
Sambodo H
Hardoyono F et al., Identification of Bioactive Compounds in Ginger Based on Molecularly Imprinted Polymer Quartz Crystal Microbalance Gas Sensor.IOP Conference Series: Materials Science and Engineering, 546, (3), Article032012-(2019)
Samedova NM
Kabanov VA et al., Synthesis and investigation of a complexing sorbent with macromolecule arrangement tuned to ion sorption.Doklady Akademii Nauk SSSR, 238, (2), 356-358, (1978)
Samejima KI
Mine Y et al., Structural effects of amphiphiles on Candida rugosa lipase activation by freeze-drying of aqueous solution of enzyme and amphiphile.Journal of Bioscience and Bioengineering, 96, (6), 525-528, (2003)
Samejo MQ
Memon GZ et al., Synthesis and Characterization of Ion-Imprinted Polymer for Selective Adsorption of Zinc Ions in Aqueous media.Asian Journal of Chemistry, 29, (6), 1229-1234, (2017)
Sami MM
Gardouh AR et al., Antitumor activity of a molecularly imprinted nanopreparation of 5-flurouracil against Ehrlich's carcinoma solid tumors grown in mice: Comparison to free 5-flurouracil.Chemico-Biological Interactions, 295, 52-63, (2018)
Samie HA
Arvand M et al., A biomimetic potentiometric sensor based on molecularly imprinted polymer for the determination of memantine in tablets.Drug Testing and Analysis, 5, (6), 461-467, (2013)
Samimi A
Mousavi-Qeydari SR et al., A mesoporous melamine/chitosan/activated carbon biocomposite: Preparation, characterization and its application for Ni (II) uptake via ion imprinting.International Journal of Biological Macromolecules, 188, 126-136, (2021)
Samizadeh M
Samizadeh M et al., Preparation of Molecularly Imprinted Polymers Coupled with Magnetic Nanoparticles for the Selective Extraction of Propranolol from Aqueous Solution of Propranolol, Atenolol and Metoprolol.Journal of Biochemical Technology, 9, (4), 22-27, (2018)
Samohyl M
Krnanová J et al., Determination of Some Flavonoids by HPLC Using Quercetin-Molecularly Imprinted Polymers.Journal of Liquid Chromatography & Related Technologies, 38, (6), 702-708, (2015)
Samoon MK
Balouch A et al., Review: Arsenic Remediation by Synthetic and Natural Adsorbents.Pakistan Journal of Analytical & Environmental Chemistry, 18, (1), 18-36, (2017)
Sampath S
Kibechu RW et al., Synthesis and application of reduced graphene oxide and molecularly imprinted polymers composite in chemo sensor for trichloroacetic acid detection in aqueous solution.Physics and Chemistry of the Earth, Parts A/B/C, 76-78, 49-53, (2014)
Kibechu R et al., Effect of incorporating graphene oxide and surface imprinting on polysulfone membranes on flux, hydrophilicity and rejection of salt and polycyclic aromatic hydrocarbons from water.
Physics and Chemistry of the Earth, Parts A/B/C, 100, 126-134, (2017)
Kibechu RW et al., Graphene-based molecularly imprinted polymer for separation and pre-concentration of trace polycyclic aromatic hydrocarbons in environmental water samples.
Journal of Applied Polymer Science, 134, (37), ArticleNo45300-(2017)
Samperi R
Capriotti AL et al., Recent developments in matrix solid-phase dispersion extraction.Journal of Chromatography A, 1217, (16), 2521-2532, (2010)
Capriotti AL et al., Recent trends in matrix solid-phase dispersion.
TrAC Trends in Analytical Chemistry, 43, 53-66, (2013)
Capriotti AL et al., Recent advances and developments in matrix solid-phase dispersion.
TrAC Trends in Analytical Chemistry, 71, 186-193, (2015)
Samsudin NM
Hawari HF et al., Proceeding, Development of highly selective electronic nose using molecular imprinted polymer (MIP) for recognition of fruit ripeness,(2012)
Hawari HF et al., Array of MIP-Based Sensor for Fruit Maturity Assessment.
Procedia Chemistry, 6, 100-109, (2012)
Hawari HF et al., Proceeding, Recognition of Limonene volatile using Interdigitated Electrode molecular imprinted polymer sensor,
723-726, (2012)
Hawari HF et al., Development of Interdigitated Electrode Molecular Imprinted Polymer Sensor for Monitoring Alpha Pinene Emissions from Mango Fruit.
Procedia Engineering, 53, 197-202, (2013)
Hawari HF et al., Highly selective molecular imprinted polymer (MIP) based sensor array using interdigitated electrode (IDE) platform for detection of mango ripeness.
Sensors and Actuators B: Chemical, 187, 434-444, (2013)
Samuels WD
Gong XY et al., Book chapter, Molecular recognition of organic compounds by imprinted silica,In: Materials for Smart Systems III, Wun-Fogle M, Uchino K, Ito Y, Gotthardt R (Eds.) Materials Research Society: Warrendale, 311-316, (2000)
Shin YS et al., Ordered Hierarchical Porous Materials: Towards Tunable Size- and Shape-Selective Microcavities in Nanoporous Channels.
Angewandte Chemie International Edition, 39, (15), 2702-2707, (2000)
Samui AB
Kanai T et al., Acrylamide Based Molecularly Imprinted Polymer for Detection of m-Nitrophenol.Journal of Nanoscience and Nanotechnology, 13, (4), 3054-3061, (2013)
Hande PE et al., Highly selective monitoring of metals by using ion-imprinted polymers.
Environmental Science and Pollution Research, 22, (10), 7375-7404, (2015)
Hande PE et al., A molecularly imprinted polymer with flash column chromatography for the selective and continuous extraction of diphenyl amine.
RSC Advances, 5, (90), 73434-73443, (2015)
Hande PE et al., Chitosan-Based Lead Ion-Imprinted Interpenetrating Polymer Network by Simultaneous Polymerization for Selective Extraction of Lead(II).
Industrial & Engineering Chemistry Research, 55, (12), 3668-3678, (2016)
Hande PE et al., Selective nanomolar detection of mercury using coumarin based fluorescent Hg(II)-Ion imprinted polymer.
Sensors and Actuators B: Chemical, 246, 597-605, (2017)
Hande PE et al., An Efficient Method for Determination of the Diphenylamine (Stabilizer) in Propellants by Molecularly Imprinted Polymer based Carbon Paste Electrochemical Sensor.
Propellants, Explosives, Pyrotechnics, 42, (4), 376-380, (2017)
Samukaite-Bubniene U
Plausinaitis D et al., Evaluation of electrochemical quartz crystal microbalance based sensor modified by uric acid-imprinted polypyrrole.Talanta, 220, Article121414-(2020)
San Vicente B
Moreno-Bondi MC et al., Proceeding, Molecularly imprinted polymers as selective recognition elements for optical sensors based on fluorescent measurements,975-978, (2003)
Navarro-Villoslada F et al., Application of multivariate analysis to the screening of molecularly imprinted polymers for bisphenol A.
Analytica Chimica Acta, 504, (1), 149-162, (2004)
San Vicente B et al., Continuous solid-phase extraction and preconcentration of bisphenol A in aqueous samples using molecularly imprinted columns.
Analytical and Bioanalytical Chemistry, 380, (1), 115-122, (2004)
Sanagi MM
Sanagi MM et al., Molecularly imprinted polymers for solid phase extraction of orghanophosphorus pesticides.Malaysian Journal of Fundamental and Applied Sciences, 6, (1), 27-30, (2010)
Sanagi MM et al., Determination of organophosphorus pesticides using molecularly imprinted polymer solid phase extraction.
The Malaysian Journal of Analytical Sciences, 15, (2), 175-183, (2011)
Sanagi MM et al., Molecularly imprinted polymer solid-phase extraction for the analysis of organophosphorus pesticides in fruit samples.
Journal of Food Composition and Analysis, 32, (2), 155-161, (2013)
Ibrahim WAW et al., Application of Solid-Phase Extraction for Trace Elements in Environmental and Biological Samples: A Review.
Critical Reviews in Analytical Chemistry, 44, (3), 233-254, (2014)
Zinalibdin MR et al., A Novel Molecularly Imprinted Acrylonitrile-butadiene-styrene Membrane for Adsorption of Hippuric acid.
Procedia Chemistry, 16, 91-98, (2015)
Zinalibdin MR et al., Preparation, characterization and adsorption study of o-cresol molecularly imprinted grafted silica gel sorbent synthesized by sol-gel polymerization.
AIP Conference Proceedings, 1904, (1), ArticleNo020083-(2017)
Sanbe H
Haginaka J et al., Uniform-sized molecularly imprinted polymers for b-estradiol.Chemistry Letters, 27, (11), 1089-1090, (1998)
Haginaka J et al., Uniform-sized molecularly imprinted polymer for (S)-ibuprofen - Retention properties in aqueous mobile phases.
Journal of Chromatography A, 857, (1-2), 117-125, (1999)
Haginaka J et al., Preparation of molecularly imprinted polymers for endocrine-disrupting chemicals: comparison of molecularly imprinted polymers for [beta]-oestradiol and bisphenol A.
Chromatography, 20, (4), 330-331, (1999)
Haginaka J et al., Uniform-sized molecularly imprinted polymers for bisphenol A.
Chemistry Letters, 28, (8), 757-758, (1999)
Haginaka J et al., Uniform-sized molecularly imprinted polymers for 2-arylpropionic acid derivatives selectively modified with hydrophilic external layer and their applications to direct serum injection analysis.
Analytical Chemistry, 72, (21), 5206-5210, (2000)
Haginaka J et al., Uniformly sized molecularly imprinted polymer for (S)-naproxen - Retention and molecular recognition properties in aqueous mobile phase.
Journal of Chromatography A, 913, (1-2), 141-146, (2001)
Fu Q et al., Uniformly sized molecularly imprinted polymer for (S)-nilvadipine. Comparison of chiral recognition ability with HPLC chiral stationary phases based on a protein.
Analytical Chemistry, 75, (2), 191-198, (2003)
Sanbe H et al., Restricted access media-molecularly imprinted polymer for propranolol and its application to direct injection analysis of b-blockers in biological fluids.
Analyst, 128, (6), 593-597, (2003)
Sanbe H et al., Uniformly sized molecularly imprinted polymers for bisphenol A and b-estradiol: retention and molecular recognition properties in hydro-organic mobile phases.
Journal of Pharmaceutical and Biomedical Analysis, 30, (6), 1835-1844, (2003)
Sanbe H et al., Preparation of uniformly sized molecularly imprinted polymers for phenolic compounds and their application to the assay of bisphenol A in river water.
Analytical Sciences, 19, (5), 715-719, (2003)
Haginaka J et al., Uniformly sized molecularly imprinted polymers: their applications to chiral separation and bioanalysis.
Chinese Journal of Chromatography, 22, (4), 306-308, (2004)
Sancenón F
Martínez-Máńez R et al., Mimicking tricks from nature with sensory organic-inorganic hybrid materials.Journal of Materials Chemistry, 21, (34), 12588-12604, (2011)
Salinas Y et al., Optical chemosensors and reagents to detect explosives.
Chemical Society Reviews, 41, (3), 1261-1296, (2012)
Sanches C
Simőes NS et al., Hollow mesoporous structured molecularly imprinted polymer as adsorbent in pipette-tip solid-phase extraction for the determination of antiretrovirals from plasma of HIV-infected patients.Electrophoresis, 39, (20), 2581-2589, (2018)
Sanchez C
Llusar M et al., Templated growth of alumina-based fibers through the use of anthracenic organogelators.Chemistry of Materials, 14, (12), 5124-5133, (2002)
Sanchez D
Yilmaz E et al., A facile method for preparing molecularly imprinted polymer spheres using spherical silica templates.Journal of Materials Chemistry, 12, (5), 1577-1581, (2002)
Sanchez-Baeza F
Salvador JP et al., Book chapter, Application of bioassays/biosensors for the analysis of pharmaceuticals in environmental samples,In: Analysis, Fate and Removal of Pharmaceuticals in the Water Cycle, Petrovic M (Ed.) Elsevier: Ch. 2.8, 279-334, (2007)
Sanchez-Gonzalez J
Moreda-Pineiro A et al., MIPs as a Versatile Tool for Micro-Solid-Phase Extraction and Probe Sensing.Current Chemical Biology, 12, (2), 114-134, (2018)
Sanchis-Gual R
Agrisuelas J et al., Evaluation of the electrochemical anion recognition of NO3(-)-imprinted poly(Azure A) in NO3(-):Cl(-) mixed solutions by ac-electrogravimetry.Electrochimica Acta, 194, 292-303, (2016)
Sanchooli E
Khajeh M et al., Development of a Selective Molecularly Imprinted Polymer-Based Solid-Phase Extraction for Copper from Food Samples.Biological Trace Element Research, 135, (1), 325-333, (2010)
Khajeh M et al., A pre-concentration procedure employing a new imprinted polymer for the determination of copper in water.
International Journal of Environmental Analytical Chemistry, 91, (13), 1310-1319, (2011)
Khajeh M et al., Synthesis of ion-selective imprinted polymer for manganese removal from environmental water.
Polymer Bulletin, 67, (3), 413-425, (2011)
Khajeh M et al., Imprinted polymer particles for preconcentration of copper from water and biological samples.
Environmental Chemistry Letters, 9, (2), 177-183, (2011)
Khajeh M et al., Synthesis, characterization and removal of lead from water samples using lead-ion imprinted polymer.
Chemical Engineering Journal, 166, (3), 1158-1163, (2011)
Sandberg T
Gonzalez-Vogel A et al., Molecularly imprinted conducting polymer for determination of a condensed lignin marker.Sensors and Actuators B: Chemical, 295, 186-193, (2019)
Sandberg-Ställ M
Andersson LI et al., Development of a molecularly imprinted polymer based solid-phase extraction of local anaesthetics from human plasma.Analytica Chimica Acta, 526, (2), 147-154, (2004)
Sande PC
Jenifer AC et al., A Review of the Unconventional Methods Used for the Demetallization of Petroleum Fractions over the Past Decade.Energy & Fuels, 29, (12), 7743-7752, (2015)
Sandeef Kumar D
Singh KP et al., Electrochemical sensing for the detection of 2, 4-dichlorophenoxy acetic acid using molecularly imprinted polymer membrane.Ionics, 16, (6), 529-537, (2010)
Sandeep S
Anirudhan TS et al., Synthesis and characterization of molecularly imprinted polymer of N-maleoylchitosan-grafted-2-acrylamido-2-methylpropanesulfonic acid and its controlled delivery and recognition of bovine serum albumin.Polymer Chemistry, 2, (9), 2052-2061, (2011)
Sandeman SR
Li XM et al., Polymeric hydrogels for novel contact lens-based ophthalmic drug delivery systems: A review.Contact Lens and Anterior Eye, 31, (2), 57-64, (2008)
Sander D
Svoboda P et al., Development of matrix effect-free MISPE-UHPLC-MS/MS method for determination of lovastatin in Pu-erh tea, oyster mushroom, and red yeast rice.Journal of Pharmaceutical and Biomedical Analysis, 140, 367-376, (2017)
Sanders JKM
Brady PA et al., Selection approaches to catalytic systems.Chemical Society Reviews, 26, (5), 327-336, (1997)
Sandholm K
Huang S et al., Regulation of complement in whole blood by heparin molecularly imprinted polymer particles.Immunobiology, 217, (11), 1199-(2012)
Sandra P
Dermaux A et al., Applications of capillary electrochromatography.Electrophoresis, 20, (15-16), 3027-3065, (1999)
Lara FJ et al., Evaluation of a molecularly imprinted polymer as in-line concentrator in capillary electrophoresis.
Electrophoresis, 29, (18), 3834-3841, (2008)
Sandström N
Guha A et al., Direct detection of small molecules using a nano-molecular imprinted polymer receptor and a quartz crystal resonator driven at a fixed frequency and amplitude.Biosensors and Bioelectronics, 158, Article112176-(2020)
Sandu T
Florea AM et al., Operational parameters for the preparation of precursor polymer matrix used in molecular imprinting.U. P. B. Science Bulletin, Series B, 73, (4), 3-14, (2015)
Gavrila AM et al., Molecularly Imprinted Polymer Pearls Obtained by Phase Inversion for the Selective Recognition of Hypericin.
Materiale Plastice, 56, (2), 315-320, (2019)
Sandulescu R
Florea A et al., Electrochemical sensor for the detection of estradiol based on electropolymerized molecularly imprinted polythioaniline film with signal amplification using gold nanoparticles.Electrochemistry Communications, 59, 36-39, (2015)
Florea A et al., Anticancer drug detection using a highly sensitive molecularly imprinted electrochemical sensor based on an electropolymerized microporous metal organic framework.
Talanta, 138, 71-76, (2015)
Guo ZZ et al., 1, 3, 5-Trinitrotoluene detection by a molecularly imprinted polymer sensor based on electropolymerization of a microporous-metal-organic framework.
Sensors and Actuators B: Chemical, 207, (Part B), 960-966, (2015)
Sandulescu R et al., Book chapter, New Materials for the Construction of Electrochemical Biosensors,
In: Biosensors - Micro and Nanoscale Applications, Rinken T (Ed.) InTech: Ch. 1, 1-36, (2015)
Bougrini M et al., Development of a novel sensitive molecularly imprinted polymer sensor based on electropolymerization of a microporous-metal-organic framework for tetracycline detection in honey.
Food Control, 59, 424-429, (2016)
Guo ZZ et al., Molecularly Imprinted Polymer/Metal Organic Framework Based Chemical Sensors.
Coatings, 6, (4), ArticleNo42-(2016)
Ciui B et al., Electrochemical Sensor for Dopamine Based on Electropolymerized Molecularly Imprinted Poly-aminothiophenol and Gold Nanoparticles.
Procedia Technology, 27, 118-119, (2017)
Tertis M et al., Detection of Dopamine by a Biomimetic Electrochemical Sensor Based on Polythioaniline-Bridged Gold Nanoparticles.
ChemPlusChem, 82, (4), 561-569, (2017)
Adumitrachioaie A et al., Electrochemical Methods Based on Molecularly Imprinted Polymers for Drug Detection. A Review.
International Journal of Electrochemical Science, 13, 2556-2576, (2018)
Sang L
Zhou TY et al., Recent advances and trends of molecularly imprinted polymers for specific recognition in aqueous matrix: Preparation and application in sample pretreatment.TrAC Trends in Analytical Chemistry, 114, 11-28, (2019)
Sang LY
Lu C et al., Determination of amantadine residues in chicken by molecularly imprinted-liquid chromatography-tandem mass spectrometry.Journal of Food Safety and Quality, 8, (11), 4169-4173, (2017)
Sang WG
Zeng SL et al., The Progress of Pretreated Methods and Its Extraction Materials for Polychlorinated Biphenyls in Environmental Samples.Rock and Mineral Analysis, 31, (3), 399-406, (2012)
Du XW et al., Highly Selective Molecular Recognition and Ultrasensitive Detection of 3, 4-dichloroaniline Based on Molecularly Imprinted Sol-Gel Film Combined with Multi-Walled Carbon Nanotubes.
Journal of The Electrochemical Society, 160, (10), H742-H748, (2013)
Sang YX
Wang J et al., The development of a biomimetic enzyme-linked immunosorbent assay based on the molecular imprinting technique for the detection of enrofloxacin in animal-based food.Analytical Methods, 9, (47), 6682-6688, (2017)
Yu WL et al., Preparation of a carboxylated single-walled carbon-nanotube-chitosan functional layer and its application to a molecularly imprinted electrochemical sensor to quantify semicarbazide.
Food Chemistry, 333, Article127524-(2020)
Sangiorgi A
Sangiorgi N et al., Molecularly imprinted polypyrrole counter electrode for gel-state dye-sensitized solar cells.Electrochimica Acta, 305, 322-328, (2019)
Sangiorgi N
Sangiorgi N et al., Molecularly imprinted polypyrrole counter electrode for gel-state dye-sensitized solar cells.Electrochimica Acta, 305, 322-328, (2019)
Sangkunakup S
Suedee R et al., Thin-layer chromatography using synthetic polymers imprinted with quinine as chiral stationary phase.Jpc-Journal Of Planar Chromatography-Modern Tlc, 11, 272-276, (1998)
Suedee R et al., Direct enantioseparation of adrenergic drugs via thin-layer chromatography using molecularly imprinted polymers.
Journal of Pharmaceutical and Biomedical Analysis, 19, (3), 519-527, (1999)
Sanglar C
Khadro B et al., Molecularly imprinted polymers (MIP) based electrochemical sensor for detection of urea and creatinine.Procedia Engineering, 5, 371-374, (2010)
Khadro B et al., Molecularly Imprinted Polymers (MIP) Based Electrochemical Sensor for Detection of Urea and Creatinine.
Sensor Letters, 9, (6), 2261-2264, (2011)
Sanglar C et al., Study of Prepolymerization Complex Formation in the Synthesis of Steroid-Based Molecularly Imprinted Polymers.
Analytical Chemistry, 84, (10), 4481-4488, (2012)
Betatache A et al., Gold Electrodes Modified with Molecular Imprinted Acrylate Polymer for Impedimetric Determination of Testosterone.
Sensors and Transducers, 27, (Special Issue May 2014), 92-99, (2014)
Saadaoui A et al., New biosourced chiral molecularly imprinted polymer: Synthesis, characterization, and evaluation of the recognition capacity of methyltestosterone.
Journal of Molecular Recognition, 30, (4), ArticleNoe2594-(2017)
Sangma C
Wangchareansak T et al., Surface molecular imprints of WGA lectin as artificial receptors for mass-sensitive binding studies.Analytical and Bioanalytical Chemistry, 400, (8), 2499-2506, (2011)
Wangchareansak T et al., Influenza A virus molecularly imprinted polymers and their application in virus sub-type classification.
Journal of Materials Chemistry B, 1, (16), 2190-2197, (2013)
Wangchareansak T et al., A novel approach to identify molecular binding to the influenza virus H5N1: screening using molecularly imprinted polymers (MIPs).
MedChemComm, 5, (5), 617-621, (2014)
Tancharoen C et al., Proceeding, Molecularly Imprinted Polymer for explosive detection,
171-174, (2015)
Lieberzeit PA et al., Molecularly Imprinted Polymers for Diagnostics: Sensing High Density Lipoprotein and Dengue Virus.
Procedia Engineering, 168, 101-104, (2016)
Sangma C et al., Book chapter, H5N1 Virus Plastic Antibody Based on Molecularly Imprinted Polymers,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 381-388, (2017)
Sukjee W et al., Small-Molecule Dengue Virus Co-imprinting and Its Application as an Electrochemical Sensor.
ChemistryOpen, 6, (3), 340-344, (2017)
Tancharoen C et al., Electrochemical Biosensor Based on Surface Imprinting for Zika Virus Detection in Serum.
ACS Sensors, 4, (1), 69-75, (2019)
Sangpagai C
Suedee R et al., Development of trichloroacetic acid sensor based on molecularly imprinted polymer membrane for the screening of complex mixture of haloacetic acids in drinking water.Analytica Chimica Acta, 504, (1), 89-100, (2004)
Sanguankiat A
Dechtrirat D et al., An electrochemical MIP sensor for selective detection of salbutamol based on a graphene/PEDOT:PSS modified screen printed carbon electrode.RSC Advances, 8, (1), 206-212, (2018)
Sanjesh
Singh KP et al., Preparation of isoproturon and 2, 4-dichlorophenoxy acetic acid imprinted membranes: Ion transport study.Desalination and Water Treatment, 24, (1-3), 176-189, (2010)
Singh KP et al., Selective Recognition and Detoxification of Deltamethrin Using Molecularly Imprinted Polymer (MIP) Matrices.
Analytical Chemistry Letters, 3, (1), 30-39, (2013)
Sanjuán AM
Sanjuán AM et al., Recent developments in sensing devices based on polymeric systems.Reactive and Functional Polymers, 133, 103-125, (2018)
Sankarakumar N
Tan CJ et al., Response to Comment on "Preparation of Superparamagnetic Ribonuclease A Surface-Imprinted Submicrometer Particles for Protein Recognition in Aqueous Media".Analytical Chemistry, 80, (23), 9375-9376, (2008)
Sankarakumar N et al., Core-shell surface imprinted polymeric nanoparticles for selective protein recognition and separation from complex aqueous media.
Abstracts of Papers of the American Chemical Society, 241, (ANYL), 297-(2011)
Sankarakumar N et al., Preventing viral infections with polymeric virus catchers: a novel nanotechnological approach to anti-viral therapy.
Journal of Materials Chemistry B, 1, (15), 2031-2037, (2013)
Sankarakumar N et al., Protein adsorption behavior in batch and competitive conditions with nanoparticle surface imprinting.
RSC Advances, 3, (5), 1519-1527, (2013)
Xie WY et al., Specific purification of a single protein from a cell broth mixture using molecularly imprinted membranes for the biopharmaceutical industry.
RSC Advances, 9, (41), 23425-23434, (2019)
Sankasa S
Suedee R et al., Thin-layer chromatography using synthetic polymers imprinted with quinine as chiral stationary phase.Jpc-Journal Of Planar Chromatography-Modern Tlc, 11, 272-276, (1998)
Suedee R et al., Direct enantioseparation of adrenergic drugs via thin-layer chromatography using molecularly imprinted polymers.
Journal of Pharmaceutical and Biomedical Analysis, 19, (3), 519-527, (1999)
Sanlier SH
Okutucu B et al., Decolorization of textile wastewater by dye-imprinted polymer.Desalination and Water Treatment, 57, (45), 21577-21584, (2016)
Sanmartin E
Azenha M et al., Vapor-phase testing of the memory-effects in benzene- and toluene-imprinted polymers conditioned at elevated temperature.Analytica Chimica Acta, 802, 40-45, (2013)
Sanmartín J
Sánchez-González J et al., NMR spectroscopy for assessing cocaine-functional monomer interactions when preparing molecularly imprinted polymers.Microchemical Journal, 147, 813-817, (2019)
Sannicolň F
Pietrzyk A et al., Melamine Acoustic Chemosensor Based on Molecularly Imprinted Polymer Film.Analytical Chemistry, 81, (24), 10061-10070, (2009)
Huynh TP et al., Cytosine derivatized bis(2, 2'-bithienyl)methane molecularly imprinted polymer for selective recognition of 6-thioguanine, an antitumor drug.
Biosensors and Bioelectronics, 70, 153-160, (2015)
Bartold K et al., Programmed Transfer of Sequence Information into a Molecularly Imprinted Polymer for Hexakis(2, 2'-bithien-5-yl) DNA Analogue Formation toward Single-Nucleotide-Polymorphism Detection.
ACS Applied Materials & Interfaces, 9, (4), 3948-3958, (2017)
Sannikova NY
Gubin AS et al., Use of Molecularly Imprinted Polymer for the Preconcentration of 4-Nitrophenol from Aqueous Media.Journal of Analytical Chemistry, 74, (1), 11-17, (2019)
Sano A
Sano A et al., Recent advances in materials for separation.Bunseki Kagaku, 56, (5), 279-297, (2007)
Sano M
Kanekiyo Y et al., Facile construction of a novel metal-imprinted polymer surface without a polymerisation process.Journal of the Chemical Society-Perkin Transactions 2, (9), 2005-2008, (1998)
Kanekiyo Y et al., Molecular-imprinting Kanekiyo Y et al., Molecular-imprinting Kanekiyo Y et al., Novel nucleotide-responsive hydrogels designed from copolymers of boronic acid and cationic units and their applications as a QCM resonator system to nucleotide sensing.
Journal of Polymer Science Part A: Polymer Chemistry, 38, (8), 1302-1310, (2000)
Sano T
Kubo T et al., On-column concentration of bisphenol A with one-step removal of humic acids in water.Journal of Chromatography A, 987, (1-2), 389-394, (2003)
Hosoya K et al., A molecular recognition strategy towards tetra-chlorinated dibenzo-p-dioxins, TCDDs.
Biosensors and Bioelectronics, 20, (6), 1185-1189, (2004)
Kubo T et al., Interval immobilization technique for recognition toward a highly hydrophilic cyanobacterium toxin.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 806, (2), 229-235, (2004)
Kubo T et al., Polymer-based adsorption medium prepared using a fragment imprinting technique for homologues of chlorinated bisphenol A produced in the environment.
Journal of Chromatography A, 1029, (1-2), 37-41, (2004)
Kubo T et al., Toxicity recognition of hepatotoxin, homologues of microcystin with artificial trapping devices.
Journal of Environmental Science and Health Part A-Toxic/Hazardous Substances & Environmental Engineering, 39, (10), 2597-2614, (2004)
Kubo T et al., Recognition of hepatotoxic homologues of Microcystin using a combination of selective adsorption media.
Journal of Separation Science, 27, (4), 316-324, (2004)
Kubo T et al., Dependence of the pretreatment efficiency of polymer-based adsorbents for environmental water on their uniformity and size.
Journal of Polymer Science Part A: Polymer Chemistry, 43, (10), 2112-2118, (2005)
Kubo T et al., Selective separation of brominated bisphenol A homologues using a polymer-based medium prepared by the fragment imprinting technique.
Analytica Chimica Acta, 549, (1-2), 45-50, (2005)
Kubo T et al., Chromatographic separation for domoic acid using a fragment imprinted polymer.
Analytica Chimica Acta, 577, (1), 1-7, (2006)
Nemoto K et al., Development of the novel separation media having 3D structural recognition ability for domoic acid.
Chromatography, 27, (Supplement 2), 103-104, (2006)
Nemoto K et al., Development of novel selective separation media for domoic acid using the fragment imprinted polymers.
Nippon Kagakkai Koen Yokoshu, 86, (1), 500-(2006)
Nemoto K et al., Simple and Effective 3D Recognition of Domoic Acid Using a Molecularly Imprinted Polymer.
Journal of the American Chemical Society, 129, (44), 13626-13632, (2007)
Nemoto K et al., Simple and Effective 3D Recognition of Domoic Acid Using a Molecularly Imprinted Polymer [J. Am. Chem. Soc. 2007, 129, 13626-13632].
Journal of the American Chemical Society, 130, (2), 774-774, (2008)
Kubo T et al., Selective adsorption of carbohydrates and glycoproteins via molecularly imprinted hydrogels: application to visible detection by a boronic acid monomer.
Chemical Communications, 53, (53), 7290-7293, (2017)
Kubo T et al., Competitive ELISA-like Label-free Detection of Lysozyme by Using a Fluorescent Monomer-doped Molecularly Imprinted Hydrogel.
Analytical Sciences, 33, (11), 1311-1315, (2017)
Yagishita M et al., Efficient extraction of estrogen receptor-active compounds from environmental surface water via a receptor-mimic adsorbent, a hydrophilic PEG-based molecularly imprinted polymer.
Chemosphere, 217, 204-212, (2019)
Kubo T et al., Fluorescent detection of target proteins via a molecularly imprinted hydrogel.
Analytical Methods, 13, (27), 3086-3091, (2021)
Sanskriti C
Kanai T et al., Acrylamide Based Molecularly Imprinted Polymer for Detection of m-Nitrophenol.Journal of Nanoscience and Nanotechnology, 13, (4), 3054-3061, (2013)
Sanson A
Sangiorgi N et al., Molecularly imprinted polypyrrole counter electrode for gel-state dye-sensitized solar cells.Electrochimica Acta, 305, 322-328, (2019)
Sansongsak P
Abdelkader MSA et al., Uptake of nicotine from suspension culture of Nicotiana tabacum by molecularly imprinted polymers.Journal of Pharmacy and Pharmacology, 62, (5), 633-637, (2010)
Santana AEG
Santos ACF et al., Development of magnetic nanoparticles modified with new molecularly imprinted polymer (MIPs) for selective analysis of glutathione.Sensors and Actuators B: Chemical, 344, Article130171-(2021)
Santana-Rodríguez JJ
Aufartová J et al., Determination of steroid hormones in biological and environmental samples using green microextraction techniques: An overview.Analytica Chimica Acta, 704, (1-2), 33-46, (2011)
Guedes-Alonso R et al., Molecularly imprinted solid-phase extraction coupled with ultra high performance liquid chromatography and fluorescence detection for the determination of estrogens and their metabolites in wastewater.
Journal of Separation Science, 38, (22), 3961-3968, (2015)
Santana-Viera S
Guedes-Alonso R et al., Molecularly imprinted solid-phase extraction coupled with ultra high performance liquid chromatography and fluorescence detection for the determination of estrogens and their metabolites in wastewater.Journal of Separation Science, 38, (22), 3961-3968, (2015)
Santhiago M
Santos WdJR et al., Novel electrochemical sensor for the selective recognition of chlorogenic acid.Analytica Chimica Acta, 695, (1-2), 44-50, (2011)
Santos WdJR et al., Electrochemical sensor based on imprinted sol-gel and nanomaterial for determination of caffeine.
Sensors and Actuators B: Chemical, 166-167, (1), 739-745, (2012)
Santillan FD
Rincon JE et al., Molecular Imprinted Silica with West Nile Antibody Templates show Specific and Selective Binding in Immunoassays.Journal of Biotechnology & Biomaterials, 7, ArticleNo260-(2017)
Santora BP
Santora BP et al., Molecularly imprinted titanium Lewis acid catalysts.Abstracts of Papers of the American Chemical Society, 216, (INOR), 216-216, (1998)
Santora BP et al., Toward the molecular imprinting of titanium Lewis acids: Demonstration of Diels-Alder catalysis.
Organometallics, 17, (15), 3138-3140, (1998)
Gagné MR et al., Molecular imprinting of transition metal catalysts.
Abstracts of Papers of the American Chemical Society, 218, (INOR), 164-164, (1999)
Santoro C
Parnianchi F et al., Highly selective and sensitive molecularly imprinting electrochemical sensing platform for bilirubin detection in saliva.Microchemical Journal, 168, Article106367-(2021)
Santos ACF
Santos ACF et al., Development of magnetic nanoparticles modified with new molecularly imprinted polymer (MIPs) for selective analysis of glutathione.Sensors and Actuators B: Chemical, 344, Article130171-(2021)
Santos AL
da Silva JL et al., Non-enzymatic lactose molecularly imprinted sensor based on disposable graphite paper electrode.Analytica Chimica Acta, 1143, 53-64, (2021)
Santos AM
Santos AM et al., Voltammetric determination of ethinylestradiol using screen-printed electrode modified with functionalized graphene, graphene quantum dots and magnetic nanoparticles coated with molecularly imprinted polymers.Talanta, 224, Article121804-(2021)
Santos ART
Santos ART et al., Antibody Biomimetic Material Made of Pyrrole for CA 15-3 and Its Application as Sensing Material in Ion-Selective Electrodes for Potentiometric Detection.Biosensors, 8, (1), ArticleNo8-(2018)
Santos AV
Oliveira GR et al., Neural modelling in adsorption column of cholesterol-removal efficiency from milk.LWT - Food Science and Technology, 64, (2), 632-638, (2015)
Santos C
Rebelo TSCR et al., Novel Prostate Specific Antigen plastic antibody designed with charged binding sites for an improved protein binding and its application in a biosensor of potentiometric transduction.Electrochimica Acta, 132, 142-150, (2014)
Piloto AM et al., Plastic antibodies tailored on quantum dots for an optical detection of myoglobin down to the femtomolar range.
Scientific Reports, 8, (1), ArticleNo4944-(2018)
Santos D
Ribeiro A et al., Receptor-based biomimetic NVP/DMA contact lenses for loading/eluting carbonic anhydrase inhibitors.Journal of Membrane Science, 383, (1-2), 60-69, (2011)
Ribeiro A et al., Bioinspired Imprinted PHEMA-Hydrogels for Ocular Delivery of Carbonic Anhydrase Inhibitor Drugs.
Biomacromolecules, 12, (3), 701-709, (2011)
Santos ES
Lemos VA et al., New Materials for Solid-Phase Extraction of Trace Elements.Applied Spectroscopy Reviews, 43, (4), 303-334, (2008)
Santos H
Rebelo TSCR et al., Testing the variability of PSA expression by different human prostate cancer cell lines by means of a new potentiometric device employing molecularly antibody assembled on graphene surface.Materials Science and Engineering: C, 59, 1069-1078, (2016)
Santos H et al., Molecularly imprinted polymers for miniaturized sample preparation techniques: strategies for chromatographic and mass spectrometry methods.
Analytical Methods, 12, (7), 894-911, (2020)
Santos JH
Koirala K et al., Biomimetic potentiometric sensor for chlorogenic acid based on electrosynthesized polypyrrole.Sensors and Actuators B: Chemical, 222, 391-396, (2016)
Santos JJ
Koirala K et al., Book chapter, Food Biosensors Based on Molecularly Imprinted Polymers,In: Food Biosensors, Lim SA, Ahmed MU (Eds.) The Royal Society of Chemistry: Ch. 11, 264-281, (2017)
Santos JLM
Piloto AM et al., Plastic antibodies tailored on quantum dots for an optical detection of myoglobin down to the femtomolar range.Scientific Reports, 8, (1), ArticleNo4944-(2018)
Piloto AM et al., Label-free quantum dot conjugates for human protein IL-2 based on molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 304, Article127343-(2020)
Santos L
Figueiredo L et al., Synthesis of a Molecularly Imprinted Polymer for Melamine Analysis in Milk by HPLC with Diode Array Detection.Advances in Polymer Technology, 34, (4), ArticleNo21506-(2015)
Figueiredo L et al., Applications of molecularly imprinted polymers to the analysis and removal of personal care products: A review.
Talanta, 146, 754-765, (2016)
Cardoso AR et al., Molecularly-imprinted chloramphenicol sensor with laser-induced graphene electrodes.
Biosensors and Bioelectronics, 124-125, 167-175, (2019)
Santos LN
Lemos VA et al., New Materials for Solid-Phase Extraction of Trace Elements.Applied Spectroscopy Reviews, 43, (4), 303-334, (2008)
Santos MG
Figueiredo EC et al., Quantitation of drugs via molecularly imprinted polymer solid phase extraction and electrospray ionization mass spectrometry: benzodiazepines in human plasma.Analyst, 136, (18), 3753-3757, (2011)
Santos MG et al., Molecularly imprinted solid phase extraction of urinary diethyl thiophosphate and diethyl dithiophosphate and their analysis by gas chromatography-mass spectrometry.
Journal of Chromatography B, 909, 70-76, (2012)
Franqui LS et al., Synthesis and characterization of a magnetic molecularly imprinted polymer for the selective extraction of nicotine and cotinine from urine samples followed by GC-MS analysis.
Analytical Methods, 7, (21), 9237-9244, (2015)
Santos MG et al., Restricted access molecularly imprinted polymers obtained by bovine serum albumin and/or hydrophilic monomers' external layers: a comparison related to physical and chemical properties.
Analyst, 140, (22), 7768-7775, (2015)
Santos MG et al., Direct doping analysis of beta-blocker drugs from urinary samples by on-line molecularly imprinted solid-phase extraction coupled to liquid chromatography/mass spectrometry.
Analyst, 140, (8), 2696-2703, (2015)
de Faria HD et al., New advances in restricted access materials for sample preparation: A review.
Analytica Chimica Acta, 959, 43-65, (2017)
Santos MG et al., Analysis of tricyclic antidepressants in human plasma using online-restricted access molecularly imprinted solid phase extraction followed by direct mass spectrometry identification/quantification.
Talanta, 163, 8-16, (2017)
Santos MN
da Silva RCS et al., Assessment of surfactants on performance of molecularly imprinted polymer toward adsorption of pharmaceutical.Journal of Environmental Chemical Engineering, 7, (2), Article103037-(2019)
Santos RA
Balieiro AL et al., Adsorption process of molecularly imprinted silica for extraction of lactose from milk.Brazilian Journal of Chemical Engineering, 33, (2), 361-372, (2016)
Santos TAPR
Justino CIL et al., Recent developments in recognition elements for chemical sensors and biosensors.TrAC Trends in Analytical Chemistry, 68, 2-17, (2015)
Santos VS
Segatelli MG et al., Cadmium ion-selective sorbent preconcentration method using ion imprinted poly(ethylene glycol dimethacrylate-co-vinylimidazole).Reactive and Functional Polymers, 70, (6), 325-333, (2010)
Santos VdS
dos Santos QO et al., Synthesis, characterization and application of ion imprinted poly(vinylimidazole) for zinc ion extraction/preconcentration with FAAS determination.Quimica Nova, 37, (1), 63-68, (2014)
Santos W
Santos W et al., A catalytically active molecularly imprinted polymer that mimics peroxidase based on hemin: application to the determination of p-aminophenol.Analytical and Bioanalytical Chemistry, 389, (6), 1919-1929, (2007)
Leite FRF et al., Selective determination of caffeic acid in wines with electrochemical sensor based on molecularly imprinted siloxanes.
Sensors and Actuators B: Chemical, 193, 238-246, (2014)
Santos WJR
Santos WJR et al., Synthesis, Characterization and Kinetics of Catalytically Active Molecularly Imprinted Polymers for the Selective Recognition of 4-Aminophenol.Journal of the Brazilian Chemical Society, 20, (5), 820-825, (2009)
Ribeiro CM et al., Application of a nanostructured platform and imprinted sol-gel film for determination of chlorogenic acid in food samples.
Talanta, 156-157, 119-125, (2016)
Santos WdJR
Santos WdJR et al., Synthesis and application of a peroxidase-like molecularly imprinted polymer based on hemin for selective determination of serotonin in blood serum.Analytica Chimica Acta, 631, (2), 170-176, (2009)
Neto JdRM et al., A hemin-based molecularly imprinted polymer (MIP) grafted onto a glassy carbon electrode as a selective sensor for 4-aminophenol amperometric.
Sensors and Actuators B: Chemical, 152, (2), 220-225, (2011)
Santos WdJR et al., Novel electrochemical sensor for the selective recognition of chlorogenic acid.
Analytica Chimica Acta, 695, (1-2), 44-50, (2011)
Sartori LR et al., Flow-based method for epinephrine determination using a solid reactor based on molecularly imprinted poly(FePP-MAA-EGDMA).
Materials Science and Engineering: C, 31, (2), 114-119, (2011)
Santos WdJR et al., Electrochemical sensor based on imprinted sol-gel and nanomaterial for determination of caffeine.
Sensors and Actuators B: Chemical, 166-167, (1), 739-745, (2012)
Santos Yabe MJ
de Oliveira FM et al., Kinetic and Isotherm Studies of Ni2+ Adsorption on Poly(methacrylic acid) Synthesized through a Hierarchical Double-Imprinting Method Using a Ni2+ Ion and Cationic Surfactant as Templates.Industrial & Engineering Chemistry Research, 52, (25), 8550-8557, (2013)
Santos-Buelga C
Santos-Buelga C et al., Book chapter, Extraction and Isolation of Phenolic Compounds,In: Natural Products Isolation, Sarker SD, Nahar L (Eds.) Humana Press: Ch. 17, 427-464, (2012)
Santos-Neto AJ
Andrade FN et al., Development of on-line molecularly imprinted solid phase extraction-liquid chromatography-mass spectrometry for triazine analysis in corn samples.Analytical Methods, 8, (5), 1181-1186, (2016)
Santos-Neto ÁJ
Andrade FN et al., Microextraction by packed sorbent liquid chromatography with time-of-flight mass spectrometry of triazines employing a molecularly imprinted polymer.Journal of Separation Science, 37, (21), 3150-3156, (2014)
Sartore DM et al., Automated microextraction by packed sorbent of cannabinoids from human urine using a lab-made device packed with molecularly imprinted polymer.
Talanta, 219, Article121185-(2020)
Santosa SJ
Shofiyani A et al., Book chapter, Enhancement of Cu(II) Adsorption Capacity by Surface-Ionic Imprinted Biosorbent,In: Chemical, Biological and Environmental Engineering, Li K (Ed.) World Scientific: 231-234, (2009)
Shofiyani A et al., Cadmium adsorption on chitosan/chlorella biomass sorbent prepared by ionic-imprinting technique.
Indonesian Journal of Chemistry, 15, (2), 163-171, (2015)
Santucci S
Ruggieri F et al., Development of molecularly imprinted polymeric nanofibers by electrospinning and applications to pesticide adsorption.Journal of Separation Science, 38, (8), 1402-1410, (2015)
Sanvido GB
Figueiredo EC et al., Molecularly imprinted polymers as analyte sequesters and selective surfaces for easy ambient sonic-spray ionization.Analyst, 135, (4), 726-730, (2010)
Figueiredo EC et al., Quantitation of drugs via molecularly imprinted polymer solid phase extraction and electrospray ionization mass spectrometry: benzodiazepines in human plasma.
Analyst, 136, (18), 3753-3757, (2011)
Sanz E
Dietz C et al., Current perspectives in analyte extraction strategies for tin and arsenic speciation.Journal of Chromatography A, 1153, (1-2), 114-129, (2007)
Sanz J
Dietz C et al., Current perspectives in analyte extraction strategies for tin and arsenic speciation.Journal of Chromatography A, 1153, (1-2), 114-129, (2007)
Sanz ML
Sanz ML et al., Recent developments in sample preparation for chromatographic analysis of carbohydrates.Journal of Chromatography A, 1153, (1-2), 74-89, (2007)
Sanz-Medel A
Salinas-Castillo A et al., Iodinated molecularly imprinted polymer for room temperature phosphorescence optosensing of fluoranthene.Chemical Communications, (25), 3224-3226, (2005)
Sánchez-Barragán I et al., Molecularly imprinted polymers based on iodinated monomers for selective room-temperature phosphorescence optosensing of fluoranthene in water.
Analytical Chemistry, 77, (21), 7005-7011, (2005)
Sánchez-Barragán I et al., Room-temperature phosphorescence (RTP) for optical sensing.
TrAC Trends in Analytical Chemistry, 25, (10), 958-967, (2006)
Sánchez-Barragán I et al., A molecularly imprinted polymer for carbaryl determination in water.
Sensors and Actuators B: Chemical, 123, (2), 798-804, (2007)
Traviesa-Alvarez JM et al., Room temperature phosphorescence optosensing of benzo[a]pyrene in water using halogenated molecularly imprinted polymers.
Analyst, 132, (3), 218-223, (2007)
Alvarez-Diaz A et al., Halogenated molecularly imprinted polymers for selective determination of carbaryl by phosphorescence measurements.
Analytical and Bioanalytical Chemistry, 394, (6), 1569-1576, (2009)
Álvarez A et al., Reusable phosphorescent probes based on molecularly imprinted polymers for the determination of propranolol in urine.
Sensors and Actuators B: Chemical, 168, (1), 370-375, (2012)
Sanz-Ortiz MN
Carrasco S et al., Multibranched Gold-Mesoporous Silica Nanoparticles Coated with a Molecularly Imprinted Polymer for Label-Free Antibiotic Surface-Enhanced Raman Scattering Analysis.Chemistry of Materials, 28, (21), 7947-7954, (2016)
Sappia L
Hassan AHA et al., Biomimetic magnetic sensor for electrochemical determination of scombrotoxin in fish.Talanta, 194, 997-1004, (2019)
Saputra A
Saputra A et al., Determination of Effective Functional Monomer and Solvent for R(+)-Cathinone Imprinted Polymer Using Density Functional Theory and Molecular Dynamics Simulation Approaches.Indonesian Journal of Chemistry, 17, (3), 516-522, (2017)
Sarabadani P
Sarabadani P et al., Ion-imprinted polymeric nanoparticles as a novel sorbent to separate radioyttrium from Sr target.Radiochimica Acta, 101, (11), 725-731, (2013)
Sarabadani P et al., Synthesis and characterization of a novel nanostructured ion-imprinted polymer for pre-concentration of Y(III) ions.
Analytical Methods, 6, (3), 741-749, (2014)
Sarabadani P et al., Solid phase extraction of radioyttrium from irradiated strontium target using nanostructure ion imprinted polymer formed with 1-hydroxy-4-(prop-2-enyloxy)-9, 10-anthraquinone.
Applied Radiation and Isotopes, 90, 8-14, (2014)
Masoumi F et al., Synthesis, characterization and application of a new nano-structured samarium(III) ion-imprinted polymer.
Polymer Bulletin, 76, (11), 5499-5516, (2019)
Sarabaegi M
Sarabaegi M et al., Rapid and sensitive determination of Pseudomonas aeruginosa by using a glassy carbon electrode modified with gold nanoparticles and aptamer-imprinted polydopamine.Microchemical Journal, 168, Article106388-(2021)
Sarabi AA
Kazemi S et al., Synthesis and characterization of magnetic molecularly imprinted polymer nanoparticles for controlled release of letrozole.Korean Journal of Chemical Engineering, 33, (11), 3289-3297, (2016)
Sarabi-Jamab M
Mansouri E et al., Preparation and Characterization of Herbicide Mecoprop Imprinted Polymer and Its Application as a Selective Sorbent in Water Sample.Bulletin of Environmental Contamination and Toxicology, 101, (5), 657-663, (2018)
Sarafraz-Yazdi A
Golsefidi MA et al., Design, synthesis and evaluation of a molecularly imprinted polymer for hollow fiber - solid phase microextraction of chlorogenic acid in medicinal plants.Journal of Chromatography A, 1229, (1), 24-29, (2012)
Sarafraz-Yazdi A et al., Application of molecularly-imprinted polymers in solid-phase microextraction techniques.
TrAC Trends in Analytical Chemistry, 73, 81-90, (2015)
Saraji M
Saraji M et al., Selective solid-phase extraction of Ni(II) by an ion-imprinted polymer from water samples.Journal of Hazardous Materials, 167, (1-3), 1152-1157, (2009)
Saraji M et al., Preparation and evaluation of an ion imprinted sol-gel material for selective solid-phase extraction of Ni(II).
International Journal of Environmental Analytical Chemistry, 89, (5), 305-317, (2009)
Saraji M et al., A simple approach for the preparation of simazine molecularly imprinted nanofibers via self-polycondensation for selective solid-phase microextraction.
Analytica Chimica Acta, 936, 108-115, (2016)
Mohammadi V et al., Direct molecular imprinting technique to synthesize coated electrospun nanofibers for selective solid-phase microextraction of chlorpyrifos.
Microchimica Acta, 186, (8), Article524-(2019)
Dowlatshah S et al., A silica-based three-dimensional molecularly imprinted coating for the selective solid-phase microextraction of difenoconazole from wheat and fruits samples.
Analytica Chimica Acta, 1098, 37-46, (2020)
Saral H
Ertan B et al., Sensitive analysis of simazine based on platinum nanoparticles on polyoxometalate/multi-walled carbon nanotubes.Journal of Colloid and Interface Science, 470, 14-21, (2016)
Saranya R
Saranya R et al., Book chapter, Affinity Membranes for Capture of Cells and Biological Substances,In: Filtering Media by Electrospinning: Next Generation Membranes for Separation Applications, Focarete ML, Gualandi C, Ramakrishna S (Eds.) Springer International Publishing: Cham, 175-195, (2018)
Saraswathi S
Saraswathi S et al., Semisynthetic "acid-esterase": Conformational modification of ribonuclease.Enzyme and Microbial Technology, 6, (3), 98-100, (1984)
Saraswathi S et al., A systematic-approach to induce new enzyme-activities in proteins.
Abstracts of Papers of the American Chemical Society, 188, (MSE), 42-42, (1984)
Keyes MH et al., Enzyme semisynthesis by conformational modification of proteins.
Annals of the New York Academy of Sciences, 501, 201-204, (1987)
Saraswaty V
Setiyanto H et al., The Performance of Molecularly Imprinted Polymers (MIPs)-Modified Carbon Paste Electrode and Its Application in Detecting Phenol.International Journal of Electrochemical Science, 15, 5477-5486, (2020)
Saravani H
Sayar O et al., A novel magnetic ion imprinted polymer for selective adsorption of trace amounts of lead(II) ions in environment samples.Journal of Industrial and Engineering Chemistry, 20, (5), 2657-2662, (2014)
Saraydin D
Hepokur C et al., Synthesis of New Molecular Imprinted Polymer for Highly Recognition of Cholic Acid.Acta Chemica Iasi, 26, (1), 123-152, (2018)
Sarazin C
Bompart M et al., Molecularly imprinted polymers by reversible chain transfer catalysed polymerization.Polymer, 78, 31-36, (2015)
Sarbu A
Sarbu A et al., Proceeding, Imprinted polymer pearls for molecular recognition of diosgenin,391-396, (2008)
Dima SO et al., Molecularly Imprinted Membranes for Selective Separations.
Materiale Plastice, 46, (4), 372-378, (2009)
Dima SO et al., Mass transfer in a special type of nanomaterials: MIPs.
Journal of Optoelectronics and Advanced Materials, 14, (7-8), 619-623, (2012)
Nicolescu TV et al., Tailor-made polymer beads for gallic acid recognition and separation.
Journal of Polymer Research, 19, (12), Article No. 2-(2012)
Dima SO et al., Diosgenin-selective molecularly imprinted pearls prepared by wet phase inversion.
Reactive and Functional Polymers, 73, (9), 1188-1197, (2013)
Nicolescu TV et al., Molecularly imprinted ''bulk'' copolymers as selective sorbents for gallic acid.
Journal of Applied Polymer Science, 127, (1), 366-374, (2013)
Nicolescu TV et al., A new microemulsion approach for producing molecularly imprinted polymers with selective recognition cavities for gallic acid.
Polymer International, 62, (6), 949-956, (2013)
Dima SO et al., Molecularly imprinted poly(acrylonitrile-co-acrylic acid) matrix with sclareol.
Polymer Engineering & Science, 54, (7), 1484-1494, (2014)
Iordache TV et al., Selecting the nature of imprinted molecular organosilica sieves with gallic acid via thermal analyses.
Journal of Thermal Analysis and Calorimetry, 118, (2), 1039-1048, (2014)
Florea AM et al., Operational parameters for the preparation of precursor polymer matrix used in molecular imprinting.
U. P. B. Science Bulletin, Series B, 73, (4), 3-14, (2015)
Florea AM et al., The structure effect upon gallic acid re-binding in molecularly imprinted organosilica.
Journal of Sol-Gel Science and Technology, 76, (3), 529-541, (2015)
Lazau C et al., Towards developing an efficient sensitive element for trinitrotoluene detection: TiO2 thin films functionalized with molecularly imprinted copolymer films.
Applied Surface Science, 384, 449-458, (2016)
Florea AM et al., Evaluation of molecularly imprinted polymer pearls for selective isolation of hypericins.
Revista De Materiale Plastice, 54, (3), 495-501, (2017)
Ekomo VM et al., Detection of Bisphenol A in aqueous medium by screen printed carbon electrodes incorporating electrochemical molecularly imprinted polymers.
Biosensors and Bioelectronics, 112, 156-161, (2018)
Georgescu BE et al., Application of unusual on/off electrochemical properties of a molecularly imprinted polymer based on an EDOT-thiophene precursor for the detection of ephedrine.
Electrochemistry Communications, 94, 45-48, (2018)
Gavrila AM et al., Molecularly Imprinted Polymer Pearls Obtained by Phase Inversion for the Selective Recognition of Hypericin.
Materiale Plastice, 56, (2), 315-320, (2019)
Sardar MR
Sardar MR et al., Molecularly imprinted polymer for pre-concentration of esculetin from tobacco followed by the UPLC analysis.SCIENCE CHINA Chemistry, 57, (12), 1751-1759, (2014)
Sardaremelli S
Sardaremelli S et al., A novel bioassay for the monitoring of hydrogen peroxide in human plasma samples based on binding of horseradish peroxidase-conjugated prostate specific antigen to poly (toluidine blue) as imprinted polymer receptor.International Journal of Biological Macromolecules, 145, 311-324, (2020)
Sardaremelli S et al., Chemical binding of horseradish peroxidase enzyme with poly beta-cyclodextrin and its application as molecularly imprinted polymer for the monitoring of H2O2 in human plasma samples.
Journal of Molecular Recognition, 34, (5), Article_e2884-(2021)
Saren TY
Du XJ et al., Substitution of antibody with molecularly imprinted 96-well plate in chemiluminescence enzyme immunoassay for the determination of chloramphenicol residues.Food and Agricultural Immunology, 25, (3), 411-422, (2014)
Sargent EH
Labib M et al., Electrochemical Methods for the Analysis of Clinically Relevant Biomolecules.Chemical Reviews, 116, (16), 9001-9090, (2016)
Sarhan A
Wulff G et al., The use of polymers with enzyme-analogous structures for the resolution of racemates.Angewandte Chemie International Edition, 11, (4), 341-341, (1972)
Wulff G et al., Über die Anwendung von enzymanalog gebauten Polymeren zur Racemattrennung.
Angewandte Chemie, 84, (8), 364-364, (1972)
Wulff G et al., Enzyme-analogue built polymers and their use for the resolution of racemates.
Tetrahedron Letters, 14, (44), 4329-4332, (1973)
Wulff G et al., Über enzymanalog gebaute Polymere, III) Zur Synthese von polymerisierbaren D-Glycerinsäurenderivaten.
Chemische Berichte, 107, 3364-3376, (1974)
Wulff G et al., Studies on synthesis of polymers with enzyme analog structure.
Chemiker-Zeitung, 100, (6), 288-288, (1976)
Wulff G et al., Enzyme-analogue built polymers, 4. On the synthesis of polymers containing chiral cavities and their use for the resolution of racemates.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 178, (10), 2799-2816, (1977)
Wulff G et al., Enzyme-analogue built polymers, 5. On the specificity distribution of chiral cavities prepared in synthetic polymers.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 178, (10), 2817-2825, (1977)
Sarhan A, Racemic separation of amygdalinic acid on polymers with chiral spaces .1. The synthesis of suitable polymers with phenylboronic acid as a bound group.
Makromolekulare Chemie-Rapid Communications, 3, (7), 489-493, (1982)
Sarhan A et al., On polymers with enzyme-analogous structure .14. Stereospecific binding by amide bonding or electrostatic interaction.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 183, (7), 1603-1614, (1982)
Sarhan A et al., Enzyme-analog built polymers .13. On the introduction of amino and boronic acid groups into chiral polymer cavities.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 183, (1), 85-92, (1982)
Wulff G et al., Book chapter, Chemical Approaches to Understanding Enzyme Catalysis: Biomimetic Chemistry and Transition-State Analogs, Green BS, Ashani Y, Chipman D (Eds.) Elsevier: Amsterdam, 106-118, (1982)
Sarhan A et al., Racemic-resolution of mandelic-acid on polymers with chiral cavities .2. Enzyme-analog stereospecific conversion of configuration.
Makromolekulare Chemie-Rapid Communications, 8, (11), 555-561, (1987)
Sarhan A et al., Effect of N-bases on reactions of macroporous polymer-supported phenylboronic acid with mandelic-acid.
Reactive Polymers, Ion Exchangers, Sorbents, 9, (1), 129-130, (1988)
Sarhan A, Racemic-resolution of mandelic-acid on polymers with chiral cavities .4.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 190, (9), 2031-2039, (1989)
Sarhan A et al., Racemic-resolution of mandelic-acid on polymers with chiral cavities .3. Co-operative binding over phenylboronic acid groups and N-bases.
Reactive Polymers, 11, (1), 57-70, (1989)
Sarhan AA
Monier M et al., Preparation of cross-linked chitosan/glyoxal molecularly imprinted resin for efficient chiral resolution of aspartic acid isomers.Biochemical Engineering Journal, 51, (3), 140-146, (2010)
Sari AZ
Harsini M et al., Selective melamine sensor based on nanoporous carbon paste/molecularly imprinted polymer.Journal of Chemical and Pharmaceutical Research, 6, (11), 305-311, (2014)
Sari D
Asir S et al., Dopamine-imprinted monolithic column for capillary electrochromatography.Electrophoresis, 38, (22-23), 3003-3012, (2017)
Sari E
Sari E et al., Fabrication of surface plasmon resonance nanosensor for the selective determination of erythromycin via molecular imprinted nanoparticles.Talanta, 150, 607-614, (2016)
Okan M et al., Molecularly imprinted polymer based micromechanical cantilever sensor system for the selective determination of ciprofloxacin.
Biosensors and Bioelectronics, 88, 258-264, (2017)
Sari E et al., Detection of ciprofloxacin through surface plasmon resonance nanosensor with specific recognition sites.
Journal of Biomaterials Science-Polymer Edition, 29, (11), 1302-1318, (2018)
Sari E et al., Prism coupler-based sensor system for simultaneous screening of synthetic glucocorticosteroid as doping control agent.
Sensors and Actuators B: Chemical, 260, 432-444, (2018)
Sari E et al., Paper Based Photoluminescent Sensing Platform with Recognition Sites for Tributyltin.
ACS Sensors, 4, (3), 645-653, (2019)
Üzek R et al., A nitrocellulose paper strip for fluorometric determination of bisphenol A using molecularly imprinted nanoparticles.
Microchimica Acta, 186, (4), 218-(2019)
Sari NM
Darmokoesoemo H et al., Analysis of creatinine by potentiometric using electrode carbon paste modified by molecularly imprinted polymer as sensor.Rayasan Journal of Chemistry, 10, (2), 450-453, (2017)
Khasanah M et al., Development of electrode carbon paste modified by molecularly imprinted polymer as sensor for analysis of creatinine by potentiometric.
Results in Physics, 7, 1808-1817, (2017)
Sari TN
Hasanah AN et al., Study of the binding ability of molecular imprinted solid phase extraction for glibenclamide by optimizing template:monomer:crosslinker ratio.International Journal of Chemical Science, 12, (3), 863-870, (2014)
Saridakis E
Saridakis E et al., Protein crystallization facilitated by molecularly imprinted polymers.Proceedings of the National Academy of Sciences of the United States of America, 108, (27), 11081-11086, (2011)
Saridakis E et al., Protein crystallization facilitated by molecularly imprinted polymers (vol 108, pg 11081, 2011).
Proceedings of the National Academy of Sciences of the United States of America, 108, (45), 18566-18566, (2011)
Saridakis E et al., Imprinted polymers assisting protein crystallization.
Trends In Biotechnology, 31, (9), 515-520, (2013)
Khurshid S et al., Porous nucleating agents for protein crystallization.
Nature Protocols, 9, (7), 1621-1633, (2014)
Sarih N
Surikumaran H et al., Molecular Imprinted Polymer of Methacrylic Acid Functionalised [beta]-Cyclodextrin for Selective Removal of 2, 4-Dichlorophenol.International Journal of Molecular Sciences, 15, (4), 6111-6136, (2014)
Sarih NM
Asman S et al., Exploiting [beta]-Cyclodextrin in Molecular Imprinting for Achieving Recognition of Benzylparaben in Aqueous Media.International Journal of Molecular Sciences, 16, (2), 3656-3676, (2015)
Asman S et al., Effects of RAFT Agent on the Selective Approach of Molecularly Imprinted Polymers.
Polymers, 7, (3), 484-503, (2015)
Asman S et al., Influence of polymer morphology on the adsorption behaviors of molecularly imprinted polymer-methacrylic acid functionalized [beta]-cyclodextrin.
Journal of Applied Polymer Science, 132, (43), ArticleNo42720-(2015)
Surikumaran H et al., [beta]-Cyclodextrin Based Molecularly Imprinted Solid Phase Extraction for Class Selective Extraction of Priority Phenols in Water Samples.
Separation Science and Technology, 50, (15), 2342-2351, (2015)
Asman S et al., Study of the morphology and the adsorption behavior of molecularly imprinted polymers prepared by reversible addition-fragmentation chain transfer (RAFT) polymerization process based on two functionalized [beta]-cyclodextrin as monomers.
Journal of Molecular Liquids, 214, 59-69, (2016)
Surikumaran H et al., Synthesis and evaluation of methacrylic acid functionalized [beta]-cyclodextrin based molecular imprinted polymer for 2, 4-dichlorophenol in water samples.
Desalination and Water Treatment, 57, (1), 254-267, (2016)
Sarikaya AG
Sarikaya AG et al., Molecularly imprinted surface plasmon resonance (SPR) sensor for uric acid determination.Sensors and Actuators B: Chemical, 251, 763-772, (2017)
Sariözlü NY
Akdamar HA et al., Separation and purification of hyaluronic acid by glucuronic acid imprinted microbeads.Materials Science and Engineering: C, 29, (4), 1404-1408, (2009)
Gültekin A et al., Gold nanoparticles having dipicolinic acid imprinted nanoshell for Bacillus cereus spores recognition.
Applied Surface Science, 256, (1), 142-148, (2009)
Gültekin A et al., Gold-silver nanoclusters having dipicolinic acid imprinted nanoshell for Bacillus cereus spores recognition.
Talanta, 78, (4-5), 1332-1338, (2009)
Gültekin A et al., Nanosensors having dipicolinic acid imprinted nanoshell for Bacillus cereus spores detection.
Journal of Nanoparticle Research, 12, (6), 2069-2079, (2010)
Sarjadi MS
Yusoff MM et al., Synthesis of ion imprinted polymers for selective recognition and separation of rare earth metals.Journal of Rare Earths, 35, (2), 177-186, (2017)
Rahman ML et al., Ion-Imprinted Polymer for Selective Separation of Cerium(III) Ions from Rare Earth Mixture.
Journal of Nanoscience and Nanotechnology, 19, (9), 5796-5802, (2019)
Sarkar B
Zhou QT et al., Electrochemical sensor based on corncob biochar layer supported chitosan-MIPs for determination of dibutyl phthalate (DBP).Journal of Electroanalytical Chemistry, 897, Article115549-(2021)
Sarkar MS
Yusoff MM et al., Synthesis of ion imprinted polymers for selective recognition and separation of rare earth metals.Journal of Rare Earths, 35, (2), 177-186, (2017)
Sarkar N
Sahu D et al., Nano silver imprinted polyvinyl alcohol nanocomposite thin films for Hg2+ sensor.Sensors and Actuators B: Chemical, 246, 96-107, (2017)
Sarkar SM
Rahman ML et al., Ion-Imprinted Polymer for Selective Separation of Cerium(III) Ions from Rare Earth Mixture.Journal of Nanoscience and Nanotechnology, 19, (9), 5796-5802, (2019)
Sarkar T
Singh AK et al., A simple detection platform based on molecularly imprinted polymer for AFB1 and FuB1 mycotoxins.Microchemical Journal, 171, Article106730-(2021)
Sarkaya K
Asir S et al., Dopamine-imprinted monolithic column for capillary electrochromatography.Electrophoresis, 38, (22-23), 3003-3012, (2017)
Sarkaya K et al., The comparative investigation on synthesis, characterizations of silver ion-imprinting and non-imprinting cryogels, their impedance spectroscopies and relaxation mechanisms.
Polymer Bulletin, 76, (11), 5701-5716, (2019)
Sarkaya K et al., Ag+ ions imprinted cryogels for selective removal of silver ions from aqueous solutions.
Separation Science and Technology, 54, (18), 2993-3004, (2019)
Sarker AK
Islam MR et al., Responsive polymers for analytical applications: A review.Analytica Chimica Acta, 789, 17-32, (2013)
Sarkhosh T
Sarkhosh T et al., Development of cell-imprinted polymer surfaces for Cryptosporidium capture and detection.Water Research, 205, Article117675-(2021)
Sarkisov L
Sarkisov L et al., Replica Ornstein-Zernike theory of adsorption in a templated porous material: Interaction site systems.Journal of Chemical Physics, 123, (16), (2005)
Sarkisov L et al., Integral Equation Theory of Adsorption in Templated Materials: Influence of Molecular Attraction.
Journal of Physical Chemistry C, 111, (43), 15726-15735, (2007)
Sarkisov L, Theory of pair connectedness in templated quenched-annealed systems.
Journal of Chemical Physics, 128, (4), Art. No. 044707-(2008)
Dourado EMA et al., Emergence of molecular recognition phenomena in a simple model of imprinted porous materials.
Journal of Chemical Physics, 130, (21), 214701-214709, (2009)
Herdes C et al., Computer Simulation of Volatile Organic Compound Adsorption in Atomistic Models of Molecularly Imprinted Polymers.
Langmuir, 25, (9), 5352-5359, (2009)
Dourado EMA et al., Molecular Recognition Effects in Atomistic Models of Imprinted Polymers.
International Journal of Molecular Sciences, 12, (8), 4781-4804, (2011)
Sarpong KA
Sarpong KA et al., Development and application of a novel electrochemical sensor based on AuNPS and difunctional monomer-MIPs for the selective determination of Tetrabromobisphenol-S in water samples.Microchemical Journal, 154, Article104526-(2020)
Zhang YY et al., Computer-aided design and synthesis of molecular imprinting polymers based on doubly oriented functional multiwalled carbon nanotubes for electrochemically sensing bisphenol A.
Reactive and Functional Polymers, 157, Article104767-(2020)
Sarrafi Y
Gatabi J et al., Facile and efficient removal of Pb(II) from aqueous solution by chitosan-lead ion imprinted polymer network.Chemosphere, 240, Article124772-(2020)
Sartore DM
Sartore DM et al., Automated microextraction by packed sorbent of cannabinoids from human urine using a lab-made device packed with molecularly imprinted polymer.Talanta, 219, Article121185-(2020)
Sartori LR
Sartori LR et al., Flow-based method for epinephrine determination using a solid reactor based on molecularly imprinted poly(FePP-MAA-EGDMA).Materials Science and Engineering: C, 31, (2), 114-119, (2011)
Marestoni LD et al., Ion imprinted polymers: fundamentals, preparation strategies and applications in analytical chemistry.
Quimica Nova, 36, (8), 1194-1207, (2013)
Sartori S
Chiono V et al., Book chapter, Biomimetic Tailoring of the Surface Properties of Polymers at the Nanoscale: Medical Applications,In: Scanning Probe Microscopy in Nanoscience and Nanotechnology, Volume 2, Bhushan B (Ed.) Springer: Heidelberg, Ch. 22, 645-689, (2011)
Sarwar S
Memon GZ et al., Synthesis and Characterization of Ion-Imprinted Polymer for Selective Adsorption of Zinc Ions in Aqueous media.Asian Journal of Chemistry, 29, (6), 1229-1234, (2017)
Sasagawa Y
Sasagawa Y et al., Detection of GOD Using a Molecular Imprinting Polymer Thin Film.Nippon Kagakkai Koen Yokoshu, 75, 179-(1998)
Sasai H
Arai T et al., Catalyst analogueSasaki A
Hattori K et al., Chiral-selectivity on gate effect of phenylalanine-imprinted polymers grafted onto cellulosic membrane.Chem Sens, 20, (Supplement B), 384-385, (2004)
Hattori K et al., Chiral-selectivity on gate effect of phenylalanine-imprinted polymers grafted onto cellulosic membrane.
Chem Sens, 20, (Supplement B), 384-385, (2011)
Sasaki DY
Shea KJ et al., Fluorescence probes for the evaluation of diffusion of ionic reagents through network polymers - chemical quenching of the fluorescence emission of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.Macromolecules, 22, (11), 4303-4308, (1989)
Shea KJ et al., Fluorescence probes for evaluating chain solvation in network polymers - An analysis of the solvatochromic shift of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.
Macromolecules, 22, (4), 1722-1730, (1989)
Shea KJ et al., On the control of microenvironment shape of functionalized network polymers prepared by template polymerization.
Journal of the American Chemical Society, 111, (9), 3442-3444, (1989)
Shea KJ et al., An analysis of small-molecule binding to functionalized synthetic polymers by 13C CP/MAS NMR and FT-IR spectroscopy.
Journal of the American Chemical Society, 113, (11), 4109-4120, (1991)
Shnek DR et al., Specific protein attachment to artificial membranes via coordination to lipid-bound copper(II).
Langmuir, 10, (7), 2382-2388, (1994)
Daitch CE et al., Phosphate and phosphonate receptors in silicate materials.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 132-132, (1997)
Sasaki DY et al., Book chapter, Molecular imprinted receptors in sol-gel materials for aqueous phase recognition of phosphates and phosphonates,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 22, 314-323, (1998)
Sasaki DY et al., Molecular imprinting in guanidine functionalized sol-gel materials.
Abstracts of Papers of the American Chemical Society, 217, (HYS), 211-211, (1999)
Sasaki DY et al., Solid-state 31P NMR study of phosphonate binding sites in guanidine-functionalized, molecular imprinted silica xerogels.
Chemistry of Materials, 12, (5), 1400-1407, (2000)
Sasaki DY, Book chapter, Molecular imprinting approaches using inorganic matrices,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 8, 213-244, (2001)
Sasaki H
Hosoya K et al., Molecular recognition towards coplanar polychlorinated biphenyls based on the porogen imprinting effects of xylenes.Journal of Chromatography A, 828, (1-2), 91-94, (1998)
Hosoya K et al., Improvement in performance of polymer-based packing materials for HPLC-based molecular imprinting technique.
Chromatography, 19, (4), 360-361, (1998)
Hosoya K et al., Development of novel recognition and evaluation procedures for structurally similar compounds based on spatial multi-points interactions.
Chromatography, 20, (4), 332-333, (1999)
Hosoya K et al., Preparation of polymer-based adsorbents for solid-phase extraction-adsorption properties and addition of selectivity.
Chromatography, 20, (2), 178-179, (1999)
Sasaki N
Fuchiwaki Y et al., Development of CAT sensor based on artifical receptor for CAT.Chem Sens, 22, (Supplement B), 37-39, (2006)
Fuchiwaki Y et al., Development of an electrochemical sensing system for 6-chloro-N, N-diethyl-1, 3, 5-triazine-2, 4-diamine (CAT) utilizing an amalgamated gold electrode and artificial sensor receptor.
Electrochemistry, 75, (9), 709-714, (2007)
Fuchiwaki Y et al., Electrochemical Sensing System Utilizing Simazine-Imprinted Polymer Receptor for the Detection of Simazine in Tap Water.
Journal of Sensors, 2009, Article No. 503464-(2009)
Sasaki R
Mori K et al., A Pretreatment-Free, Polymer-Based Platform Prepared by Molecular Imprinting and Post-Imprinting Modifications for Sensing Intact Exosomes.Angewandte Chemie International Edition, 58, (6), 1612-1615, (2018)
Yoshida A et al., Gold Nanoparticle-Incorporated Molecularly Imprinted Microgels as Radiation Sensitizers in Pancreatic Cancer.
ACS Applied Bio Materials, 2, (3), 1177-1183, (2019)
Sasaki S
Sasaki S et al., Highly selective bisphenol A-imprinted polymers prepared by atom transfer radical polymerization.Polymer Chemistry, 1, (10), 1684-1688, (2010)
Sasaki S et al., Molecularly imprinted protein recognition thin films constructed by controlled/living radical polymerization.
Journal of Bioscience and Bioengineering, 119, (2), 200-205, (2015)
Sasaki T
Kato M et al., Metal-ion adsorption on poly(1-vinylimidazole) resins prepared by [gamma]-irradiation with template metal-ion.Kobunshi Ronbunshu, 37, (10), 647-650, (1980)
Kato M et al., Complexation of metal-ion with poly(1-vinylimidazole) resin prepared by radiation-induced polymerization with template metal-ion.
Journal of Polymer Science, Polymer Chemistry Edition, 19, (7), 1803-1809, (1981)
Tahmassebi DC et al., Molecular imprinting - synthesis of 3-helix bundle proteins on modified silica-gel.
Abstracts of Papers of the American Chemical Society, 204, (ORGN), 314-314, (1992)
Tahmassebi D et al., Molecular imprinting: Synthesis of 3-helix bundle proteins on modified silica gel.
Synth. Meth., 196-198, (1994)
Tahmassebi DC et al., Synthesis of a new trialdehyde template for molecular imprinting.
Journal of Organic Chemistry, 59, (3), 679-681, (1994)
Hwang KO et al., Template-assisted assembly of metal binding sites on a silica surface.
Materials Science & Engineering C-Biomimetic Materials Sensors And Systems, 3, (2), 137-141, (1995)
Boeckl MS et al., Template-assisted nano-patterning of solid surfaces.
Biopolymers, 47, (2), 185-193, (1998)
Hwang KO et al., Imprinting for the assembly of artificial receptors on a silica surface.
Journal of Materials Chemistry, 8, (9), 2153-2156, (1998)
Suzuki A et al., Design of catalytic sites at oxide surfaces by metal-complex attaching and molecular imprinting techniques.
Journal of Molecular Catalysis A: Chemical, 182-183, (1), 125-136, (2002)
Tada M et al., Novel SiO2-attached molecular-imprinting Rh-monomer catalysts for shape-selective hydrogenation of alkenes; preparation, characterization and performance.
Physical Chemistry Chemical Physics, 4, (18), 4561-4574, (2002)
Tada M et al., Design, characterization and performance of a molecular imprinting Rh-dimer hydrogenation catalyst on a SiO2 surface.
Physical Chemistry Chemical Physics, 4, (23), 5899-5909, (2002)
Tada M et al., Performance and kinetic behavior of a new SiO2-attached molecular-imprinting Rh-dimer catalyst in size- and shape-selective hydrogenation of alkenes.
Journal of Catalysis, 211, (2), 496-510, (2002)
Tada M et al., Molecular-imprinted metal complexes for design of catalytic structures.
Abstracts of Papers of the American Chemical Society, 226, (INOR), 447-447, (2003)
Tada M et al., Design of a novel molecular-imprinted Rh-amine complex on SiO2 and its shape-selective catalysis for a-methylstyrene hydrogenation.
Journal of Physical Chemistry B, 108, (9), 2918-2930, (2004)
Sasaki Y
Fujiwara I et al., Preparation of Cu-II-imprinted microspheres with imidazole groups at the surfaces by surface imprinting polymerization.Bunseki Kagaku, 52, (2), 147-150, (2003)
Sasaki Y et al., Polymer-Stabilized Micropixelated Liquid Crystals with Tunable Optical Properties Fabricated by Double Templating.
Advanced Materials, 29, (37), ArticleNo1703054-(2017)
Sasao R
Takeuchi T et al., Molecularly Imprinted Tailor-Made Functional Polymer Receptors for Highly Sensitive and Selective Separation and Detection of Target Molecules.Chromatography, 37, (2), 43-64, (2016)
Takeuchi T et al., Molecularly Imprinted Nanogels Acquire Stealth In Situ by Cloaking Themselves with Native Dysopsonic Proteins.
Angewandte Chemie International Edition, 56, (25), 7088-7092, (2017)
Sassa F
Araki S et al., Proceeding, Raman enhanced structure with reconfigured molecularly-imprinted-polymer for gas deteciton,1-3, (2016)
Shinohara S et al., Molecularly Imprinted Filtering Adsorbents for Odor Sensing.
Sensors, 16, (11), ArticleNo1974-(2016)
Shinohara S et al., Proceeding, Gas selective chemiresistor composed of molecularly imprinted polymer composite ink,
1-3, (2016)
Nakanishi K et al., Proceeding, Photo-tunable molecular recognizing smart material for gas sensing,
1376-1379, (2017)
Shuanghong W et al., Proceeding, An Odor Visualization Film Based on Multi Colors Fluorescent Microbeads and Single Color Fluorescent Multi Microbeads,
1-4, (2018)
Ying XG et al., Molecular imprinting technique in putrescine visualized detection.
Sensors and Actuators B: Chemical, 258, 870-880, (2018)
Ge LP et al., Proceeding, Flexible Gas Sensor Array Based on Matrix of Molecularly Imprinted Materials and Full Printing Process,
765-768, (2019)
Sassolas A
Sassolas A et al., Biosensors for Pesticide Detection: New Trends.American Journal of Analytical Chemistry, 3, (3), 210-232, (2012)
Sastre Torańo J
Shirangi M et al., Methyleneation of Peptides by N, N, N, N-Tetramethylethylenediamine (TEMED) under Conditions Used for Free Radical Polymerization: A Mechanistic Study.Bioconjugate Chemistry, 26, (1), 90-100, (2015)
Satarifard V
Mashinchian O et al., Cell-Imprinted Substrates Act as an Artificial Niche for Skin Regeneration.ACS Applied Materials & Interfaces, 6, (15), 13280-13292, (2014)
Satiroglu N
Saatçilar Ö et al., Binding behavior of Fe3+ ions on ion-imprinted polymeric beads for analytical applications.Journal of Applied Polymer Science, 101, (5), 3520-3528, (2006)
Satiwardi AA
Akbar M et al., Extraction of Alkaloid from Plants by Molecular Imprinting Technique.Food Science, 29, (5), 109-111, (2008)
Sato K
Kumazawa T et al., New and unique methods of solid-phase extraction for use before instrumental analysis of xenobiotics in human specimens.Forensic Toxicology, 28, (2), 61-68, (2010)
Kumazawa T et al., Molecularly imprinted solid-phase extraction for the selective determination of methamphetamine, amphetamine, and methylenedioxyphenylalkylamine designer drugs in human whole blood by gas chromatography-mass spectrometry.
Journal of Separation Science, 35, (5-6), 726-733, (2012)
Yoshimi Y et al., Application of the 'gate effect' of a molecularly imprinted polymer grafted on an electrode for the real-time sensing of heparin in blood.
Analyst, 138, (17), 5121-5128, (2013)
Sato K et al., Pyridoxine-selective Fluorescence Quenching by Graphite Oxide-containing Molecularly Imprinted Polymers.
Bunseki Kagaku, 63, (4), 311-315, (2014)
Sato M
Maebayashi H et al., Proceeding, Synthesis of 4-Hydroxy-2-pyrone Derivatives and Application to Ion Imprinting Polymers,(2009)
Satoh K
Wan D et al., Triple Hydrogen Bonding for Stereospecific Radical Polymerization of a DAD Monomer and Simultaneous Control of Tacticity and Molecular Weight.Macromolecules, 39, (20), 6882-6886, (2006)
Satoh Y
Nakano T et al., Synthesis and chiral recognition ability of a cross-linked polymer gel prepared by a molecular imprint method using chiral helical polymers as templates.Macromolecules, 34, (8), 2405-2407, (2001)
Satonaka T
Satonaka T et al., Proceeding, Synthesis of polymer gel by molecular imprinting using helical polymethacrylate as template and its chiral recognition ability,1708, (2002)
Satonaka T et al., Proceeding, Synthesis of polymer gel by molecular imprinting method using helical polymethacrylate as template,
1508, (2002)
Habaue S et al., Synthesis of polymer gel with chiral helical cavity by molecular imprinting using bifunctional vinyl monomers.
Polymer, 45, (15), 5095-5100, (2004)
Sattayasamitsathit S
Orozco J et al., Molecularly Imprinted Polymer-Based Catalytic Micromotors for Selective Protein Transport.Journal of the American Chemical Society, 135, (14), 5336-5339, (2013)
Saturnino C
Parisi OI et al., Magnetic molecularly imprinted polymers (MMIPs) for carbazole derivative release in targeted cancer therapy.Journal of Materials Chemistry B, 2, (38), 6619-6625, (2014)
Satyanarayana GNV
Khan S et al., Selective solid-phase extraction using molecularly imprinted polymer as a sorbent for the analysis of fenarimol in food samples.Food Chemistry, 199, 870-875, (2016)
Satínsky D
Lhotská I et al., Critical comparison of the on-line and off-line molecularly imprinted solid-phase extraction of patulin coupled with liquid chromatography.Journal of Separation Science, 40, (23), 4599-4609, (2017)
Machynáková A et al., On-line coupling of molecularly imprinted solid phase extraction with liquid chromatography for the fast determination of coumarins from complex samples.
Journal of Pharmaceutical and Biomedical Analysis, 145, 144-150, (2017)
Lhotská I et al., Molecularly imprinted vs. reversed-phase extraction for the determination of zearalenone: a method development and critical comparison of sample clean-up efficiency achieved in an on-line coupled SPE chromatography system.
Analytical and Bioanalytical Chemistry, 410, (14), 3265-3273, (2018)
Lhotská I et al., Preparation of citrinin-selective molecularly imprinted polymer and its use for on-line solid-phase extraction coupled to liquid chromatography.
Analytical and Bioanalytical Chemistry, 411, (11), 2395-2404, (2019)
Kholová A et al., Comparison study of nanofibers, composite nano/microfiber materials, molecularly imprinted polymers, and core-shell sorbents used for on-line extraction-liquid chromatography of ochratoxins in Tokaj wines.
Microchemical Journal, 170, Article106680-(2021)
Sauerwald T
SchützeA. et al., Proceeding, A novel low-cost pre-concentrator concept to boost sensitivity and selectivity of gas sensor systems,1-4, (2015)
Saumell-Esnaola M
Gómez-Caballero A et al., Solid-phase synthesis of imprinted nanoparticles as artificial antibodies against the C-terminus of the cannabinoid CB1 receptor: exploring a viable alternative for bioanalysis.Microchimica Acta, 188, (11), Article368-(2021)
Saumya V
Saumya V et al., In situ copper oxide modified molecularly imprinted polypyrrole film based voltammetric sensor for selective recognition of tyrosine.Talanta, 85, (2), 1056-1062, (2011)
Saumya V et al., Mechanistic aspects of tyrosine sensing on an in situ copper oxide modified molecularly imprinted polypyrrole coated glassy carbon electrode.
Journal of Electroanalytical Chemistry, 663, (2), 53-58, (2011)
Saunders GD
Saunders GD et al., A selective uranium extraction agent prepared by polymer imprinting.Chemical Communications, (4), 273-274, (2000)
Sauvage JP
Bidan G et al., Electroactive films of polypyrroles containing complexing cavities preformed by entwining ligands on metallic centres.Journal of the American Chemical Society, 114, (15), 5986-5994, (1992)
Savane R
Chapuis-Hugon F et al., Selective sample pretreatment by molecularly imprinted polymer for the determination of LSD in biological fluids.Journal of Separation Science, 32, (19), 3301-3309, (2009)
Savchenko P
Zelikovich D et al., Shell-Matrix Interaction in Nanoparticle-Imprinted Matrices: Implications for Selective Nanoparticle Detection and Separation.ACS Applied Nano Materials, 4, (10), 10819-10827, (2021)
Savel'eva TF
Belokon YN et al., Mechanical stabilization of molecular-conformation by entrapping in a polymer matrix.Makromolekulare Chemie-Macromolecular Chemistry And Physics, 181, (1), 89-104, (1980)
Belokon YN et al., Biomimetic approach to the design of a pyridoxal enzyme model 1. Hydrophilic polyacrylamide gel with stereochemically defined arrangements of salicaldehyde and lysine fragments.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 181, (10), 2183-2197, (1980)
Saveleva TF
Belokon YN et al., Biomimetic approach to the design of a pyridoxal enzyme model .2. Cyclo-copolymerization as a new method of constructing polymers with defined arrangement of functional-groups in the chain.Makromolekulare Chemie-Macromolecular Chemistry And Physics, 183, (8), 1921-1934, (1982)
Belokon YN et al., Memory of a polymeric matrix, stabilizing the initial conformation of potassium bis[N-(5-methacryloylamino)-salicylidene-(S)-norvalinato]-cobaltate(III) in the deuterium-exchange.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 184, (11), 2213-2223, (1983)
Savina IN
Gun’ko VM et al., Cryogels: Morphological, structural and adsorption characterisation.Advances in Colloid and Interface Science, 187-188, 1-46, (2013)
Savoy MC
Savoy MC et al., Determination of 14 aminoglycosides by LC-MS/MS using molecularly imprinted polymer solid phase extraction for clean-up.Food Additives & Contaminants: Part A, 35, (4), 674-685, (2018)
Saw MH
Yeoh CB et al., Study Toward the Preparation of Aqueous Compatible Shikimic Acid Imprinted Polymer.Journal of Oil Palm Research, 27, (1), 90-96, (2015)
Sawaguchi K
Muratsugu S et al., Chemoselective epoxidation of cholesterol derivatives on a surface-designed molecularly imprinted Ru-porphyrin catalyst.Chemical Communications, 54, (40), 5114-5117, (2018)
Sawakuma K
Ohkubo K et al., Shape- and stereo-selective esterase activities of cross-linked polymers imprinted with a transition-state analogue for the hydrolysis of amino acid esters.Journal of Molecular Catalysis A: Chemical, 165, (1-2), 1-7, (2001)
Ohkubo K et al., Influence of cross-linking monomer and hydrophobic styrene comonomer on stereoselective esterase activities of polymer catalyst imprinted with a transition-state analogue for hydrolysis of amino acid esters.
Polymer, 42, (5), 2263-2266, (2001)
Sawamoto M
Terashima T et al., Core-imprinted Star Polymers via Living Radical Polymerization: Precision Cavity Microgels for Selective Molecular Recognition.Chemistry Letters, 43, (11), 1690-1692, (2014)
Sawan M
Hammoud A et al., A new molecular imprinted PEDOT glassy carbon electrode for carbamazepine detection.Biosensors and Bioelectronics, 180, Article113089-(2021)
Sawant KR
Sawant KR et al., Book chapter, Imprinting of the surface of mesoporous silicates using organic structure directing agents,In: Nanoporous Materials III, Sayari A, Jaroniec M (Eds.) Elsevier: Amsterdam, 53-60, (2002)
Sawetwong P
Sawetwong P et al., Enhanced selectivity and sensitivity for colorimetric determination of glyphosate using Mn-ZnS quantum dot embedded molecularly imprinted polymers combined with a 3D-microfluidic paper-based analytical device.Talanta, 225, Article122077-(2021)
Saxena PN
Mudiam MKR et al., Molecularly imprinted SPE combined with dispersive liquid-liquid microextraction for selective analysis of telmisartan in biological and formulation samples.Bioanalysis, 5, (7), 847-858, (2013)
Mudiam MKR et al., Molecularly imprinted polymer coupled with dispersive liquid-liquid microextraction and injector port silylation: A novel approach for the determination of 3-phenoxybenzoic acid in complex biological samples using gas chromatography-tandem mass spectrometry.
Journal of Chromatography B, 945-946, 23-30, (2014)
Chauhan A et al., Application of nano-sized multi-template imprinted polymer for simultaneous extraction of polycyclic aromatic hydrocarbon metabolites in urine samples followed by ultra-high performance liquid chromatographic analysis.
Journal of Chromatography B, 985, 110-118, (2015)
Chauhan A et al., Imprinted nanospheres based on precipitation polymerization for the simultaneous extraction of six urinary benzene metabolites from urine followed by injector port silylation and gas chromatography-tandem mass spectrometric analysis.
Journal of Chromatography B, 1001, 66-74, (2015)
Bhatia T et al., Sol-gel approach for extracting highly versatile aspirin and its metabolites using MISPE followed by GC-MS/MS analysis.
Bioanalysis, 8, (8), 795-805, (2016)
Khan S et al., Selective solid-phase extraction using molecularly imprinted polymer as a sorbent for the analysis of fenarimol in food samples.
Food Chemistry, 199, 870-875, (2016)
Say R
Say R et al., Preconcentration of copper on ion-selective imprinted polymer microbeads.Analytica Chimica Acta, 480, (2), 251-258, (2003)
Say R et al., Selective separation of uranium containing glutamic acid molecular-imprinted polymeric microbeads.
Separation Science and Technology, 38, (14), 3431-3447, (2003)
Andaç M et al., Molecular recognition based cadmium removal from human plasma.
Journal of Chromatography B, 811, (2), 119-126, (2004)
Ersöz A et al., Ni(II) ion-imprinted solid-phase extraction and preconcentration in aqueous solutions by packed-bed columns.
Analytica Chimica Acta, 502, (1), 91-97, (2004)
Ersöz A et al., Removal of phenolic compounds with nitrophenol-imprinted polymer based on p-p and hydrogen-bonding interactions.
Separation and Purification Technology, 38, (2), 173-179, (2004)
Say R et al., Selective separation and preconcentration of cyanide by a column packed with cyanide-imprinted polymeric microbeads.
Separation and Purification Technology, 40, (1), 9-14, (2004)
Say R et al., Comparison of adsorption and selectivity characteristics for 4-nitrophenol imprinted polymers prepared via bulk and suspension polymerization.
Separation Science and Technology, 39, (15), 3471-3484, (2004)
Asir S et al., Ion-selective imprinted superporous monolith for cadmium removal from human plasma.
Separation Science and Technology, 40, (15), 3167-3185, (2005)
Andaç M et al., Ion-selective imprinted beads for aluminum removal from aqueous solutions.
Industrial & Engineering Chemistry Research, 45, (5), 1780-1786, (2006)
Birlik E et al., Selective separation of thorium using ion imprinted chitosan-phthalate particles via solid phase extraction.
Separation Science and Technology, 41, (14), 3109-3121, (2006)
Özcan AA et al., L-Histidine Imprinted Synthetic Receptor for Biochromatography Applications.
Analytical Chemistry, 78, (20), 7253-7258, (2006)
Saatçilar Ö et al., Binding behavior of Fe3+ ions on ion-imprinted polymeric beads for analytical applications.
Journal of Applied Polymer Science, 101, (5), 3520-3528, (2006)
Say R, Creation of recognition sites for organophosphate esters based on charge transfer and ligand exchange imprinting methods.
Analytica Chimica Acta, 579, (1), 74-80, (2006)
Yavuz H et al., Molecular recognition based iron removal from human plasma with imprinted membranes.
International Journal of Artificial Organs, 29, (9), 900-911, (2006)
Andaç M et al., Ion-imprinted beads for molecular recognition based mercury removal from human serum.
International Journal of Biological Macromolecules, 40, (2), 159-166, (2007)
Baydemir G et al., Selective Removal of Bilirubin from Human Plasma with Bilirubin-Imprinted Particles.
Industrial & Engineering Chemistry Research, 46, (9), 2843-2852, (2007)
Birlik E et al., Cr(III)-imprinted polymeric beads: Sorption and preconcentration studies.
Journal of Hazardous Materials, 140, (1-2), 110-116, (2007)
Büyüktiryaki S et al., Mimicking receptor for methylmercury preconcentration based on ion-imprinting.
Talanta, 71, (2), 699-705, (2007)
Demirel M et al., Propranolol HCl Imprinted Polymeric Microspheres: Development, Characterization and Dissolution.
FABAD Journal of Pharmaceutical Sciences, 32, (4), 147-157, (2007)
Hur D et al., N-acylbenzotriazole mediated synthesis of some methacrylamido amino acids.
Letters In Organic Chemistry, 4, (8), 585-587, (2007)
Karabörk M et al., Preconcentration of Fe(III) Using Fe(III)-Ion Imprinted Polymeric Traps and Its Analytical Performance for FAAS.
Hacettepe Journal of Biology and Chemistry, 35, (2), 135-142, (2007)
Odabasi M et al., Molecular imprinted particles for lysozyme purification.
Materials Science and Engineering: C, 27, (1), 90-99, (2007)
Yavuz H et al., Synthesis of cholesterol imprinted polymeric particles.
International Journal of Biological Macromolecules, 41, (1), 8-15, (2007)
Bereli N et al., Protein recognition via ion-coordinated molecularly imprinted supermacroporous cryogels.
Journal of Chromatography A, 1190, (1-2), 18-26, (2008)
Karabörk M et al., Polymer-Clay Nanocomposite Iron Traps Based on Intersurface Ion-Imprinting.
Industrial & Engineering Chemistry Research, 47, (7), 2258-2264, (2008)
Özkara S et al., An Ion-Imprinted Monolith for in Vitro Removal of Iron out of Human Plasma with Beta Thalassemia.
Industrial & Engineering Chemistry Research, 47, (20), 7849-7856, (2008)
Utku S et al., Ion-Imprinted Thermosensitive Polymers for Fe3+ Removal from Human Plasma.
Hacettepe Journal of Biology and Chemistry, 36, (4), 291-304, (2008)
Baydemir G et al., Bilirubin recognition via molecularly imprinted supermacroporous cryogels.
Colloids and Surfaces B: Biointerfaces, 68, (1), 33-38, (2009)
Baydemir G et al., Supermacroporous poly(hydroxyethyl methacrylate) based cryogel with embedded bilirubin imprinted particles.
Reactive and Functional Polymers, 69, (1), 36-42, (2009)
Demircelik AH et al., Molecular Recognition-Based Detoxification of Aluminum in Human Plasma.
Journal of Biomaterials Science-Polymer Edition, 20, (9), 1235-1258, (2009)
Diltemiz SE et al., Designing of MIP based QCM sensor having thymine recognition sites based on biomimicking DNA approach.
Biosensors and Bioelectronics, 25, (3), 599-603, (2009)
Ersöz A et al., 8-OHdG sensing with MIP based solid phase extraction and QCM technique.
Sensors and Actuators B: Chemical, 137, (1), 7-11, (2009)
Uzun L et al., Hepatitis B surface antibody purification with hepatitis B surface antibody imprinted poly(hydroxyethyl methacrylate-N-methacryloyl-l-tyrosine methyl ester) particles.
Journal of Chromatography B, 877, (3), 181-188, (2009)
Demiralay EÇ et al., Nickel(II)-imprinted monolithic columns for selective nickel recognition.
Journal of Applied Polymer Science, 117, (6), 3704-3714, (2010)
Karabörk M et al., Selective Preconcentration of Fe3+ Using Ion-Imprinted Thermosensitive Particles.
Hacettepe Journal of Biology and Chemistry, 38, (1), 27-39, (2010)
Özkütük EB et al., Thiocyanate separation by imprinted polymeric systems.
Microchimica Acta, 169, (1), 129-135, (2010)
Keçili R et al., Superparamagnetic nanotraps containing MIP based mimic lipase for biotransformations uses.
Journal of Nanoparticle Research, 13, (5), 2073-2079, (2011)
Özkara S et al., Ion-imprinted PHEMA based monolith for the removal of Fe3+ ions from aqueous solutions.
Journal of Applied Polymer Science, 120, (3), 1829-1836, (2011)
Asliyuce S et al., Molecular imprinting based composite cryogel membranes for purification of anti-hepatitis B surface antibody by fast protein liquid chromatography.
Journal of Chromatography B, 889-890, (1), 95-102, (2012)
Aydogan C et al., Molecularly imprinted cryogel for L-glutamic acid separation.
Biotechnology Progress, 28, (2), 459-466, (2012)
Gültekin A et al., Gold-silver-nanoclusters having cholic acid imprinted nanoshell.
Talanta, 93, (1), 364-370, (2012)
Gültekin A et al., Preparation of new molecularly imprinted nanosensor for cholic acid determination.
Sensors and Actuators B: Chemical, 162, (1), 153-158, (2012)
Kecili R et al., Investigation of synthetic lipase and its use in transesterification reactions.
Polymer, 53, (10), 1981-1984, (2012)
Asliyuce S et al., Immunoglobulin G recognition with Fab fragments imprinted monolithic cryogels: Evaluation of the effects of metal-ion assisted-coordination of template molecule.
Reactive and Functional Polymers, 73, (6), 813-820, (2013)
Bereli N et al., Oriented immobilized anti-hIgG via Fc fragment-imprinted PHEMA cryogel for IgG purification.
Biomedical Chromatography, 27, (5), 599-607, (2013)
Diltemiz SE et al., New synthesis method for 4-MAPBA monomer and using for the recognition of IgM and mannose with MIP-based QCM sensors.
Analyst, 138, (5), 1558-1563, (2013)
Ertürk G et al., Molecularly imprinted cryogels for human interferon-alpha purification from human gingival fibroblast culture.
Journal of Molecular Recognition, 26, (12), 633-642, (2013)
Özgür E et al., A new molecular imprinting-based mass-sensitive sensor for real-time detection of 17[beta]-estradiol from aqueous solution.
Environmental Progress & Sustainable Energy, 32, (4), 1164-1169, (2013)
Özkütük EB et al., Ligand exchange based paraoxon imprinted QCM sensor.
Materials Science and Engineering: C, 33, (2), 938-942, (2013)
Özkütük EB et al., Silan based paraoxon memories onto QCM electrodes.
Journal of Industrial and Engineering Chemistry, 19, (6), 1788-1792, (2013)
Sener G et al., Microcontact imprinted surface plasmon resonance biosensor for rapid procalcitonin detection.
Abstracts of Papers of the American Chemical Society, 246, (ANYL), 68-(2013)
Sener G et al., Rapid real-time detection of procalcitonin using a microcontact imprinted surface plasmon resonance biosensor.
Analyst, 138, (21), 6422-6428, (2013)
Uzun L et al., Chiral recognition of proteins having L-histidine residues on the surface with lanthanide ion complex incorporated-molecularly imprinted fluorescent nanoparticles.
Materials Science and Engineering: C, 33, (6), 3432-3439, (2013)
Ünlüer Ö et al., Separation and purification of hyaluronic acid by embedded glucuronic acid imprinted polymers into cryogel.
Journal of Chromatography B, 934, 46-52, (2013)
Bektasoglu E et al., Development of New Molecular Imprinted Solid Phase Extraction Material for Dimethoate.
Spectroscopy Letters, 47, (3), 168-176, (2014)
Çorman ME et al., Self-oriented nanoparticles for site-selective immunoglobulin G recognition via epitope imprinting approach.
Colloids and Surfaces B: Biointerfaces, 123, 831-837, (2014)
Gültekin A et al., Development of a highly sensitive MIP based-QCM nanosensor for selective determination of cholic acid level in body fluids.
Materials Science and Engineering: C, 42, 436-442, (2014)
Gültekin A et al., Preparation of MIP-based QCM nanosensor for detection of caffeic acid.
Talanta, 119, 533-537, (2014)
Bektasoglu E et al., Double-imprinted potentiometric sensors based on ligand exchange for the determination of dimethoate.
Korean Journal of Chemical Engineering, 32, (8), 1613-1617, (2015)
Dolak I et al., Ion-Imprinted Polymers for Selective Recognition of Neodymium(III) in Environmental Samples.
Industrial & Engineering Chemistry Research, 54, (19), 5328-5335, (2015)
Cankara S et al., Biopolymer based ion imprinting cryogel traps for the removal of Tl(I).
Separation Science and Technology, 51, (6), 901-908, (2016)
Çorman ME et al., Reversible and easy post-crosslinking method for developing a surface ion-imprinted hypercrosslinked monolith for specific Cd(II) ion removal from aqueous solutions.
RSC Advances, 6, (91), 88777-88787, (2016)
Erol K et al., Polyethyleneimine assisted-two-step polymerization to develop surface imprinted cryogels for lysozyme purification.
Colloids and Surfaces B: Biointerfaces, 146, 567-576, (2016)
Özkütük EB et al., Determination of Clenbuterol by Multiwalled Carbon Nanotube Potentiometric Sensors.
Analytical Letters, 49, (6), 778-789, (2016)
Özkütük EB et al., Potentiometric sensor fabrication having 2D sarcosine memories and analytical features.
Materials Science and Engineering: C, 69, 231-235, (2016)
Say R et al., Book chapter, Biomimetic Imprinted Polymers: Theory, Design Methods, and Catalytic Applications,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 6, 103-120, (2016)
Bayram E et al., Multiclonal plastic antibodies for selective aflatoxin extraction from food samples.
Food Chemistry, 221, 829-837, (2017)
Birlik Özkütük E et al., Synergistic thallium and iodine memory-based cryogel traps for removing thallium and iodine ions.
Journal of Radioanalytical and Nuclear Chemistry, 314, (3), 2229-2236, (2017)
Büyüktiryaki S et al., Phosphoserine imprinted nanosensor for detection of Cancer Antigen 125.
Talanta, 167, 172-180, (2017)
Diltemiz SE et al., Molecular Imprinting Technology in Quartz Crystal Microbalance (QCM) Sensors.
Sensors, 17, (3), ArticleNo454-(2017)
Dolak I et al., Molecularly imprinted affinity cryogels for the selective recognition of myoglobin in blood serum.
Journal of Molecular Structure, 1174, 171-176, (2018)
Gültekin A et al., Gadolinium chelate monomer based memories onto QCM electrodes for folic acid detection in commercial follow-on baby milk.
Journal of Food Measurement and Characterization, 12, (4), 2892-2898, (2018)
Keçili R et al., Ion imprinted cryogel-based supermacroporous traps for selective separation of cerium(III) in real samples.
Journal of Rare Earths, 36, (8), 857-862, (2018)
Sümbelli Y et al., Molecularly imprinted polymer embedded-cryogels as selective genotoxic impurity scavengers.
Separation Science and Technology, 56, (18), 3066-3078, (2021)
Say RI
Büyüktiryaki S et al., Selective preconcentration of thorium in the presence of UO22+, Ce3+ and La3+ using Th(IV)-imprinted polymer.Talanta, 67, (3), 640-645, (2005)
Ersöz A et al., Molecularly imprinted ligand-exchange recognition assay of glucose by quartz crystal microbalance.
Biosensors and Bioelectronics, 20, (11), 2197-2202, (2005)
Say RI et al., Biomimetic catalysis of an organophosphate by molecularly surface imprinted polymers.
Applied Catalysis A: General, 286, (2), 221-225, (2005)
Yavuz H et al., Iron removal from human plasma based on molecular recognition using imprinted beads.
Materials Science and Engineering: C, 25, (4), 521-528, (2005)
Birlik E et al., Preconcentration of copper using double-imprinted polymer via solid phase extraction.
Analytica Chimica Acta, 565, (2), 145-151, (2006)
Diltemiz SE et al., Quantum dot nanocrystals having guanosine imprinted nanoshell for DNA recognition.
Talanta, 75, (4), 890-896, (2008)
Diltemiz SE et al., Molecularly imprinted ligand-exchange recognition assay of DNA by SPR system using guanosine and guanine recognition sites of DNA.
Sensors and Actuators B: Chemical, 133, (2), 484-488, (2008)
Ersöz A et al., Synergie between molecular imprinted polymer based on solid-phase extraction and quartz crystal microbalance technique for 8-OHdG sensing.
Biosensors and Bioelectronics, 24, (4), 742-747, (2008)
Özkütük EB et al., Preconcentration of phosphate ion onto ion-imprinted polymer.
Journal of Hazardous Materials, 157, (1), 130-136, (2008)
Akdamar HA et al., Separation and purification of hyaluronic acid by glucuronic acid imprinted microbeads.
Materials Science and Engineering: C, 29, (4), 1404-1408, (2009)
Candan N et al., Cadmium removal out of human plasma using ion-imprinted beads in a magnetic column.
Materials Science and Engineering: C, 29, (1), 144-152, (2009)
Esen C et al., Highly selective ion-imprinted particles for solid-phase extraction of Pb2+ ions.
Materials Science and Engineering: C, 29, (8), 2464-2470, (2009)
Gültekin A et al., Gold nanoparticles having dipicolinic acid imprinted nanoshell for Bacillus cereus spores recognition.
Applied Surface Science, 256, (1), 142-148, (2009)
Gültekin A et al., Gold-silver nanoclusters having dipicolinic acid imprinted nanoshell for Bacillus cereus spores recognition.
Talanta, 78, (4-5), 1332-1338, (2009)
Say RI et al., Preparation of new molecularly imprinted quartz crystal microbalance hybride sensor system for 8-hydroxy-2'-deoxyguanosine determination.
Analytica Chimica Acta, 640, (1-2), 82-86, (2009)
Uzun L et al., Production of surface plasmon resonance based assay kit for hepatitis diagnosis.
Biosensors and Bioelectronics, 24, (9), 2878-2884, (2009)
Asliyüce S et al., Ion-imprinted supermacroporous cryogel, for in vitro removal of iron out of human plasma with beta thalassemia.
Separation and Purification Technology, 73, (2), 243-249, (2010)
Derazshamshir A et al., Molecularly Imprinted PHEMA-Based Cryogel for Depletion of Hemoglobin from Human Blood.
Macromolecular Chemistry And Physics, 211, (6), 657-668, (2010)
Erdem M et al., Imprinted polymer/organo-smectite nanocomposites for paraoxon hydrolysis.
Applied Clay Science, 47, (3-4), 223-228, (2010)
Erdem M et al., Biomimicking, metal-chelating and surface-imprinted polymers for the degradation of pesticides.
Reactive and Functional Polymers, 70, (4), 238-243, (2010)
Gültekin A et al., Nanosensors having dipicolinic acid imprinted nanoshell for Bacillus cereus spores detection.
Journal of Nanoparticle Research, 12, (6), 2069-2079, (2010)
Sener G et al., Quartz crystal microbalance based nanosensor for lysozyme detection with lysozyme imprinted nanoparticles.
Biosensors and Bioelectronics, 26, (2), 815-821, (2010)
Bereli N et al., l-Histidine imprinted supermacroporous cryogels for protein recognition.
Separation and Purification Technology, 82, (1), 28-35, (2011)
Ertürk G et al., Fab fragments imprinted SPR biosensor for real-time human immunoglobulin G detection.
Biosensors and Bioelectronics, 28, (1), 97-104, (2011)
Sener G et al., Use of molecular imprinted nanoparticles as biorecognition element on surface plasmon resonance sensor.
Sensors and Actuators B: Chemical, 160, (1), 791-799, (2011)
Tamahkar E et al., Molecularly imprinted supermacroporous cryogels for cytochrome c recognition.
Journal of Separation Science, 34, (23), 3433-3440, (2011)
Özcan AA et al., Semi-synthetic biotin imprinting onto avidin crosslinked gold-silver nanoparticles.
Journal of Nanoparticle Research, 14, (6), Art No 945-(2012)
Saya D
Nicu L et al., Proceeding, Integrative technology-based approach of microelectromechanical systems (MEMS) for biosensing applications,4475-4478, (2012)
Sayar O
Sayar O et al., A novel magnetic ion imprinted polymer for selective adsorption of trace amounts of lead(II) ions in environment samples.Journal of Industrial and Engineering Chemistry, 20, (5), 2657-2662, (2014)
Sayekti Y
Shofiyani A et al., Cadmium adsorption on chitosan/chlorella biomass sorbent prepared by ionic-imprinting technique.Indonesian Journal of Chemistry, 15, (2), 163-171, (2015)
Saygin TB
Yaman YT et al., Molecularly imprinted label-free sensor platform for impedimetric detection of 3-monochloropropane-1, 2-diol.Sensors and Actuators B: Chemical, 328, Article128986-(2021)
Saylan Y
Bereli N et al., l-Histidine imprinted supermacroporous cryogels for protein recognition.Separation and Purification Technology, 82, (1), 28-35, (2011)
Saylan Y et al., Surface imprinting approach for preparing specific adsorbent for IgG separation.
Journal of Biomaterials Science-Polymer Edition, 25, (9), 881-894, (2014)
Dibekkaya H et al., Surface plasmon resonance sensors for real-time detection of cyclic citrullinated peptide antibodies.
Journal of Macromolecular Science, Part A, 53, (9), 585-594, (2016)
Saylan Y, Proceeding, Molecularly imprinted plasmonic biosensors for hemoglobin detection,
1-3, (2016)
Saylan Y et al., Molecular Imprinting of Macromolecules for Sensor Applications.
Sensors, 17, (4), ArticleNo898-(2017)
Saylan Y et al., Recognition of lysozyme using surface imprinted bacterial cellulose nanofibers.
Journal of Biomaterials Science-Polymer Edition, 28, (16), 1950-1965, (2017)
Saylan Y et al., Development of surface plasmon resonance sensors based on molecularly imprinted nanofilms for sensitive and selective detection of pesticides.
Sensors and Actuators B: Chemical, 241, 446-454, (2017)
Yilmaz F et al., Book chapter, Surface plasmon resonance based nanosensors for detection of triazinic pesticides in agricultural foods,
In: New Pesticides and Soil Sensors, Grumezescu AM (Ed.) Academic Press: Ch. 18, 679-718, (2017)
Erdem O et al., Molecularly Imprinted Polymers for Removal of Metal Ions: An Alternative Treatment Method.
Biomimetics, 3, (4), Article38-(2018)
Saylan Y et al., Molecular Fingerprints of Hemoglobin on a Nanofilm Chip.
Sensors, 18, (9), ArticleNo3016-(2018)
Erdem Ö et al., Molecularly imprinted nanoparticles based plasmonic sensors for real-time Enterococcus faecalis detection.
Biosensors and Bioelectronics, 126, 608-614, (2019)
Saylan Y et al., Molecularly Imprinted Polymer Based Sensors for Medical Applications.
Sensors, 19, (6), ArticleNo1279-(2019)
Saylan Y et al., Detecting Fingerprints of Waterborne Bacteria on a Sensor.
Chemosensors, 7, (3), ArticleNo33-(2019)
Yilmaz F et al., Book chapter, Molecularly Imprinted Sensors for Detecting Controlled Release of Pesticides,
In: Controlled Release of Pesticides for Sustainable Agriculture, Rakhimol KR, Thomas S, Volova T, Jayachandran K (Eds.) Springer International Publishing: Cham, 207-235, (2020)
Sayour H
Hassan S et al., Synthesis and Characterization of Molecularly Imprinted Nanoparticle Polymers for Selective Separation of Anthracene.Journal of Dispersion Science and Technology, 37, (9), 1241-1251, (2016)
Sayour HE
Hassan SSM et al., Quercetin Recovery from Onion Solid Waste via Solid-Phase Extraction Using Molecularly Imprinted Polymer Nanoparticles.International Journal of Food Engineering, 15, (1-2), Article20170024-(2019)
Sayour HEM
Kamel AH et al., Flow-Through Assay of Quinine Using Solid Contact Potentiometric Sensors Based on Molecularly Imprinted Polymers.Electroanalysis, 21, (24), 2701-2708, (2009)
Sayour HEM et al., Proceeding, Novel biomimetic sensor based on a molecularly imprinted polymer for rapid imidocarb determination,
404-419, (2012)
Sayyar Ardaki M
Arvand M et al., Rapid electrochemical synthesis of molecularly imprinted polymers on functionalized multi-walled carbon nanotubes for selective recognition of sunset yellow in food samples.Sensors and Actuators B: Chemical, 243, 927-939, (2017)
Sazgarnia A
Bakhshizadeh M et al., TiO2-based mitoxantrone imprinted poly (methacrylic acid-co-polycaprolctone diacrylate) nanoparticles as a drug delivery system.Current Pharmaceutical Design, 23, (18), 2685-2694, (2017)
Bakhshizadeh M et al., Utilizing photosensitizing and radiosensitizing properties of TiO2-based mitoxantrone imprinted nanopolymer in fibrosarcoma and melanoma cells.
Photodiagnosis and Photodynamic Therapy, 25, 472-479, (2019)
Sazhnikov VA
Koshkin AV et al., Naphthalene vapor sorption by polymer nanoparticles with molecularly imprinted shells (Original Russian Text Š A.V. Koshkin, V.A. Sazhnikov, A.Yu. Men'shikova, G.A. Pankova, T.G. Evseeva, M.V. Alfimov, 2012, published in Rossiiskie Nanotekhnologii, 2012, Vol. 7, Nos. 12.).Nanotechnologies in Russia, 7, (1), 15-21, (2012)
Men’shikova AYu et al., Crosslinked monodisperse particles containing luminophore groups in shells for molecular recognition of lower alcohols (Original Russian Text Š A.Yu. Men'shikova, N.N. Shevchenko, T.G. Evseeva, A.V. Koshkin, G.A. Pankova, B.M. Shabsel's, V.V. Faraonova, M.Ya. Goikhman, A.V. Yakimanskii, V.A. Sazhnikov, M.V. Alfimov, 2012, published in Russian in Vysokomolekulyarnye Soedineniya, Ser. B, 2012, Vol. 54, No. 1, pp. 93 - 101.).
Polymer Science Series B, 54, (1), 21-29, (2012)
Scalabrini A
Speltini A et al., Newest applications of molecularly imprinted polymers for extraction of contaminants from environmental and food matrices: A review.Analytica Chimica Acta, 974, 1-26, (2017)
Scalisi EM
Fiorenza R et al., Preferential removal of pesticides from water by molecular imprinting on TiO2 photocatalysts.Chemical Engineering Journal, 379, Article122309-(2020)
Scaman C
Riazi A et al., Fabrication and Characterization of Molecularly Imprinted Microspheres as Highly Effective Sorbent for Fast and Selective Solid Phase Extraction of Nicotinamide in Beef and Wheat Flour Samples.Journal of Food Science and Technology (Iran), 18, (120), 317-334, (2021)
Scaman CH
Ioan B et al., Optimization and characterization of molecularly imprinted polymers used for nicotinamide analysis.Abstracts of Papers of the American Chemical Society, 245, (AGFD), 5-(2013)
Scarano S
Palladino P et al., Cardiac Troponin T capture and detection in real-time via epitope-imprinted polymer and optical biosensing.Biosensors and Bioelectronics, 106, 93-98, (2018)
Palladino P et al., Polydopamine: surface coating, molecular imprinting, and electrochemistry - successful applications and future perspectives in (bio)analysis.
Analytical and Bioanalytical Chemistry, 411, (19), 4327-4338, (2019)
Palladino P et al., Corrigendum to "Cardiac Troponin T capture and detection in real-time via epitope-imprinted polymer and optical biosensing" [Biosensors and Bioelectronics 106 (2018) 93-98].
Biosensors and Bioelectronics, 130, 427-427, (2019)
Baldoneschi V et al., Norepinephrine as new functional monomer for molecular imprinting: An applicative study for the optical sensing of cardiac biomarkers.
Biosensors and Bioelectronics, 157, Article112161-(2020)
Scardino A
Longo L et al., Synthesis of a new substituted zinc phthalocyanine as functional monomer in the preparation of MIPs.Journal of Porphyrins and Phthalocyanines, 10, (8), 1061-1065, (2006)
del Sole R et al., Molecularly imprinted polymer for solid phase extraction of nicotinamide in pork liver samples.
Journal of Applied Polymer Science, 120, (3), 1634-1641, (2011)
Vasapollo G et al., Molecularly Imprinted Polymers: Present and Future Prospective.
International Journal of Molecular Sciences, 12, (9), 5908-5945, (2011)
del Sole R et al., A molecularly imprinted polymer for the determination of neopterin.
Microchimica Acta, 180, (15-16), 1401-1409, (2013)
Scarneciu I
Patachia S et al., Selectivity studies of caffeine molecularly imprinted poly (vinyl alcohol) hydrogels.Environmental Engineering and Management Journal, 10, (2), 175-179, (2011)
Scarrow R
Padden KM et al., Characterization and applications of a nitric oxide sensitive Co(II) imprinted polymer.Abstracts of Papers of the American Chemical Society, 220, (INOR), 151-151, (2000)
Scatchard G
Scatchard G, The attraction of proteins for small molecules and ions.Annals of the New York Academy of Sciences, 51, 660-672, (1949)
Scavetta E
Tonelli D et al., A novel potentiometric sensor for l-ascorbic acid based on molecularly imprinted polypyrrole.Electrochimica Acta, 56, (20), 7149-7154, (2011)
Schaare P
Petcu M et al., Molecular imprinting of a small substituted phenol of biological importance.Analytica Chimica Acta, 435, (1), 49-55, (2001)
Schaare PN
Petcu M et al., Propofol-imprinted membranes with potential applications in biosensors.Analytica Chimica Acta, 504, (1), 73-79, (2004)
Schacht E
De Smet D et al., Molecularly imprinted solid-phase extraction of fumonisin B analogues in bell pepper, rice and corn flakes.Food Additives & Contaminants: Part A: Chemistry, Analysis, Control, Exposure & Risk Assessment, 26, (6), 874-884, (2009)
De Smet D et al., Synthesis and application of a T-2 toxin imprinted polymer.
Journal of Chromatography A, 1217, (17), 2879-2886, (2010)
De Smet D et al., Design of an imprinted clean-up method for mycophenolic acid in maize.
Journal of Chromatography A, 1218, (8), 1122-1130, (2011)
Schad D
Peng L et al., Molecularly Imprinted Electropolymer for a Hexameric Heme Protein with Direct Electron Transfer and Peroxide Electrocatalysis.Sensors, 16, (3), ArticleNo272-(2016)
Scharnweber T
Knopp D et al., Comparison of molecularly imprinted polymers (MIPs) and sol-gel based immunoaffinity supports for the extraction of sulfonylurea herbicides from aqueous samples.Abstracts of Papers of the American Chemical Society, 221, (AGRO), 61-61, (2001)
Schauer N
Schauer N et al., Selective binding of matrix metalloproteases MMP-9 and MMP-12 to inhibitor-assisted thermolysin-imprinted beads.RSC Advances, 8, (57), 32387-32394, (2018)
Schauff S
Courtois J et al., Interactions of bupivacaine with a molecularly imprinted polymer in a monolithic format studied by NMR.Analytical Chemistry, 78, (2), 580-584, (2006)
Skogsberg U et al., A solid-state and suspended-state magic angle spinning nuclear magnetic resonance spectroscopic investigation of a 9-ethyladenine molecularly imprinted polymer.
Polymer, 48, (1), 229-238, (2007)
Schauhoff S
Wulff G et al., Chromatographische Racemat-Trennung an Adsorbentien mit chiralen Hohlräumen.GIT Labor-Fachzeitschrift, 35, 10-17, (1991)
Wulff G et al., Enzyme-analog-built polymers .27. Racemic-resolution of free sugars with macroporous polymers prepared by molecular imprinting - selectivity dependence on the arrangement of functional-groups versus requirements.
Journal of Organic Chemistry, 56, (1), 395-400, (1991)
Schauperl M
Schauperl M et al., Probing the Structural and Binding Mechanism Heterogeneity of Molecularly Imprinted Polymers.The Journal of Physical Chemistry B, 119, (2), 563-571, (2015)
Schauss A
Schauss A, Syntheses of molecularly imprinted polymers hydrogel and their molecular recognition study for flumequine.Abstracts of Papers of the American Chemical Society, 236, (AGFD), 192-(2008)
Schedl M
Knopp D et al., Comparison of molecularly imprinted polymers (MIPs) and sol-gel based immunoaffinity supports for the extraction of sulfonylurea herbicides from aqueous samples.Abstracts of Papers of the American Chemical Society, 221, (AGRO), 61-61, (2001)
Schedler U
Piletsky SA et al., Surface functionalization of porous polypropylene membranes with molecularly imprinted polymers by photograft copolymerization in water.Macromolecules, 33, (8), 3092-3098, (2000)
Sergeyeva TA et al., Molecularly imprinted polymer membranes for substance-selective solid-phase extraction from water by surface photo-grafting polymerization.
Journal of Chromatography A, 907, (1-2), 89-99, (2001)
Sergeyeva TA et al., Development of molecularly imprinted polymer membranes with specificity to triazine herbicides, prepared by the "surface photografting" technique.
Biopolymers and Cell, 20, (4), 307-315, (2004)
Scheel GL
dos Santos Moretti E et al., Synthesis of Surface Molecularly Imprinted Poly(methacrylic acid-hemin) on Carbon Nanotubes for the Voltammetric Simultaneous Determination of Antioxidants from Lipid Matrices and Biodiesel.Electrochimica Acta, 212, 322-332, (2016)
de Oliveira LLG et al., Synthesis and application of restricted access material-ion imprinted poly(allylthiourea) for selective separation of Cd2+ and humic acid exclusion.
Reactive and Functional Polymers, 134, 93-103, (2019)
Schellenburger W
Kriegel T et al., Yeast phosphofructokinase - characterization of a substrate-imprinted enzyme conformation.Biological Chemistry Hoppe-Seyler, 372, (9), 698-698, (1991)
Kriegel T et al., Yeast phosphofructokinase - kinetic characterization of a substrate-imprinted enzyme conformation.
Biomedica Biochimica Acta, 50, (12), 1159-1165, (1991)
Scheller F
Rajkumar R et al., Synthesis and thermometric application of a molecularly imprinted polymer for fructosyl valine.Tissue Engineering, 13, (4), 889-890, (2007)
Yarman A et al., The First Electrochemical MIP Sensor for Tamoxifen.
Sensors, 14, (5), 7647-7654, (2014)
Dechtrirat D et al., Book chapter, Catalytically Active MIP Architectures,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 2, 19-34, (2016)
Menger M et al., MIPs and Aptamers for Recognition of Proteins in Biomimetic Sensing.
Biosensors, 6, (3), ArticleNo35-(2016)
Scheller FW
Scheller FW et al., Book chapter, New recognition elements in biosensing,In: Enzyme Engineering XIV, Laskin AI, Li GX, Yu YT (Eds.) New York Academy of Sciences: New York, 37-45, (1998)
Scheller FW et al., Research and development in biosensors.
Current Opinion in Biotechnology, 12, (1), 35-40, (2001)
Lettau K et al., An esterolytic imprinted polymer prepared via a silica-supported transition state analogue.
Chemistry of Materials, 16, 2745-2749, (2004)
Lettau K et al., A Bifunctional Molecularly Imprinted Polymer (MIP): Analysis of Binding and Catalysis by a Thermistor.
Angewandte Chemie International Edition, 45, (42), 6986-6990, (2006)
Rajkumar R et al., Development of fructosyl valine binding polymers by covalent imprinting.
Biosensors and Bioelectronics, 22, (12), 3318-3325, (2007)
Lettau K et al., Sequential conversion by catalytically active MIP and immobilized tyrosinase in a thermistor.
Biosensors and Bioelectronics, 23, (7), 1216-1219, (2008)
Rajkumar R et al., Thermometric MIP sensor for fructosyl valine.
Biosensors and Bioelectronics, 23, (7), 1195-1199, (2008)
Rajkumar R et al., Label-free analyte detection using molecular imprints.
Abstracts of Papers of the American Chemical Society, 235, (ANYL), 16-(2008)
Rajkumar R et al., Analysis of recognition of fructose by imprinted polymers.
Talanta, 76, (5), 1119-1123, (2008)
Athikomrattanakul U et al., Development of molecularly imprinted polymers for the binding of nitrofurantoin.
Biosensors and Bioelectronics, 25, (1), 82-87, (2009)
Athikomrattanakul U et al., Thermometric Sensing of Nitrofurantoin by Noncovalently Imprinted Polymers Containing Two Complementary Functional Monomers.
Analytical Chemistry, 83, (20), 7704-7711, (2011)
Athikomrattanakul U et al., Preparation and characterization of novel molecularly imprinted polymers based on thiourea receptors for nitrocompounds recognition.
Talanta, 84, (2), 274-279, (2011)
Schumacher S et al., Molecular imprinting of fructose using a polymerizable benzoboroxole: Effective complexation at pH 7.4.
Polymer, 52, (12), 2485-2491, (2011)
Dechtrirat D et al., Protein Rebinding to a Surface-Confined Imprint.
Advanced Functional Materials, 22, (24), 5231-5237, (2012)
Bosserdt M et al., Modulation of direct electron transfer of cytochrome c by use of a molecularly imprinted thin film.
Analytical and Bioanalytical Chemistry, 405, (20), 6437-6444, (2013)
Gajovic-Eichelmann N et al., Book chapter, Molecular Imprinting Technique for Biosensing and Diagnostics,
In: Applications of Nanomaterials in Sensors and Diagnostics, Tuantranont A (Ed.) Springer: Berlin Heidelberg, 143-170, (2013)
Rajkumar R et al., Book chapter, MIP Thermistor,
In: Handbook of Molecular Imprinting - Advanced Sensor Applications, Lee SW, Kunitake T (Eds.) Pan Stanford Publishing Pte. Ltd.: Singapore, Ch. 5, 181-216, (2013)
Yarman A et al., Coupling Biocatalysis with Molecular Imprinting in a Biomimetic Sensor.
Angewandte Chemie International Edition, 52, (44), 11521-11525, (2013)
Yarman A et al., Sensors based on cytochrome P450 and CYP mimicking systems.
Electrochimica Acta, 110, 63-72, (2013)
Dechtrirat D et al., Hybrid Material for Protein Sensing Based on Electrosynthesized MIP on a Mannose Terminated Self-Assembled Monolayer.
Advanced Functional Materials, 24, (15), 2233-2239, (2014)
Scheller FW et al., Book chapter, Future of Biosensors: A Personal View,
In: Biosensors Based on Aptamers and Enzymes, Gu MB, Kim HS (Eds.) Springer: Berlin, Heidelberg, 1-28, (2014)
Yarman A et al., Book chapter, Electropolymers for (nano-)imprinted biomimetic biosensors,
In: Nanosensors for Chemical and Biological Applications: Sensing with Nanotubes, Nanowires and Nanoparticles, Honeychurch KC (Ed.) Woodhead Publishing: Amsterdam, Ch. 6, 125-149, (2014)
Bosserdt M et al., Microelectrospotting as a new method for electrosynthesis of surface-imprinted polymer microarrays for protein recognition.
Biosensors and Bioelectronics, 73, 123-129, (2015)
Jetzschmann KJ et al., Vectorially Imprinted Hybrid Nanofilm for Acetylcholinesterase Recognition.
Advanced Functional Materials, 25, (32), 5178-5183, (2015)
Scheller FW et al., Bio vs. Mimetics in Bioanalysis: An Editorial.
Biochemistry & Analytical Biochemistry, 4, (2), e154-(2015)
Scheller FW et al., Book chapter, Electrochemical Approaches for Molecular Surface Imprinting of Polymers Toward Fully Synthetic Receptors for Selective Recognition of Proteins,
In: Design of Polymeric Platforms for Selective Biorecognition, Rodríguez-Hernández J, Cortajarena AL (Eds.) Springer: Ch. 13, 347-356, (2015)
Yarman A et al., Cytochrome c-Derived Hybrid Systems Based on Moleculary Imprinted Polymers.
Electroanalysis, 27, (3), 573-586, (2015)
Erdőssy J et al., Electrosynthesized molecularly imprinted polymers for protein recognition.
TrAC Trends in Analytical Chemistry, 79, 179-190, (2016)
Peng L et al., Molecularly Imprinted Electropolymer for a Hexameric Heme Protein with Direct Electron Transfer and Peroxide Electrocatalysis.
Sensors, 16, (3), ArticleNo272-(2016)
Yarman A et al., MIP-esterase/Tyrosinase Combinations for Paracetamol and Phenacetin.
Electroanalysis, 28, (9), 2222-2227, (2016)
Stojanovic Z et al., Electrosynthesized molecularly imprinted polyscopoletin nanofilms for human serum albumin detection.
Analytica Chimica Acta, 977, 1-9, (2017)
Yarman A et al., Enzymes as Tools in MIP-Sensors.
Chemosensors, 5, (2), ArticleNo11-(2017)
Jetzschmann KJ et al., Book chapter, Label-Free MIP Sensors for Protein Biomarkers,
In: Label-Free Biosensing: Advanced Materials, Devices and Applications, Schöning MJ, Poghossian A (Eds.) Springer International Publishing: Cham, 291-321, (2018)
Jetzschmann KJ et al., Molecular LEGO by domain-imprinting of cytochrome P450 BM3.
Colloids and Surfaces B: Biointerfaces, 164, 240-246, (2018)
Waffo AFT et al., Fully electrochemical MIP sensor for artemisinin.
Sensors and Actuators B: Chemical, 275, 163-173, (2018)
Zhang XR et al., Electrosynthesized MIPs for transferrin: Plastibodies or nano-filters?
Biosensors and Bioelectronics, 105, 29-35, (2018)
Altintas Z et al., Integrated Approaches Toward High-Affinity Artificial Protein Binders Obtained via Computationally Simulated Epitopes for Protein Recognition.
Advanced Functional Materials, 29, (15), Article1807332-(2019)
Jetzschmann KJ et al., Bio-Electrosynthesis of Vectorially Imprinted Polymer Nanofilms for Cytochrome P450cam.
ChemElectroChem, 6, (6), 1818-1823, (2019)
Scheller FW et al., Molecularly imprinted polymer-based electrochemical sensors for biopolymers.
Current Opinion in Electrochemistry, 14, 53-59, (2019)
Ozcelikay G et al., Au-Pt nanoparticles based molecularly imprinted nanosensor for electrochemical detection of the lipopeptide antibiotic drug Daptomycin.
Sensors and Actuators B: Chemical, 320, Article128285-(2020)
Caserta G et al., Insights in electrosynthesis, target binding, and stability of peptide-imprinted polymer nanofilms.
Electrochimica Acta, 381, Article138236-(2021)
Yarman A et al., Simple and robust: The claims of protein sensing by molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 330, Article129369-(2021)
Zhang XR et al., Out of Pocket
Schembri C
Cutivet A et al., Molecularly Imprinted Microgels as Enzyme Inhibitors.Journal of the American Chemical Society, 131, (41), 14699-14702, (2009)
Schemeth D
Meischl F et al., Synthesis and evaluation of a novel molecularly imprinted polymer for the selective isolation of acetylsalicylic acid from aqueous solutions.Journal of Environmental Chemical Engineering, 4, (Part A), 4083-4090, (2016)
Schenning APHJ
Helmich F et al., Chiral Memory via Chiral Amplification and Selective Depolymerization of Porphyrin Aggregates.Journal of the American Chemical Society, 132, (47), 16753-16755, (2010)
Moirangthem M et al., An Optical Sensor Based on a Photonic Polymer Film to Detect Calcium in Serum.
Advanced Functional Materials, 26, (8), 1154-1160, (2016)
Scherman OA
Nouvel N et al., Organoboranes as template molecules for molecularly imprinted polymers.Abstracts of Papers of the American Chemical Society, 235, (ORGN), 436-(2008)
Scherz A
Brandis A et al., A two-step strategy to visually identify molecularly imprinted polymers for tagged proteins.Journal of Separation Science, 40, (16), 3358-3367, (2017)
Schillemans JP
Schillemans JP et al., Molecularly imprinted polymer particles: synthetic receptors for future medicine.Nanomedicine, 1, (4), 437-447, (2006)
Verheyen E et al., Challenges for the effective molecular imprinting of proteins.
Biomaterials, 32, (11), 3008-3020, (2011)
Schiller A
Schiller A et al., Highly cross-linked polymers containing N, N', N''-chelate ligands for the Cu(II)-mediated hydrolysis of phosphoesters.Inorganic Chemistry, 44, (18), 6482-6492, (2005)
Schiller A et al., Enhanced hydrolytic activity of Cu(II) and Zn(II) complexes in highly cross-linked polymers.
Dalton Transactions, (32), 3858-3867, (2006)
Schiller M
Valtchev M et al., Development of sulfamethoxazole-imprinted polymers for the selective extraction from waters.Journal of Hazardous Materials, 170, (2-3), 722-728, (2009)
Schilling J
Steinhart M et al., Polymer nanotubes by wetting of ordered porous templates.Science, 296, (5575), 1997-1997, (2002)
Schillinger E
Dirion B et al., Water-compatible molecularly imprinted polymers obtained via high-throughput synthesis and experimental design.Journal of the American Chemical Society, 125, (49), 15101-15109, (2003)
Dirion B et al., Book chapter, Development of a high throughput synthesis technique for the optimization of MIPs for 17[beta]-estradiol,
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 9, 53-60, (2004)
Oxelbark J et al., Chromatographic comparison of bupivacaine imprinted polymers prepared in crushed monolith, microsphere, silica-based composite and capillary monolith formats.
Journal of Chromatography A, 1160, (1-2), 215-226, (2007)
Sellergren B et al., Book chapter, Experimental Combinatorial Methods in Molecular Imprinting,
In: Combinatorial Methods for Chemical and Biological Sensors, Potyrailo RA, Mirsky VM (Eds.) Springer: New York, Ch. 7, 173-198, (2009)
Prieto A et al., Selective determination of estrogenic compounds in water by microextraction by packed sorbents and a molecularly imprinted polymer coupled with large volume injection-in-port-derivatization gas chromatography-mass spectrometry.
Analytica Chimica Acta, 703, (1), 41-51, (2011)
Urraca JL et al., Polymeric Complements to the Alzheimer's Disease Biomarker [beta]-Amyloid Isoforms A[beta]1-40 and A[beta]1-42 for Blood Serum Analysis under Denaturing Conditions.
Journal of the American Chemical Society, 133, (24), 9220-9223, (2011)
Halhalli MR et al., An improved grafting technique for producing imprinted thin film composite beads.
Polymer Chemistry, 3, (4), 1033-1042, (2012)
Halhalli MR et al., Thin Walled Imprinted Polymer Beads Featuring Both Uniform and Accessible Binding Sites.
Chemistry of Materials, 24, (15), 2909-2919, (2012)
Schillinger E et al., An Artificial Estrogen Receptor through Combinatorial Imprinting.
Chemistry - A European Journal, 18, (46), 14773-14783, (2012)
Azenha M et al., Vapor-phase testing of the memory-effects in benzene- and toluene-imprinted polymers conditioned at elevated temperature.
Analytica Chimica Acta, 802, 40-45, (2013)
Kadhirvel P et al., Imidazolium-based functional monomers for the imprinting of the anti-inflammatory drug naproxen: Comparison of acrylic and sol-gel approaches.
Journal of Chromatography A, 1314, 115-123, (2013)
Olsson GD et al., Theoretical Studies of 17-[beta]-Estradiol-Imprinted Prepolymerization Mixtures: Insights Concerning the Roles of Cross-Linking and Functional Monomers in Template Complexation and Polymerization.
Industrial & Engineering Chemistry Research, 52, (39), 13965-13970, (2013)
Kadhirvel P et al., Recognitive nano-thin-film composite beads for the enantiomeric resolution of the metastatic breast cancer drug aminoglutethimide.
Journal of Chromatography A, 1358, 93-101, (2014)
Schillén K
Long YY et al., Insight into molecular imprinting in precipitation polymerization systems using solution NMR and dynamic light scattering.Journal of Molecular Recognition, 24, (4), 619-630, (2011)
Schimmelpfennig M
Harz S et al., Fluorescence optical spectrally resolved sensor based on molecularly imprinted polymers and microfluidics.Engineering in Life Sciences, 11, (6), 559-565, (2011)
Schirhagl R
Dickert FL et al., QCM-sensorik von Biopartikein: Von Nano zu Mikro - Von Bio zu Kunststoff - Von Sauerbrey zu Nichtsauerbrey.VDI Berichte, 2011, 43-52, (2008)
Birnbaumer GM et al., Detection of viruses with molecularly imprinted polymers integrated on a microfluidic biochip using contact-less dielectric microsensors.
Lab on a Chip, 9, (24), 3549-3556, (2009)
Dickert FL et al., Proceeding, Sensors for Healthcare Monitoring - Proteins, Viruses and Blood-Group-Typing,
Dössel O, Schlegel WC (Eds.), 325-328, (2009)
Jenik M et al., Sensing Picornaviruses Using Molecular Imprinting Techniques on a Quartz Crystal Microbalance.
Analytical Chemistry, 81, (13), 5320-5326, (2009)
Schirhagl R et al., Chemosensors for Viruses Based on Artificial Immunoglobulin Copies.
Advanced Materials, 22, (18), 2078-2081, (2010)
Schirhagl R et al., Comparing biomimetic and biological receptors for insulin sensing.
Chemical Communications, (46), 3128-3130, (2010)
Schirhagl R et al., Antibodies and Their Replicae in Microfluidic Sensor Systems-Labelfree Quality Assessment in Food Chemistry and Medicine.
Sensor Letters, 8, (3), 399-404, (2010)
Schirhagl R et al., Atrazine detection based on antibody replicas.
Journal of Materials Chemistry, 21, (38), 14594-14598, (2011)
Schirhagl R et al., Separation of bacteria with imprinted polymeric films.
Analyst, 137, (6), 1495-1499, (2012)
Schirhagl R et al., Natural and Biomimetic Materials for the Detection of Insulin.
Analytical Chemistry, 84, (9), 3908-3913, (2012)
Schirhagl R et al., Immunosensing with artificial antibodies in organic solvents or complex matrices.
Sensors and Actuators B: Chemical, 173, 585-590, (2012)
Schirhagl R et al., Surface-imprinted polymers in microfluidic devices.
SCIENCE CHINA Chemistry, 55, (4), 469-483, (2012)
Afzal A et al., Advanced vapor recognition materials for selective and fast responsive surface acoustic wave sensors: A review.
Analytica Chimica Acta, 787, 36-49, (2013)
Schirhagl R, Bioapplications for Molecularly Imprinted Polymers.
Analytical Chemistry, 86, (1), 250-261, (2014)
van Rijn P et al., Viruses, Artificial Viruses and Virus-Based Structures for Biomedical Applications.
Advanced Healthcare Materials, 5, (12), 1386-1400, (2016)
Wackerlig J et al., Applications of Molecularly Imprinted Polymer Nanoparticles and Their Advances toward Industrial Use: A Review.
Analytical Chemistry, 88, (1), 250-261, (2016)
Afzal A et al., Gravimetric Viral Diagnostics: QCM Based Biosensors for Early Detection of Viruses.
Chemosensors, 5, (1), ArticleNo7-(2017)
Schirhagl R, Book chapter, Transferring the Selectivity of a Natural Antibody into a Molecularly Imprinted Polymer,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 325-340, (2017)
Schirk C
Dickert FL et al., Molekulares Prägen - eine universelle Strategie zur Entwicklung von Chemosensoren.VDI Berichte, 1829, 611-616, (2004)
Dickert FL et al., Book chapter, Molecular imprinting - a universal strategy for the development of chemosensors,
In: Sensors And Measuring Systems 2004, 611-615, (2004)
Lieberzeit PA et al., From nanopatterning to functionality - surface and bulk imprinting for analytical purposes.
Supperlattices and Microstructures, 36, (1-3), 133-142, (2004)
Lieberzeit PA et al., Imprinting as a versatile platform for sensitive materials - nanopatterning of the polymer bulk and surfaces.
Sensors and Actuators B: Chemical, 111-112, 259-263, (2005)
Jenik M et al., Sensing Picornaviruses Using Molecular Imprinting Techniques on a Quartz Crystal Microbalance.
Analytical Chemistry, 81, (13), 5320-5326, (2009)
Schirmer C
Schirmer C et al., Synthesis of a molecularly imprinted polymer for the selective solid-phase extraction of chloramphenicol from honey.Journal of Chromatography A, 1132, (1-2), 325-328, (2006)
Schirmer C et al., Molecularly imprinted polymers for the selective solid-phase extraction of chloramphenicol.
Analytical and Bioanalytical Chemistry, 392, (1), 223-229, (2008)
Schirmer C et al., Synthesis and Evaluation of Molecularly Imprinted Polymers (MIP) with Affinity for the Polypeptide Nisin.
Food Analytical Methods, 2, (4), 257-263, (2009)
Schirmer C et al., Chromatographic evaluation of polymers imprinted with analogs of chloramphenicol and application to selective solid-phase extraction.
Analytical and Bioanalytical Chemistry, 394, (8), 2249-2255, (2009)
Schleich D
Devanathan S et al., Subpicomolar sensing of [delta]-opioid receptor ligands by molecular-imprinted polymers using plasmon-waveguide resonance spectroscopy.Analytical Chemistry, 77, (8), 2569-2574, (2005)
Schmid B
Altintas Z et al., Integrated Approaches Toward High-Affinity Artificial Protein Binders Obtained via Computationally Simulated Epitopes for Protein Recognition.Advanced Functional Materials, 29, (15), Article1807332-(2019)
Tchinda R et al., Recognition of protein biomarkers using epitope-mediated molecularly imprinted films: Histidine or cysteine modified epitopes?
Biosensors and Bioelectronics, 123, 260-268, (2019)
Drzazgowska J et al., Self-Assembled Monolayer Epitope Bridges for Molecular Imprinting and Cancer Biomarker Sensing.
Analytical Chemistry, 92, (7), 4798-4806, (2020)
Schmid E
Dickert FL et al., QCM array for on-line-monitoring of composting procedures.Analyst, 129, (5), 432-437, (2004)
Schmid M
Bucar F et al., Natural product isolation - how to get from biological material to pure compounds.Natural Product Reports, 30, (4), 525-545, (2013)
Schmid MG
Gübitz G et al., Chiral separation by capillary electrochromatography.Enantiomer, 5, 5-11, (2000)
Gübitz G et al., Recent progress in chiral separation principles in capillary electrophoresis.
Electrophoresis, 21, (18), 4112-4135, (2000)
Gübitz G et al., Chiral separation by chromatographic and electromigration techniques. A review.
Biopharmaceutics & Drug Disposition, 22, (7-8), 291-336, (2001)
Gübitz G et al., Book chapter, Chiral Separation Principles,
In: Chiral Separations, Gübitz G, Schmid MG (Eds.) 1-28, (2003)
Gübitz G et al., Recent advances in chiral separation principles in capillary electrophoresis and capillary electrochromatography.
Electrophoresis, 25, (23-24), 3981-3996, (2004)
Gübitz G et al., Chiral separation principles in chromatographic and electromigration techniques.
Molecular Biotechnology, 32, (2), 159-179, (2006)
Gübitz G et al., Chiral separation by capillary electromigration techniques.
Journal of Chromatography A, 1204, (2), 140-156, (2008)
Schmidt CE
Khurshid SS et al., Optimization of molecularly imprinted polymers of serotonin for biomaterial applications.Journal of Biomaterials Science-Polymer Edition, 22, (1-3), 343-362, (2011)
Schmidt H
Wulff G et al., Cooperativity and transfer of chirality in liquid-crystalline polymers.Angewandte Chemie International Edition, 33, (2), 188-191, (1994)
Schmidt M
Zarejousheghani M et al., A new strategy for accelerated extraction of target compounds using molecularly imprinted polymer particles embedded in a paper-based disk.Journal of Molecular Recognition, 31, (3), ArticleNoe2629-(2018)
Schmidt MS
Ashley J et al., Quantitative Detection of Trace Level Cloxacillin in Food Samples Using Magnetic Molecularly Imprinted Polymer Extraction and Surface-Enhanced Raman Spectroscopy Nanopillars.Analytical Chemistry, 89, (21), 11484-11490, (2017)
Schmidt RH
Schmidt RH et al., A simple method for spin-coating molecularly imprinted polymer films of controlled thickness and porosity.Advanced Materials, 16, (8), 719-722, (2004)
Schmidt RH et al., Molecularly imprinted polymer films with binding properties enhanced by the reaction-induced phase separation of a sacrificial polymeric porogen.
Chemistry of Materials, 17, (5), 1007-1016, (2005)
Schmidt RH et al., Porogen formulations for obtaining molecularly imprinted polymers with optimized binding properties.
Analytica Chimica Acta, 542, (1), 118-124, (2005)
Yilmaz E et al., Book chapter, The noncovalent approach,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 3, 25-57, (2005)
Schmiesing CS
Schmiesing CS et al., Electrochemically assisted solid phase micro-extraction using L-dopa imprinted conducting polymer electrode fibers: Structural aspects.Abstracts of Papers of the American Chemical Society, 225, (ANYL), 098-098, (2003)
Schmitt B
SchützeA. et al., Proceeding, A novel low-cost pre-concentrator concept to boost sensitivity and selectivity of gas sensor systems,1-4, (2015)
Schmitt-Kopplin P
Kunsa-Ngiem S et al., Magnetic molecularly imprinted polymer prepared by microwave heating for confirmatory determination of chloramphenicol in chicken feed using high-performance liquid chromatography-tandem mass spectrometry.Journal of Environmental Science and Health, Part B, 53, (11), 738-745, (2018)
Schmitzer AR
Gomy C et al., Rational design of new polymerizable oxyanion receptors.Journal of Organic Chemistry, 71, (8), 3121-3125, (2006)
Gomy C et al., Synthesis and Photoresponsive Properties of a Molecularly Imprinted Polymer.
Organic Letters, 9, (20), 3865-3868, (2007)
Schmuck C
Maity D et al., Book chapter, Synthetic Receptors for Amino Acids and Peptides,In: Synthetic Receptors for Biomolecules: Design Principles and Applications, Smith BD (Ed.) The Royal Society of Chemistry: Cambridge, Ch. 8, 326-368, (2015)
Schmults CD
Gallagher M et al., Synthesis and evaluation of imprinted polymers for selective recognition of fusaric acid.Abstracts of Papers of the American Chemical Society, 236, (AGFD), 193-(2008)
Schnabel A
Helling S et al., Ultratrace Enrichment of Tyrosine Phosphorylated Peptides on an Imprinted Polymer.Analytical Chemistry, 83, (5), 1862-1865, (2011)
Schnadt J
Chaudhary S et al., Controlled short-linkage assembly of functional nano-objects.Applied Surface Science, 300, 22-28, (2014)
Kamra T et al., Implementation of Molecularly Imprinted Polymer Beads for Surface Enhanced Raman Detection.
Analytical Chemistry, 87, (10), 5056-5061, (2015)
Kamra T et al., Photoconjugation of Molecularly Imprinted Polymer Nanoparticles for Surface-Enhanced Raman Detection of Propranolol.
ACS Applied Materials & Interfaces, 7, (49), 27479-27485, (2015)
Kamra T et al., Covalent immobilization of molecularly imprinted polymer nanoparticles using an epoxy silane.
Journal of Colloid and Interface Science, 445, 277-284, (2015)
Kamra T et al., Covalent immobilization of molecularly imprinted polymer nanoparticles on a gold surface using carbodiimide coupling for chemical sensing.
Journal of Colloid and Interface Science, 461, 1-8, (2016)
Kamra T et al., Corrigendum to "Covalent immobilization of molecularly imprinted polymer nanoparticles on a gold surface using carbodiimide coupling for chemical sensing" [J. Colloid Interface Sci. 461 (2016) 1-8].
Journal of Colloid and Interface Science, 461, 444-445, (2016)
Schneck NA
Schneck NA et al., Preparation of an improved molecularly imprinted polymer for the retention of organosulfur compounds.Abstracts of Papers of the American Chemical Society, 241, (CHED), 230-(2011)
Tom LA et al., Improving the imprinting effect by optimizing template:monomer:cross-linker ratios in a molecularly imprinted polymer for sulfadimethoxine.
Journal of Chromatography B, 909, 61-64, (2012)
Schneider F
Ulbricht M et al., Novel molecularly imprinted polymer (MIP) composite membranes via controlled surface and pore functionalizations.Desalination, 149, (1-3), 293-295, (2002)
Schneider F et al., Comparison of thin-layer and bulk MlPs synthesized by photoinitiated in situ crosslinking polymerization from the same reaction mixtures.
Journal of Applied Polymer Science, 98, (1), 362-372, (2005)
Schneider HJ
Schneider HJ et al., Supramolecular Interactions in Chemomechanical Polymers.Accounts of Chemical Research, 42, (10), 1489-1500, (2009)
Schneider R
Khadem-Abbassi K et al., CdTe0.5S0.5/ZnS Quantum Dots Embedded in a Molecularly Imprinted Polymer for the Selective Optosensing of Dopamine.Nanomaterials, 9, (5), ArticleNo693-(2019)
Schneider T
Sellergren B et al., Pressure-induced binding sites in molecularly imprinted network polymers.Macromolecules, 30, (8), 2454-2459, (1997)
Schneiderheinze JM
Armstrong DW et al., Bubble fractionation of enatiomers from solution using molecularly imprinted polymers as collectors.Analytical Chemistry, 70, (17), 3717-3719, (1998)
Schneiderman E
Schneiderman E et al., Cyclodextrins: a versatile tool in separation science.Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 745, (1), 83-102, (2000)
Schnettelker A
Schnettelker A et al., A Self-Organisation Synthesis Approach for Bacteria Molecularly Imprinted Polymers.Procedia Engineering, 168, 557-560, (2016)
Schoen PE
Markowitz MA et al., Functionalized silica gel particles for molecular imprinting.Abstracts of Papers of the American Chemical Society, 215, (COLL), 179-179, (1998)
Markowitz MA et al., Catalytic silica particles via template-directed molecular imprinting.
Langmuir, 16, (4), 1759-1765, (2000)
Schoer JK
Crooks RM et al., Book chapter, Synthesis and characterization of two-dimensional molecular recognition interfaces,In: Interfacial design & chemical sensing, Mallouk TE, Harrison DJ (Eds.) ACS: Washington DC, Ch. 10, 104-122, (1994)
Scholin A
Patrikeev V et al., Specifically formed silica gels and a method of separating complex mixtures of organic substances.Izv. Akad. Nauk SSSR, Otd. Khim. Nauk, 6, 1031-1035, (1963)
Patrikeev VV et al., The preparation and properties of specifically formed silica gels and their use in the separation of complex mixtures of organic compounds.
Molekul. Khromatogr., 66-72, (1964)
Scholl G
Dickert FL et al., Proceeding, Biomimetische Chemosensoren - Selektive Detektion von Mikroorganismen, Viren und Enzymen,331-334, (2002)
Greibl W et al., Proceeding, Surface phenomena with organic coatings for chemical sensing,
Vo-Dinh T, Buettgenbach S (Eds.), 160-168, (2002)
Dickert F et al., Borderline applications of QCM-devices: synthetic antibodies for analytes in both nm- and mm-dimensions.
Sensors and Actuators B: Chemical, 95, (1-3), 20-24, (2003)
Schomacker R
Visnjevski A et al., Erratum to "Catalysis of a Diels-Alder cycloaddition with differently fabricated molecularly imprinted polymers" [Catal. Commun. 6 (9) (2005) 601-606].Catalysis Communications, 7, (2), 114-114, (2006)
Schomäcker R
Kalim R et al., Catalysis of a beta-elimination applying membranes with incorporated molecularly imprinted polymer particles.Polymer Bulletin, 55, (4), 287-297, (2005)
Visnjevski A et al., Catalysis of a Diels-Alder cycloaddition with differently fabricated molecularly imprinted polymers.
Catalysis Communications, 6, (9), 601-606, (2005)
Schott B
Meier F et al., Computational and experimental study on the influence of the porogen on the selectivity of 4-nitrophenol molecularly imprinted polymers.Analytica Chimica Acta, 744, 68-74, (2012)
Schrader S
Prieto A et al., Synthesis of a molecularly imprinted polymer and its application for microextraction by packed sorbent for the determination of fluoroquinolone related compounds in water.Analytica Chimica Acta, 685, (2), 146-152, (2011)
Prieto A et al., Selective determination of estrogenic compounds in water by microextraction by packed sorbents and a molecularly imprinted polymer coupled with large volume injection-in-port-derivatization gas chromatography-mass spectrometry.
Analytica Chimica Acta, 703, (1), 41-51, (2011)
Zarejousheghani M et al., Ion-exchange molecularly imprinted polymer for the extraction of negatively charged acesulfame from wastewater samples.
Journal of Chromatography A, 1411, 23-33, (2015)
Zarejousheghani M et al., Negative electrospray ionization ion mobility spectrometry combined with paper-based molecular imprinted polymer disks: A novel approach for rapid target screening of trace organic compounds in water samples.
Talanta, 190, 47-54, (2018)
Zarejousheghani M et al., A new strategy for accelerated extraction of target compounds using molecularly imprinted polymer particles embedded in a paper-based disk.
Journal of Molecular Recognition, 31, (3), ArticleNoe2629-(2018)
Schrader T
Schrader T et al., Intermolecular stabilisation of the b-sheet conformation in dipeptides.Chemical Communications, (17), 2089-2090, (1996)
Wulff G et al., Book chapter, Molecular imprinting for the preparation of enzyme-analogous polymers,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 2, 10-28, (1998)
Herm M et al., Towards synthetic adrenaline receptors.
Chemistry - A European Journal, 6, (1), 47-53, (2000)
Schrader T et al., Artificial protein sensors.
Molecular BioSystems, 3, (4), 241-248, (2007)
Ertürk G et al., Bisphosphonate ligand mediated ultrasensitive capacitive protein sensor: complementary match of supramolecular and dynamic chemistry.
New Journal of Chemistry, 43, (2), 847-852, (2019)
Schrader TH
Kirsten CN et al., Intermolecular b-sheet stabilization with aminopyrazoles.Journal of the American Chemical Society, 119, (50), 12061-12068, (1997)
Schram J
Kuchen W et al., Metal-ion-selective exchange resins by matrix imprint with methacrylates.Angewandte Chemie International Edition, 27, (12), 1695-1697, (1988)
Schranzhofer L
Lieberzeit PA et al., Molecular Imprinting on the Nanoscale - Rapid Detection of Ag Nanoparticles by QCM Sensors.Procedia Engineering, 87, 236-239, (2014)
Schreiber T
Borchers K et al., Book chapter, Biomimetic Nanoparticles Providing Molecularly Defined Binding Sites - Protein-Featuring Structures versus Molecularly Imprinted Polymers,In: Cellular and Biomolecular Recognition: Synthetic and Non-Biological Molecules, Jelinek R (Ed.) Wiley-VCH: Weinheim, Ch. 2, 31-67, (2009)
Schreiber T et al., Proceeding, Water treatment by molecularly imprinted polymer nanoparticles,
ArticleNo1169-Q04-07, (2009)
Schreiber T et al., Proceeding, NANOCYTES-technology - Biomimetic nanoparticles for molecular recognition by molecular imprinting,
242-245, (2010)
Schreiter M
Bunte G et al., Proceeding, MIP-based low-cost sensor for short-range detection of explosives,Schubert H, Rimski-Korsakov A (Eds.), 17-27, (2006)
Schrezenmeir J
de Vrese M et al., Searching for new bioactive substances from milk.Bulletin Of The International Dairy Federation No 375/2002 - Fresh Perspectives On Bioactive Dairy Foods, 47-53, (2002)
Schroeder G
Ceglowski M et al., Molecularly imprinted polymers as selective adsorbents for ambient plasma mass spectrometry.Analytical and Bioanalytical Chemistry, 409, (13), 3393-3405, (2017)
Guc M et al., The Molecularly Imprinted Polymers. Influence of Monomers on The Properties of Polymers - A Review.
World Journal of Research and Review, 5, (6), 36-47, (2017)
Kurczewska J et al., Molecularly imprinted polymer as drug delivery carrier in alginate dressing.
Materials Letters, 201, 46-49, (2017)
Ceglowski M et al., Application of paclitaxel-imprinted microparticles obtained using two different cross-linkers for prolonged drug delivery.
European Polymer Journal, 118, 328-336, (2019)
Ceglowski M et al., The influence of cross-linking agent onto adsorption properties, release behavior and cytotoxicity of doxorubicin-imprinted microparticles.
Colloids and Surfaces B: Biointerfaces, 182, Article110379-(2019)
Guc M et al., The Application of the Microwave Plasma Ionization Source in Ambient Mass Spectrometry.
Plasma Chemistry and Plasma Processing, 39, (4), 1001-1017, (2019)
Pawlaczyk M et al., Adsorption and selectivity studies of direct and magnetite-cored molecularly imprinted polymers (MIPs and magMIPs) towards chosen chalcones investigated with various analytical methods.
RSC Advances, 11, (41), 25334-25347, (2021)
Schröder T
Eppler S et al., A strategy for high-throughput screening of ligands suitable for molecular imprinting of proteins.Biosensors and Bioelectronics, 35, (1), 27-32, (2012)
Schubert US
Hoogenboom R et al., The fast and the curious: High-throughput experimentation in synthetic polymer chemistry.Journal of Polymer Science Part A: Polymer Chemistry, 41, (16), 2425-2434, (2003)
Hoogenboom R et al., Combinatorial methods, automated synthesis and high-throughput screening in polymer research: Past and present.
Macromolecular Rapid Communications, 24, (1), 16-32, (2003)
Zhang HQ et al., Application of a parallel synthetic approach in atom-transfer radical polymerization: Set-up and feasibility demonstration.
Macromolecular Rapid Communications, 24, (1), 81-86, (2003)
Meier MAR et al., Combinatorial methods, automated synthesis and high-throughput screening in polymer research: The evolution continues.
Macromolecular Rapid Communications, 25, (1), 21-33, (2004)
Schueckler J
Wickham JM et al., Electrodes with imprinted polymer membranes.Abstracts of Papers of the American Chemical Society, 223, (ANYL), 074-074, (2002)
Schuetz HJ
Bünemann H et al., Synthesis and properties of acrylamide-substituted base pair specific dyes for deoxyribonucleic acid template mediated synthesis of dye polymers.Biochemistry, 20, (10), 2864-2874, (1981)
Schug KA
Yang SH et al., Restricted access media as a streamlined approach toward on-line sample preparation: Recent advancements and applications.Journal of Separation Science, 36, (17), 2922-2938, (2013)
Schull TL
Schull TL et al., Fabrication of patterned surface-reactive templates using physisorption of reactive species in solvent-imprinted nanocavities.Abstracts of Papers of the American Chemical Society, 219, (COLL), 74-74, (2000)
Schultz LG
Schultz LG et al., Synthesis of cored dendrimers with internal cross-links.Angewandte Chemie International Edition, 40, (10), 1962-1966, (2001)
Zimmerman SC et al., Monomolecular imprinting: synthetic hosts via molecular imprinting inside of dendrimers.
Polymer Preprints, 44, (2), 466-467, (2003)
Zimmerman SC et al., Monomolecular imprinting: Synthetic hosts via molecular imprinting inside of dendrimers.
Abstracts of Papers of the American Chemical Society, 226, (POLY), 479-479, (2003)
Schulz B
Jetzschmann KJ et al., Vectorially Imprinted Hybrid Nanofilm for Acetylcholinesterase Recognition.Advanced Functional Materials, 25, (32), 5178-5183, (2015)
Schulz E
Kutner W et al., Conducting Molecularly Imprinted Polymer (MIP) Chemical Sensors for Toxic N-Nitrosamines Selective Determination in Heat Processed Food of Animal Origin.ECS Meeting Abstracts, MA2017-01, (42), 1919-1919, (2017)
Schulze I
Wulff G et al., Enzyme-analogous polymers. Part 7, Directed cooperativity and site separation of mercapto groups in synthetic polymers.Angewandte Chemie International Edition, 17, (7), 537-538, (1978)
Wulff G et al., Enzyme-analogue built polymers. IX. Polymers with mercapto groups of definite cooperativity.
Israel Journal of Chemistry, 17, 291-297, (1978)
Wulff G et al., Über enzymanalog gebaute Polymere, 11) Bindungsstellen im Polymer mit unterschiedlicher Zahl der Haftgruppen.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 181, (3), 531-544, (1980)
Schumacher S
Schumacher S et al., Molecular imprinting of fructose using a polymerizable benzoboroxole: Effective complexation at pH 7.4.Polymer, 52, (12), 2485-2491, (2011)
Schumacher S, Book chapter, Molecularly Imprinted Polymers: Science Goes Market? A Market Analysis Based on the Patent Situation,
In: Handbook of Molecular Imprinting - Advanced Sensor Applications, Lee SW, Kunitake T (Eds.) Pan Stanford Publishing Pte. Ltd.: Singapore, Ch. 17, 571-598, (2013)
Scheller FW et al., Book chapter, Future of Biosensors: A Personal View,
In: Biosensors Based on Aptamers and Enzymes, Gu MB, Kim HS (Eds.) Springer: Berlin, Heidelberg, 1-28, (2014)
Schunack M
Binder WH et al., Book chapter, Biomimetic Principles in Macromolecular Science,In: Bioinspiration and Biomimicry in Chemistry: Reverse-Engineering Nature, Swiegers GF (Ed.) Wiley: Ch. 11, 323-366, (2012)
Schurgers LJ
Eersels K et al., A Novel Biomimetic Tool for Assessing Vitamin K Status Based on Molecularly Imprinted Polymers.Nutrients, 10, (6), ArticleNo751-(2018)
Schurig V
Wistuba D et al., Recent progress in enantiomer separation by capillary electrochromatography.Electrophoresis, 21, (18), 4136-4158, (2000)
Wistuba D et al., Enantiomer separation of chiral pharmaceuticals by capillary electrochromatography.
Journal of Chromatography A, 875, (1-2), 255-276, (2000)
Kang JW et al., Recent progress in enantiomeric separation by capillary electrochromatography.
Electrophoresis, 23, (22-23), 4005-4021, (2002)
Schutt TC
Fernando PUAI et al., Toward Rational Design of Electrogenerated Molecularly Imprinted Polymers (eMIPs): Maximizing Monomer/Template Affinity.ACS Applied Polymer Materials, 3, (9), 4523-4533, (2021)
Schwabe T
Pastinen O et al., Cross-linked glucose isomerase crystals as a liquid chromatographic separation material.Enzyme and Microbial Technology, 26, (7), 550-558, (2000)
Schwamborn JC
Lee MH et al., Epitope imprinting of alpha-synuclein for sensing in Parkinson's brain organoid culture medium.Biosensors and Bioelectronics, 175, Article112852-(2021)
Lee MH et al., Transition metal dichalcogenides to optimize the performance of peptide-imprinted conductive polymers as electrochemical sensors.
Microchimica Acta, 188, (6), Article203-(2021)
Schwark S
Schwark S et al., Monoclonal antibody capture from cell culture supernatants using epitope imprinted macroporous membranes.RSC Advances, 6, (58), 53162-53169, (2016)
Schwartz BJ
Conrad PGI et al., Functional molecularly imprinted polymer microstructures fabricated using microstereolithography.Advanced Materials, 15, (18), 1541-1544, (2003)
Schwarz L
Schwarz L et al., Synthesis and evaluation of a molecularly imprinted polymer selective to 2, 4, 6-trichlorophenol.Australian Journal of Chemistry, 57, (8), 759-764, (2004)
Schwarz L et al., Synthesis and evaluation of a molecularly imprinted polymer selective to 2, 4, 6-trichloroanisole.
Australian Journal of Chemistry, 59, (2), 129-134, (2006)
Schwarz LJ
Schwarz LJ et al., Preparation of molecularly imprinted polymers for the selective recognition of the bioactive polyphenol, (E)-resveratrol.Journal of Chromatography A, 1218, (16), 2189-2195, (2011)
Schwarz LJ et al., Enrichment of (E)-Resveratrol from Peanut Byproduct with Molecularly Imprinted Polymers.
Journal of Agricultural and Food Chemistry, 59, (8), 3539-3543, (2011)
Boysen RI et al., Selectivity optimisation of biomimetic molecularly imprinted polymer thin films.
Microelectronic Engineering, 97, 81-84, (2012)
Hashim SNNS et al., Rapid solid-phase extraction and analysis of resveratrol and other polyphenols in red wine.
Journal of Chromatography A, 1313, 284-290, (2013)
Boysen RI et al., Photo-lithographic patterning of biomimetic molecularly imprinted polymer thin films onto silicon wafers.
Microsystem Technologies, 20, (10-11), 2037-2043, (2014)
Hashim SNNS et al., A comparison of covalent and non-covalent imprinting strategies for the synthesis of stigmasterol imprinted polymers.
Journal of Chromatography A, 1359, 35-43, (2014)
Danylec B et al., The Application of Template Selectophores for the Preparation of Molecularly Imprinted Polymers.
Molecules, 20, (9), 17601-17613, (2015)
Schwarz LJ et al., Microwave-assisted synthesis of resveratrol imprinted polymers with enhanced selectivity.
Analytical Methods, 7, (1), 150-154, (2015)
Hashim SNNS et al., Selectivity mapping of the binding sites of (E)-resveratrol imprinted polymers using structurally diverse polyphenolic compounds present in Pinot noir grape skins.
Talanta, 161, 425-436, (2016)
Hashim SNNS et al., Recovery of ergosterol from the medicinal mushroom, Ganoderma tsugae var. Janniae, with a molecularly imprinted polymer derived from a cleavable monomer-template composite.
Journal of Chromatography A, 1468, 1-9, (2016)
Schwarz LJ et al., Sequential molecularly imprinted solid-phase extraction methods for the analysis of resveratrol and other polyphenols.
Journal of Chromatography A, 1438, 22-30, (2016)
Boysen RI et al., Molecularly imprinted polymer membranes and thin films for the separation and sensing of biomacromolecules.
Journal of Separation Science, 40, (1), 314-335, (2017)
Schwarz LJ et al., Phytosterol Recognition via Rationally Designed Molecularly Imprinted Polymers.
C, 4, (1), ArticleNo13-(2018)
Hashim SNNS et al., Parallel enrichment of polyphenols and phytosterols from Pinot noir grape seeds with molecularly imprinted polymers and analysis by capillary high-performance liquid chromatography electrospray ionisation tandem mass spectrometry.
Talanta, 208, Article120397-(2020)
Schweiger B
Schweiger B et al., Electropolymerized Molecularly Imprinted Polypyrrole Film for Sensing of Clofibric Acid.Sensors, 15, (3), 4870-4889, (2015)
Schweitz L
Nilsson S et al., Three approaches to enantiomer separation of [beta]-adrenergic antagonists by capillary electrochromatography.Electrophoresis, 18, (6), 884-890, (1997)
Schweitz L et al., Capillary electrochromatography with predetermined selectivity obtained through molecular imprinting.
Analytical Chemistry, 69, (6), 1179-1183, (1997)
Schweitz L et al., Capillary electrochromatography with molecular imprint-based selectivity for enantiomer separation of local anaesthetics.
Journal of Chromatography A, 792, (1-2), 401-409, (1997)
Schweitz L et al., Molecular imprint-based stationary phases for capillary electrochromatography.
Journal of Chromatography A, 817, (1-2), 5-13, (1998)
Schweitz L et al., Molecular imprinting for chiral separations and drug screening purposes using monolithic stationary phases in CEC.
Chromatographia, 49, (Supplement 1), S93-S94, (1999)
Nilsson S et al., Capillary electrochromatography plus molecular imprinting equals drug analysis?
Chromatographia, 52, S24-S24, (2000)
Schweitz L et al., Molecularly imprinted microparticles for capillary electrochromatographic enantiomer separation of propranolol.
Analyst, 125, (11), 1899-1901, (2000)
Schweitz L et al., Alternative methods providing enhanced sensitivity and selectivity in capillary electroseparation experiments.
Journal of Chromatography A, 892, (1-2), 203-217, (2000)
Schweitz L et al., Rapid electrochromatographic enantiomer separations on short molecularly imprinted polymer monoliths.
Analytica Chimica Acta, 435, (1), 43-47, (2001)
Schweitz L et al., Approaches to molecular imprinting based selectivity in capillary electrochromatography.
Electrophoresis, 22, (19), 4053-4063, (2001)
Schweitz L et al., Book chapter, Capillary electrochromatography based on molecular imprinting,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 16, 379-393, (2001)
Spégel P et al., Molecularly imprinted microparticles for capillary electrochromatography: Studies on microparticle synthesis and electrolyte composition.
Electrophoresis, 22, (17), 3833-3841, (2001)
Andersson LI et al., Towards molecular-imprint based SPE of local anaesthetics.
Chromatographia, 55, (Supplement 1), S65-S69, (2002)
Schweitz L et al., Molecularly imprinted CEC sorbents: investigations into polymer preparation and electrolyte composition.
Analyst, 127, (1), 22-28, (2002)
Schweitz L, Molecularly imprinted polymer coatings for open-tubular capillary electrochromatography prepared by surface initiation.
Analytical Chemistry, 74, (5), 1192-1196, (2002)
Spégel P et al., Molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 372, (1), 37-38, (2002)
Andersson LI et al., Book chapter, Solid-phase extraction on molecularly imprinted polymers,
In: Bioanalytical Separations, Wilson I (Ed.) Elsevier: Amsterdam, Ch. 2, 45-71, (2003)
Spégel P et al., Molecularly imprinted polymers in capillary electrochromatography: Recent developments and future trends.
Electrophoresis, 24, (22-23), 3892-3899, (2003)
Spégel P et al., Selectivity toward multiple predetermined targets in nanoparticle capillary electrochromatography.
Analytical Chemistry, 75, (23), 6608-6613, (2003)
Cacho C et al., Molecularly imprinted capillary electrochromatography for selective determination of thiabendazole in citrus samples.
Journal of Chromatography A, 1179, (2), 216-223, (2008)
Spégel P et al., Novel Vinylpyridine Based Cationic MIP Monoliths for Enantiomer Separation in CEC.
Chromatographia, 69, (3), 277-285, (2009)
Schweitzer GK
Harkins DA et al., Preparation of site-selective ion-exchange resins.Separation Science and Technology, 26, (3), 345-354, (1991)
Schwob C
Griffete N et al., Introduction of a planar defect in a molecularly imprinted photonic crystal sensor for the detection of bisphenol A.Journal of Colloid and Interface Science, 364, (1), 18-23, (2011)
Gam-Derouich S et al., Quantum dot-imprinted polymers with size and shell-selective recognition properties.
Chemical Communications, 51, 14933-14936, (2015)
Gam-Derouich S et al., Correction: Quantum dot-imprinted polymers with size and shell-selective recognition properties.
Chemical Communications, (2015)
Gam-Derouich S et al., Imprinted Photonic Hydrogels for the Size- and Shell-Selective Recognition of Nanoparticles.
Angewandte Chemie International Edition, 56, (33), 9710-9714, (2017)
Schöllhorn B
Schöllhorn B et al., Competitive assay of 2, 4-dichlorophenoxyacetic acid using a polymer imprinted with an electrochemically active tracer closely related to the analyte.Analyst, 125, (4), 665-667, (2000)
Schönfeld R
Wulff G et al., Enzyme models based on molecularly imprinted polymers with strong esterase activity.Angewandte Chemie International Edition, 36, (18), 1962-1964, (1997)
Wulff G et al., Polymerizable amidines - Adhesion mediators and binding sites for molecular imprinting.
Advanced Materials, 10, (12), 957-959, (1998)
Wulff G et al., Book chapter, Molecular imprinting for the preparation of enzyme-analogous polymers,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 2, 10-28, (1998)
Schönhoff M
Gauczinski J et al., Mechanism of Surface Molecular Imprinting in Polyelectrolyte Multilayers.Langmuir, 26, (12), 10122-10128, (2010)
Liu ZH et al., Surface Molecular Imprinted Layer-by-Layer Film Attached to a Porous Membrane for Selective Filtration.
Langmuir, 27, (19), 11806-11812, (2011)
Zhang JW et al., Bolaform Supramolecular Amphiphiles as a Novel Concept for the Buildup of Surface-Imprinted Films.
Langmuir, 27, (17), 10370-10375, (2011)
Gauczinski J et al., Surface Molecular Imprinting in Layer-by-Layer films on Silica Particles.
Langmuir, 28, (9), 4267-4273, (2012)
Xu HP et al., Unconventional Layer-by-Layer Assembly: Surface Molecular Imprinting and Its Applications.
Small, 8, (4), 517-523, (2012)
Zhang JW et al., Multilayer Films with Nanocontainers: Redox-Controlled Reversible Encapsulation of Guest Molecules.
Chemistry - A European Journal, 18, (47), 14968-14973, (2012)
Nicolas H et al., Cucurbit[8]uril as Nanocontainer in a Polyelectrolyte Multilayer Film: A Quantitative and Kinetic Study of Guest Uptake.
Langmuir, 31, (39), 10734-10742, (2015)
Yuan B et al., Pillar[6]arene Containing Multilayer Films: Reversible Uptake and Release of Guest Molecules with Methyl Viologen Moieties.
ACS Applied Materials & Interfaces, 8, (6), 3679-3685, (2016)
Schöning MJ
Cornelis P et al., Sensitive and specific detection of E. coli using biomimetic receptors in combination with a modified heat-transfer method.Biosensors and Bioelectronics, 136, 97-105, (2019)
Schüssler W
Sun Z et al., Selective trace analysis of diclofenac in surface and wastewater samples using solid-phase extraction with a new molecularly imprinted polymer.Analytica Chimica Acta, 620, (1-2), 73-81, (2008)
SchützeA.
SchützeA. et al., Proceeding, A novel low-cost pre-concentrator concept to boost sensitivity and selectivity of gas sensor systems,1-4, (2015)
Scognamiglio G
Gallo P et al., Determination of BPA, BPB, BPF, BADGE and BFDGE in canned energy drinks by molecularly imprinted polymer cleaning up and UPLC with fluorescence detection.Food Chemistry, 220, 406-412, (2017)
Scognamiglio PL
Battista E et al., Turn-on fluorescence detection of protein by molecularly imprinted hydrogels based on supramolecular assembly of peptide multi-functional blocks.Journal of Materials Chemistry B, 6, (8), 1207-1215, (2018)
Scognamiglio V
Scognamiglio V et al., Synthetic biology and biomimetic chemistry as converging technologies fostering a new generation of smart biosensors.Biosensors and Bioelectronics, 74, 1076-1086, (2015)
Scolaro LM
Lauceri R et al., From achiral porphyrins to template-imprinted chiral aggregates and further. Self-replication of chiral memory from scratch.Journal of the American Chemical Society, 124, (6), 894-895, (2002)
Scolnik Y
Levi G et al., Imprinting Chirality in Silica Nanotubes by N-Stearoyl-serine Template.ACS Applied Materials & Interfaces, 8, (35), 23356-23361, (2016)
Scoma A
Puoci F et al., Selective extraction and purification of gallic acid from actual site olive mill wastewaters by means of molecularly imprinted microparticles.Chemical Engineering Journal, 198-199, 529-535, (2012)
Scopelliti R
Schiller A et al., Highly cross-linked polymers containing N, N', N''-chelate ligands for the Cu(II)-mediated hydrolysis of phosphoesters.Inorganic Chemistry, 44, (18), 6482-6492, (2005)
Chauvin AS et al., Use of Dipicolinate-Based Complexes for Producing Ion-Imprinted Polystyrene Resins for the Extraction of Yttrium-90 and Heavy Lanthanide Cations.
Chemistry - A European Journal, 12, (26), 6852-6864, (2006)
Schiller A et al., Enhanced hydrolytic activity of Cu(II) and Zn(II) complexes in highly cross-linked polymers.
Dalton Transactions, (32), 3858-3867, (2006)
Scorrano S
Longo L et al., RNA nucleoside recognition by phthalocyanine-based molecularly imprinted polymers.Journal of Polymer Research, 17, (5), 683-687, (2010)
Scorrano S et al., Molecularly imprinted polymers for solid-phase extraction of 1-methyladenosine from human urine.
Analytica Chimica Acta, 659, (1-2), 167-171, (2010)
Scorrano S et al., Synthesis of Molecularly Imprinted Polymers for Amino Acid Derivates by Using Different Functional Monomers.
International Journal of Molecular Sciences, 12, (3), 1735-1743, (2011)
Vasapollo G et al., Molecularly Imprinted Polymers: Present and Future Prospective.
International Journal of Molecular Sciences, 12, (9), 5908-5945, (2011)
del Sole R et al., A molecularly imprinted polymer for the determination of neopterin.
Microchimica Acta, 180, (15-16), 1401-1409, (2013)
Mergola L et al., Developments in the synthesis of a water compatible molecularly imprinted polymer as artificial receptor for detection of 3-nitro-l-tyrosine in neurological diseases.
Biosensors and Bioelectronics, 40, (1), 336-341, (2013)
Scorrano S et al., A molecularly imprinted polymer as artificial receptor for the detection of indole-3-carbinol.
Journal of Applied Polymer Science, 131, (19), Article No 40819-(2014)
Scorrano S et al., Molecularly Imprinted Composite Membranes for Selective Detection of 2-Deoxyadenosine in Urine Samples.
International Journal of Molecular Sciences, 16, (6), 13746-13759, (2015)
Mergola L et al., Novel polymeric sorbents based on imprinted Hg(II)-diphenylcarbazone complexes for mercury removal from drinking water.
Polymer Journal, 48, 73-79, (2016)
Di Bello MP et al., Towards a new strategy of a chitosan-based molecularly imprinted membrane for removal of 4-nitrophenol in real water samples.
Polymer International, 66, (7), 1055-1063, (2017)
Di Bello PM et al., A New Ion-Imprinted Chitosan-Based Membrane with an Azo-Derivative Ligand for the Efficient Removal of Pd(II).
Materials, 10, (10), ArticleNo1133-(2017)
Mergola L et al., Urinary l-kynurenine quantification and selective extraction through a molecularly imprinted solid-phase extraction device.
Journal of Separation Science, 41, (16), 3204-3212, (2018)
Scott JC
Carter KR et al., Exploring the metal-polymer interface: Electroless plating from imprinted polymer surfaces.Abstracts of Papers of the American Chemical Society, 226, (COLL), 115-115, (2003)
Scotty JC
Carter KR et al., Surface modification of imprinted polymer surfaces.Abstracts of Papers of the American Chemical Society, 225, (COLL), 286-286, (2003)
Scriba GKE
Scriba GKE, Chiral Recognition Mechanisms in Analytical Separation Sciences.Chromatographia, 75, (15), 815-838, (2012)
Scriba GKE, Chiral recognition in separation science - an update.
Journal of Chromatography A, 1467, 56-78, (2016)
Scrimin P
Prins LJ et al., Multivalent Cooperative Catalysts.Current Organic Chemistry, 13, (11), 1050-1064, (2009)
Scrivano L
Parisi IO et al., Molecularly Imprinted Microrods via Mesophase Polymerization.Molecules, 23, (1), ArticleNo63-(2018)
Parisi OI et al., Smart Bandage Based on Molecularly Imprinted Polymers (MIPs) for Diclofenac Controlled Release.
Pharmaceuticals, 11, (4), ArticleNo93-(2018)
Scrivano L et al., Molecularly imprinted hydrogels for sustained release of sunitinib in breast cancer therapy.
Polymers for Advanced Technologies, 30, (3), 743-748, (2019)
Searson PC
Zayats M et al., Molecular Imprinting of Maltose Binding Protein: Tuning Protein Recognition at the Molecular Level.Macromolecules, 44, (10), 3966-3972, (2011)
Zayats M et al., Protein imprinting in polyacrylamide-based gels.
Biomaterials, 35, (30), 8659-8668, (2014)
Sebag A
Krull IS et al., Specific applications of capillary electrochromatography to biopolymers, including proteins, nucleic acids, peptide mapping, antibodies, and so forth.Journal of Chromatography A, 887, (1-2), 137-163, (2000)
Sebastian A
Piletska EV et al., Combinatorial screening of polymer nanoparticles for their ability to recognize epitopes of AAV-neutralizing antibodies.Journal of Molecular Recognition, 33, (4), Article_e2824-(2020)
Sebastian M
Sebastian M et al., Multiwalled carbon nanotube based ion imprinted polymer as sensor and sorbent for environmental hazardous cobalt ion.Journal of Macromolecular Science, Part A, 55, (6), 455-465, (2018)
Sebastian M et al., Ion imprinting approach for the fabrication of an electrochemical sensor and sorbent for lead ions in real samples using modified multiwalled carbon nanotubes.
Journal of Materials Science, 53, (5), 3557-3572, (2018)
Sebastiŕn V
Lacasta S et al., Chiral Imprinting with Amino Acids of Ordered Mesoporous Silica Exhibiting Enantioselectivity after Calcination.Chemistry of Materials, 23, (5), 1280-1287, (2011)
Sebastián RM
Samah NA et al., Molecularly imprinted polymer for the removal of diclofenac from water: Synthesis and characterization.Science of The Total Environment, 631-632, 1534-1543, (2018)
Sebastián V
Casado C et al., l- and d-Proline Adsorption by Chiral Ordered Mesoporous Silica.Langmuir, 28, (16), 6638-6644, (2012)
Sedenho GC
Beluomini MA et al., D-mannitol sensor based on molecularly imprinted polymer on electrode modified with reduced graphene oxide decorated with gold nanoparticles.Talanta, 165, 231-239, (2017)
Sedghi R
Sedghi R et al., Novel molecularly imprinted polymer based on [beta]-cyclodextrin@graphene oxide: Synthesis and application for selective diphenylamine determination.Journal of Colloid and Interface Science, 503, 47-56, (2017)
Sedghi R et al., Novel magnetic ion-imprinted polymer: an efficient polymeric nanocomposite for selective separation and determination of Pb ions in aqueous media.
Environmental Science and Pollution Research, 25, (26), 26297-26306, (2018)
Sedghi R et al., Thermo-responsive molecularly imprinted polymer containing magnetic nanoparticles: Synthesis, characterization and adsorption properties for curcumin.
Colloids and Surfaces B: Biointerfaces, 162, 154-162, (2018)
Sedghi R et al., Corrigendum to "Novel molecularly imprinted polymer based on [beta]-cyclodextrin@graphene oxide: Synthesis and its application for selective diphenylamine determination" [J. Colloid Interface Sci. 503 (2017) 47-56].
Journal of Colloid and Interface Science, 533, 781-781, (2019)
Shahnazi A et al., Synthesis of surface molecularly imprinted poly-o-phenylenediamine/TiO2/carbon nanodots with a highly enhanced selective photocatalytic degradation of pendimethalin herbicide under visible light.
Reactive and Functional Polymers, 151, Article104580-(2020)
Sedighi A
Omidi F et al., Coupling of Molecular Imprinted Polymer Nanoparticles by High Performance Liquid Chromatography as an Efficient Technique for Sensitive and Selective Trace Determination of 4-Chloro-2-Methylphenoxy Acetic Acid in Complex Matrices.Iranian Journal of Public Health, 43, (5), 645-657, (2014)
Omidi F et al., Application of molecular imprinted polymer nanoparticles as a selective solid phase extraction for preconcentration and trace determination of 2, 4-dichlorophenoxyacetic acid in the human urine and different water samples.
Journal of Environmental Health Science and Engineering, 12, Article No 137-(2014)
Sedki M
Hu JF et al., Chemiresistor sensor based on ion-imprinted polymer (IIP)-functionalized rGO for Cd(II) ions in water.Sensors and Actuators B: Chemical, 346, Article130474-(2021)
Sedov VM
Podosenova NG et al., Fullerene effects on the adsorption properties of silica gel with respect to low-density lipoproteides.Russian Journal of Physical Chemistry, 75, (11), 1871-1875, (2001)
Sedzik J
Takátsy A et al., Universal method for synthesis of artificial gel antibodies by the imprinting approach combined with a unique electrophoresis technique for detection of minute structural differences of proteins, viruses, and cells (bacteria): II. Gel antibodies against virus (Semliki Forest Virus).Journal of Separation Science, 29, (18), 2810-2815, (2006)
Sedzik J et al., Book chapter, Gels Mimicking Antibodies in Their Selective Recognition of Proteins and Its Potential Use for Protein Crystallization,
In: Molecules: Nucleation, Aggregation And Crystallization, Sedzik J, Riccio P (Eds.) World Scientific: 11-34, (2009)
See HH
See HH et al., Determination of triazine herbicides using membrane-protected carbon nanotubes solid phase membrane tip extraction prior to micro-liquid chromatography.Journal of Chromatography A, 1217, (11), 1767-1772, (2010)
Seebach A
Seebach A et al., Enantioseparation on molecularly imprinted monoliths--Preparation and adsorption isotherms.Analytica Chimica Acta, 591, (1), 57-62, (2007)
Seeber R
Vanossi D et al., Electropolymerization of ortho-phenylenediamine. Structural characterisation of the resulting polymer film and its interfacial capacitive behaviour.Journal of Electroanalytical Chemistry, 710, 22-28, (2013)
Seechamnanturakit V
Suedee R et al., Temperature sensitive dopamine-imprinted (N, N-methylene-bis-acrylamide cross-linked) polymer and its potential application to the selective extraction of adrenergic drugs from urine.Journal of Chromatography A, 1114, (2), 239-249, (2006)
Suedee R et al., Recognition Properties and Competitive Assays of a Dual Dopamine/Serotonin Selective Molecularly Imprinted Polymer.
International Journal of Molecular Sciences, 9, (12), 2333-2356, (2008)
Seechamnanturakit V et al., The Synthesis and Characterisation of Retinol-molecularly Imprinted Polymers as a Selective Sorbent in Solid-phase Extraction.
International Journal of Applied Science and Technology, 2, (7), 81-93, (2012)
Seeger S
Fukazawa K et al., Molecular-NANOintegrated surface for selective protein recognition by molecular imprinting concept.European Cells and Materials, 20, (Suppl 3), 86-86, (2010)
Fukazawa K et al., Direct observation of selective protein capturing on molecular imprinting substrates.
Biosensors and Bioelectronics, 40, (1), 96-101, (2013)
Segatelli MC
Tarley CRT et al., Development of selective preconcentration/clean-up method for imidazolinone herbicides determination in natural water and rice samples by HPLC-PAD using an imazethapyr imprinted poly(vinylimidazole-TRIM).Food Chemistry, 334, Article127345-(2021)
Segatelli MG
Tarley CRT et al., Amperometric determination of chloroguaiacol at submicromolar levels after on-line preconcentration with molecularly imprinted polymers.Talanta, 69, (1), 259-266, (2006)
de Avila TC et al., Employ of Silica Gel Organically Modified and Ionically Imprinted for Selective On-Line Preconcentration of Copper Ions.
Quimica Nova, 33, (2), 301-308, (2010)
Nacano LR et al., Selective Sorbent Enrichment of Nickel Ions from Aqueous Solutions using a Hierarchically Hybrid Organic-Inorganic Polymer Based on Double Imprinting Concept.
Journal of the Brazilian Chemical Society, 21, (3), 419-430, (2010)
Segatelli MG et al., Cadmium ion-selective sorbent preconcentration method using ion imprinted poly(ethylene glycol dimethacrylate-co-vinylimidazole).
Reactive and Functional Polymers, 70, (6), 325-333, (2010)
Sartori LR et al., Flow-based method for epinephrine determination using a solid reactor based on molecularly imprinted poly(FePP-MAA-EGDMA).
Materials Science and Engineering: C, 31, (2), 114-119, (2011)
Tarley CRT et al., Synthesis and application of imprinted polyvinylimidazole-silica hybrid copolymer for Pb2+ determination by flow-injection thermospray flame furnace atomic absorption spectrometry.
Analytica Chimica Acta, 703, (2), 145-151, (2011)
Tarley CRT et al., Enhanced Selectivity and Sensitivity for Flow Injection Spectrophotometric Determination of Cobalt Using Solid Phase Extraction with a 2D Ion-Imprinted Adsorbent.
Analytical Letters, 44, (1), 216-231, (2011)
Tarley CRT et al., Ion-imprinted polyvinylimidazole-silica hybrid copolymer for selective extraction of Pb(II): Characterization and metal adsorption kinetic and thermodynamic studies.
Reactive and Functional Polymers, 72, (1), 83-91, (2012)
de Oliveira FM et al., Kinetic and Isotherm Studies of Ni2+ Adsorption on Poly(methacrylic acid) Synthesized through a Hierarchical Double-Imprinting Method Using a Ni2+ Ion and Cationic Surfactant as Templates.
Industrial & Engineering Chemistry Research, 52, (25), 8550-8557, (2013)
Marestoni LD et al., Ion imprinted polymers: fundamentals, preparation strategies and applications in analytical chemistry.
Quimica Nova, 36, (8), 1194-1207, (2013)
de Oliveira FM et al., Application of Ni(II)-imprinted cross-linked poly(methacrylic acid) synthesised through double-imprinting method for the on-line preconcentration of Ni(II) ions in aqueous media.
International Journal of Environmental Analytical Chemistry, 94, (10), 1061-1071, (2014)
dos Santos QO et al., Synthesis, characterization and application of ion imprinted poly(vinylimidazole) for zinc ion extraction/preconcentration with FAAS determination.
Quimica Nova, 37, (1), 63-68, (2014)
Germiniano TO et al., Double-Imprinted Cross-Linked Poly(Acrylamide-co-Ethylene Glycol Dimethacrylate) as a Novel Sorbent for the On-Line Preconcentration and Determination of Copper(II) by Flame Atomic Absorption Spectrometry.
Analytical Letters, 48, (1), 61-74, (2014)
Germiniano TO et al., Synthesis of novel copper ion-selective material based on hierarchically imprinted cross-linked poly(acrylamide-co-ethylene glycol dimethacrylate).
Reactive and Functional Polymers, 82, 72-80, (2014)
Tarley CRT et al., Preparation of new ion-selective cross-linked poly(vinylimidazole-co-ethylene glycol dimethacrylate) using a double-imprinting process for the preconcentration of Pb2+ ions.
Journal of Colloid and Interface Science, 450, 254-263, (2015)
de Oliveira FM et al., Hybrid molecularly imprinted poly(methacrylic acid-TRIM)-silica chemically modified with (3-glycidyloxypropyl)trimethoxysilane for the extraction of folic acid in aqueous medium.
Materials Science and Engineering: C, 59, 643-651, (2016)
de Oliveira FM et al., Evaluation of a new water-compatible hybrid molecularly imprinted polymer combined with restricted access for the selective recognition of folic acid in binding assays.
Journal of Applied Polymer Science, 133, (21), ArticleNo43463-(2016)
dos Santos Moretti E et al., Synthesis of Surface Molecularly Imprinted Poly(methacrylic acid-hemin) on Carbon Nanotubes for the Voltammetric Simultaneous Determination of Antioxidants from Lipid Matrices and Biodiesel.
Electrochimica Acta, 212, 322-332, (2016)
Oliveira FM et al., Preparation of a new restricted access molecularly imprinted hybrid adsorbent for the extraction of folic acid from milk powder samples.
Analytical Methods, 8, (3), 656-665, (2016)
Basaglia AM et al., Synthesis of Pb(II)-imprinted poly(methacrylic acid) polymeric particles loaded with 1-(2-pyridylazo)-2-naphthol (PAN) for micro-solid phase preconcentration of Pb2+ on-line coupled to flame atomic absorption spectrometry.
RSC Advances, 7, (52), 33001-33011, (2017)
Tarley CRT et al., Preparation and application of nanocomposite based on imprinted poly(methacrylic acid)-PAN/MWCNT as a new electrochemical selective sensing platform of Pb2+ in water samples.
Journal of Electroanalytical Chemistry, 801, 114-121, (2017)
Tarley CRT et al., On-line micro-solid phase preconcentration of Cd2+ coupled to TS-FF-AAS using a novel ion-selective bifunctional hybrid imprinted adsorbent.
Microchemical Journal, 131, 57-69, (2017)
Casarin J et al., Insight into the performance of molecularly imprinted poly(methacrylic acid) and polyvinylimidazole for extraction of imazethapyr in aqueous medium.
Chemical Engineering Journal, 343, 583-596, (2018)
Kuceki M et al., Selective and sensitive voltammetric determination of folic acid using graphite/restricted access molecularly imprinted poly(methacrylic acid)/SiO2 composite.
Journal of Electroanalytical Chemistry, 818, 223-230, (2018)
de Cássia Mendonça J et al., Design and performance of novel molecularly imprinted biomimetic adsorbent for preconcentration of prostate cancer biomarker coupled to electrochemical determination by using multi-walled carbon nanotubes/NafionŽ/Ni(OH)2-modified screen-printed electrode.
Journal of Electroanalytical Chemistry, 878, Article114582-(2020)
de Oliveira LLG et al., Restricted access material-ion imprinted polymer-based method for on-line flow preconcentration of Cd2+ prior to flame atomic absorption spectrometry determination.
Microchemical Journal, 157, Article105022-(2020)
Segerink L
Abbas Y et al., Molecularly Imprinted Polymer-carbon Nanotube based Cotinine Sensor.Procedia Engineering, 168, 497-500, (2016)
Segundo MA
Boonjob W et al., Online Hyphenation of Multimodal Microsolid Phase Extraction Involving Renewable Molecularly Imprinted and Reversed-Phase Sorbents to Liquid Chromatography for Automatic Multiresidue Assays.Analytical Chemistry, 82, (7), 3052-3060, (2010)
Oliveira HM et al., Exploiting automatic on-line renewable molecularly imprinted solid-phase extraction in lab-on-valve format as front end to liquid chromatography: application to the determination of riboflavin in foodstuffs.
Analytical and Bioanalytical Chemistry, 397, (1), 77-86, (2010)
Miró M et al., Analytical potential of mesofluidic lab-on-a-valve as a front end to column-separation systems.
TrAC Trends in Analytical Chemistry, 30, (1), 153-164, (2011)
Osório MV et al., Fluorometric method based on molecular recognition solid-phase extraction for determination of riboflavin in milk and infant formula.
Journal of Food Composition and Analysis, 45, 141-146, (2016)
Segura A
Sánchez-Barragán I et al., Molecularly imprinted polymers based on iodinated monomers for selective room-temperature phosphorescence optosensing of fluoranthene in water.Analytical Chemistry, 77, (21), 7005-7011, (2005)
Segura Carretero A
Fernandez-Sanchez JF et al., A sensitive fluorescence optosensor for analysing propranolol in pharmaceutical preparations and a test for its control in urine in sport.Journal of Pharmaceutical and Biomedical Analysis, 31, (5), 859-865, (2003)
Segura-Carretero A
Salinas-Castillo A et al., Iodinated molecularly imprinted polymer for room temperature phosphorescence optosensing of fluoranthene.Chemical Communications, (25), 3224-3226, (2005)
Medina-Castillo AL et al., A semi-empirical model to simplify the synthesis of homogeneous and transparent cross-linked polymers and their application in the preparation of optical sensing films.
Biosensors and Bioelectronics, 25, (2), 442-449, (2009)
Valero-Navarro A et al., Chemometric-assisted MIP-optosensing system for the simultaneous determination of monoamine naphthalenes in drinking waters.
Talanta, 78, (1), 57-65, (2009)
Valero-Navarro A et al., The development of a MIP-optosensor for the detection of monoamine naphthalenes in drinking water.
Biosensors and Bioelectronics, 24, (7), 2305-2311, (2009)
Medina-Castillo AL et al., Novel Strategy To Design Magnetic, Molecular Imprinted Polymers with Well-Controlled Structure for the Application in Optical Sensors.
Macromolecules, 43, (1), 55-61, (2010)
Valero-Navarro A et al., Synthesis of caffeic acid molecularly imprinted polymer microspheres and high-performance liquid chromatography evaluation of their sorption properties.
Journal of Chromatography A, 1218, (41), 7289-7296, (2011)
Seguro I
Rebelo P et al., Molecularly imprinted polymer-based electrochemical sensors for environmental analysis.Biosensors and Bioelectronics, 172, Article112719-(2021)
Sehit E
Pirzada M et al., Cancer biomarker detection in human serum samples using nanoparticle decorated epitope-mediated hybrid MIP.Biosensors and Bioelectronics, 166, Article112464-(2020)
Sehit E et al., Ultrasensitive nonenzymatic electrochemical glucose sensor based on gold nanoparticles and molecularly imprinted polymers.
Biosensors and Bioelectronics, 165, Article112432-(2020)
Seidel D
Sellergren B et al., Imprinted polymers for selective adsorption of cholesterol from gastrointestinal fluids.Chemistry of Materials, 10, (12), 4037-4046, (1998)
Seidel J
Kirchner R et al., Calorimetric investigation of chiral recognition processes in a molecularly imprinted polymer.Journal of Inclusion Phenomena and Macrocyclic Chemistry, 43, (3-4), 279-283, (2002)
Seidel-Morgenstern A
Seebach A et al., Enantioseparation on molecularly imprinted monoliths--Preparation and adsorption isotherms.Analytica Chimica Acta, 591, (1), 57-62, (2007)
Seidi K
Seidi K et al., Nanomagnet-Based Detoxifying Machine: An Alternative/Complementary Approach in HIV therapy.AIDS & Clinical Research, 5, (5), Article 304-(2014)
Seidi S
Seidi S et al., Electrochemically assisted solid based extraction techniques: A review.Talanta, 132, 339-353, (2015)
Asiabi H et al., Preparation and evaluation of a novel molecularly imprinted polymer coating for selective extraction of indomethacin from biological samples by electrochemically controlled in-tube solid phase microextraction.
Analytica Chimica Acta, 913, 76-85, (2016)
Seidler K
Lieberzeit PA et al., Functional Materials for Biosensing-From Proteins to Cells and Pollen.Sensor Letters, 6, (4), 641-645, (2008)
Jenik M et al., Sensors for bioanalytes by imprinting--Polymers mimicking both biological receptors and the corresponding bioparticles.
Biosensors and Bioelectronics, 25, (1), 9-14, (2009)
Seidler K et al., Biomimetic Yeast Cell Typing-Application of QCMs.
Sensors, 9, (10), 8146-8157, (2009)
Seidler K et al., Application of yeast imprinting in biotechnology and process control.
Analyst, 134, (2), 361-366, (2009)
Seifi M
Seifi M et al., Preparation and study of tramadol imprinted micro-and nanoparticles by precipitation polymerization: Microwave irradiation and conventional heating method.International Journal of Pharmaceutics, 471, (1-2), 37-44, (2014)
Bakhshizadeh M et al., TiO2-based mitoxantrone imprinted poly (methacrylic acid-co-polycaprolctone diacrylate) nanoparticles as a drug delivery system.
Current Pharmaceutical Design, 23, (18), 2685-2694, (2017)
Bakhshizadeh M et al., Utilizing photosensitizing and radiosensitizing properties of TiO2-based mitoxantrone imprinted nanopolymer in fibrosarcoma and melanoma cells.
Photodiagnosis and Photodynamic Therapy, 25, 472-479, (2019)
Seifner A
Dickert FL et al., QCM-sensorik von Biopartikein: Von Nano zu Mikro - Von Bio zu Kunststoff - Von Sauerbrey zu Nichtsauerbrey.VDI Berichte, 2011, 43-52, (2008)
Dickert FL et al., Proceeding, Sensors for Healthcare Monitoring - Proteins, Viruses and Blood-Group-Typing,
Dössel O, Schlegel WC (Eds.), 325-328, (2009)
Jenik M et al., Sensors for bioanalytes by imprinting--Polymers mimicking both biological receptors and the corresponding bioparticles.
Biosensors and Bioelectronics, 25, (1), 9-14, (2009)
Jenik M et al., Pollen-imprinted polyurethanes for QCM allergen sensors.
Analytical and Bioanalytical Chemistry, 394, (2), 523-528, (2009)
Seifner A et al., Synthetic receptors for selectively detecting erythrocyte ABO subgroups.
Analytica Chimica Acta, 651, (2), 215-219, (2009)
Schirhagl R et al., Antibodies and Their Replicae in Microfluidic Sensor Systems-Labelfree Quality Assessment in Food Chemistry and Medicine.
Sensor Letters, 8, (3), 399-404, (2010)
Seigneuret JM
Henry N et al., Synthesis of water-compatible imprinted polymers of in situ produced fructosazine and 2, 5-deoxyfructosazine.Talanta, 99, 816-823, (2012)
Henry N et al., Synthesis of a molecularly imprinted polymer to isolate glucosamine from plant extracts by an ionic - non-covalent dual approach.
International Journal of Cosmetic Science, 37, (2), 196-206, (2015)
Seijas JA
Feás X et al., Syntheses of molecularly imprinted polymers: Molecular recognition of cyproheptadine using original print molecules and azatadine as dummy templates.Analytica Chimica Acta, 631, (2), 237-244, (2009)
Feás X et al., Use of acrylic acid in the synthesis of molecularly imprinted polymers for the analysis of cyproheptadine.
Materials Science and Engineering: C, 29, (2), 398-404, (2009)
Seitz WR
Lavine BK et al., Compound specific imprinted nanospheres for optical sensing.Abstracts of Papers of the American Chemical Society, 227, (IEC), 166-166, (2004)
Grenier CJ et al., Rapid, High Affinity Binding by a Fluorescein Templated Copolymer Combining Covalent, Hydrophobic, and Acid-Base Noncovalent Crosslinks.
Sensors, 18, (5), ArticleNo1330-(2018)
Ahmad HMN et al., Proceeding, Non-Enzymatic Electrochemical Detection Of Glutamate Using Templated Polymer-Based Target Receptors,
613-616, (2019)
Seixas RD
Betlem K et al., Evaluating the temperature dependence of heat-transfer based detection: A case study with caffeine and Molecularly Imprinted Polymers as synthetic receptors.Chemical Engineering Journal, 359, 505-517, (2019)
Sekar N
Padalkar VS et al., Synthesis of triazine based dialdehyde Schiff's base - new templates for Molecular Imprinting and study of their structural and photophysical properties.Arabian Journal of Chemistry, 9, (Supplement 2), S1793-S1800, (2016)
Sekeira F
Lopes N et al., Fiber optic sensor modified by grafting of the molecularly imprinted polymer for the detection of ammonium in aqueous media.Scientific and Technical Journal of Information Technologies, Mechanics and Optics, 15, (4), 568-577, (2015)
Seker F
Nickel AML et al., Improving selectivity of CdSe chemical sensors using molecular imprinting.Abstracts of Papers of the American Chemical Society, 220, (INOR), 431-431, (2000)
Nickel AML et al., Imprinted poly(acrylic acid) films on cadmium selenide. A composite sensor structure that couples selective amine binding with semiconductor substrate photoluminescence.
Chemistry of Materials, 13, (4), 1391-1397, (2001)
Sekhar K
Boopathi M et al., Plastic antibody for the recognition of chemical warfare agent sulphur mustard.Biosensors and Bioelectronics, 21, (12), 2339-2344, (2006)
Baghel A et al., Synthesis and characterization of metal ion imprinted nano-porous polymer for the selective recognition of copper.
Biosensors and Bioelectronics, 22, (12), 3326-3334, (2007)
Sekhar P
Pandey I et al., Electrochemically synthesized new class of molecularly imprinted poly-rhodamine b nanodots for the detection of nutritional anaemia biomarker-bovine haemoglobin in salt-sick cattle.Microsystem Technologies, 24, (10), 4225-4235, (2018)
Sekhar VC
Deepa JR et al., Electrochemical sensing of methylmalonic acid based on molecularly imprinted polymer modified with graphene oxide and gold nanoparticles.Microchemical Journal, 159, Article105489-(2020)
Seki M
Yoshimi Y et al., Blood heparin sensor made from a paste electrode of graphite particles grafted with molecularly imprinted polymer.Sensors and Actuators B: Chemical, 259, 455-462, (2018)
Yoshimi Y et al., Corrigendum to "Blood heparin sensor made from a paste electrode of graphite particles grafted with molecularly imprinted polymer" [Sens. Actuators B: Chem. 259 (2018) 455-462].
Sensors and Actuators B: Chemical, 333, Article129588-(2021)
Sekiguti T
Arai T et al., Catalyst analogueSekine S
Sekine S et al., Chiral sensing in organic solvent using gate effect of molecularly imprinted polymer.Chem Sens, 21, (Supplement B), 22-24, (2005)
Yoshimi Y et al., Development of an enzyme-free glucose sensor using the gate effect of a molecularly imprinted polymer.
Journal of Artificial Organs, 12, (4), 264-270, (2009)
Yoshimi Y et al., Chiral-Discriminative Gate Effect in Self-Supporting Phenylalanine-Imprinted Poly(Methacrylic Acid-co-2-Vinylpyridine-co-Triethyleneglycol Dimethacrylate) Membrane.
Journal of Chemical Engineering of Japan, 42, (8), 600-606, (2009)
Sekine SI
Nakayama T et al., Proceeding, Star shaped molecularly imprinted polymer working as a drug carrier,(2006)
Sekine SI et al., Proceeding, Development of an amperometric sensor for chiral recognition in organic solvent using the gate effect of molecularly imprinted polymer,
(2006)
Yoshimi Y et al., Star shaped molecularly imprinted polymer.
Polymer Preprints, Japan, 55, (2), 5404-5405, (2006)
Sekine SI et al., Influence of solvents on chiral discriminative gate effect of molecularly imprinted poly(ethylene glycol dimethacrylate-co-methacrylic acid).
Sensors and Actuators B: Chemical, 127, (2), 512-517, (2007)
Sekiyama M
Sekiyama M et al., Molecular shape-selective detection by tin oxide film sensor modified with chemical vapor deposition of molecular-sieving silica overlayer using organic template.Sensors and Actuators B: Chemical, 124, (2), 398-406, (2007)
Seko A
Takeuchi T et al., Molecularly imprinted polymer library on a microtiter plate. High-throughput synthesis and assessment of cinchona alkaloid-imprinted polymers.Instrumentation Science & Technology, 29, (1), 1-9, (2001)
Takeuchi T et al., Molecularly imprinted polymers with signaling function based on the UV-Vis spectral change by diastereoselective binding events.
Bulletin of the Chemical Society of Japan, 78, (2), 356-360, (2005)
Sekul J
Bryla M et al., Application of molecularly imprinted polymers to determine B1, B2, and B3 fumonisins in cereal products.Journal of Separation Science, 36, (3), 578-584, (2013)
Sel O
Agrisuelas J et al., Evaluation of the electrochemical anion recognition of NO3(-)-imprinted poly(Azure A) in NO3(-):Cl(-) mixed solutions by ac-electrogravimetry.Electrochimica Acta, 194, 292-303, (2016)
Selahle SK
Mpupa A et al., Recent Advances in Solid-Phase Extraction (SPE) Based on Molecularly Imprinted Polymers (MIPs) for Analysis of Hormones.Chemosensors, 9, (7), ArticleNo151-(2021)
Selambakkannu S
Selambakkannu S et al., Preparation and optimization of thorium selective ion imprinted nonwoven fabric grafted with poly(2-dimethylaminoethyl methacrylate) by electron beam irradiation technique.Journal of Environmental Chemical Engineering, 8, (3), Article103737-(2020)
Selemenev VF
Zyablov AN et al., Determination of glycine in aqueous solutions using a molecularly imprinted polymer-modified piezosensor (published in Zhurnal Analiticheskoi Khimii, 2010, Vol. 65, No. 1, pp. 93-95.).Journal of Analytical Chemistry, 65, (1), 91-93, (2010)
Zyablov AN et al., Monitoring of valine with a modified piezoelectric sensor coupled to ion-exchange isolation.
Journal of Analytical Chemistry, 68, (4), 305-306, (2013)
Cao NL et al., Modeling of palmitic and oleic acids imprinted polymers based on polyamidoacid.
Sorption and Chromatographic Processes, 15, (4), 421-428, (2015)
Duvanova OV et al., Use of Piezoelectric Sensors for the Determination of Oleic and Palmitic Acids in Vegetable Oils.
Inorganic Materials, 54, (14), 1387-1391, (2018)
Selimovic S
Selimovic S et al., Research highlights.Lab on a Chip, 13, (9), 1662-1665, (2013)
Sellborn A
Berglin M et al., Fibrinogen Adsorption and Conformational Change on Model Polymers: Novel Aspects of Mutual Molecular Rearrangement.Langmuir, 25, (10), 5602-5608, (2009)
Sellergren B
Andersson L et al., Imprinting of amino-acid derivatives in macroporous polymers.Tetrahedron Letters, 25, (45), 5211-5214, (1984)
Glad M et al., Use of silane monomers for molecular imprinting and enzyme entrapment in polysiloxane-coated porous silica.
Journal of Chromatography, 347, (1), 11-23, (1985)
Sellergren B et al., Molecular imprinting of amino-acid derivatives in macroporous polymers - demonstration of substrate-selectivity and enantio-selectivity by chromatographic resolution of racemic mixtures of amino-acid derivatives.
Journal of Chromatography, 347, (1), 1-10, (1985)
Sellergren B et al., Highly enantioselective and substrate-selective polymers obtained by molecular imprinting utilizing noncovalent interactions - NMR and chromatographic studies on the nature of recognition.
Journal of the American Chemical Society, 110, (17), 5853-5860, (1988)
Sellergren B et al., Enantio-selective and substrate-selective macroporous polymers by molecular imprinting.
Reactive Polymers, Ion Exchangers, Sorbents, 9, (1), 125-125, (1988)
Lepistö M et al., Discrimination between amino-acid amide conformers by imprinted polymers.
Journal of Organic Chemistry, 54, (26), 6010-6012, (1989)
Sellergren B, Molecular imprinting by noncovalent interactions - tailor-made chiral stationary phases of high selectivity and sample load-capacity.
Chirality, 1, (1), 63-68, (1989)
Sellergren B et al., Molecular imprinting by multiple noncovalent host-guest interactions: synthetic polymers with induced specificity.
Methods in Molecular and Cellular Biology, 59-62, (1989)
Sellergren B, Molecular imprinting by noncovalent interactions - enantioselectivity and binding-capacity of polymers prepared under conditions favoring the formation of template complexes.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 190, (11), 2703-2711, (1989)
Sellergren B et al., Molecular recognition in macroporous polymers prepared by a substrate-analog imprinting strategy.
Journal of Organic Chemistry, 55, (10), 3381-3383, (1990)
Sellergren B, Book chapter, Molecular Imprinting by non-covalent interactions,
In: Innovations and Perspectives in Solid Phase Synthesis. Peptides, Polypeptides and Oligonucleotides, Epton R (Ed.) SPCC (UK): Birmingham, 293-307, (1990)
Sellergren B et al., Influence of polymer morphology on the ability of imprinted network polymers to resolve enantiomers.
Journal of Chromatography, 635, (1), 31-49, (1993)
Sellergren B et al., Chiral ion-exchange chromatography - correlation between solute retention and a theoretical ion-exchange model using imprinted polymers.
Journal of Chromatography A, 654, (1), 17-28, (1993)
Shea KJ et al., Polymer complements to nucleotide bases - selective binding of adenine-derivatives to imprinted polymers.
Journal of the American Chemical Society, 115, (8), 3368-3369, (1993)
Nilsson K et al., Imprinted polymers as antibody mimetics and new affinity gels for selective separations in capillary electrophoresis.
Journal of Chromatography A, 680, (1), 57-61, (1994)
Sellergren B, Book chapter, Enantiomer separation using tailor-made phases prepared by molecular imprinting,
In: A Practical Approach to Chiral Separations by Liquid Chromatography, Subramanian G (Ed.) Wiley-VCH: Weinheim, Ch. 4, 69-93, (1994)
Sellergren B, Direct drug determination by selective sample enrichment on an imprinted polymer.
Analytical Chemistry, 66, (9), 1578-1582, (1994)
Sellergren B et al., Enantioselective ester hydrolysis catalyzed by imprinted polymers.
Tetrahedron: Asymmetry, 5, (8), 1403-1406, (1994)
Sellergren B, Imprinted dispersion polymers - a new class of easily accessible affinity stationary phases.
Journal of Chromatography A, 673, (1), 133-141, (1994)
Sellergren B et al., Origin of peak asymmetry and the effect of temperature on solute retention in enantiomer separations on imprinted chiral stationary phases.
Journal of Chromatography A, 690, (1), 29-39, (1995)
Dauwe C et al., Influence of template basicity and hydrophobicity on the molecular recognition properties of molecularly imprinted polymers.
Journal of Chromatography A, 753, (2), 191-200, (1996)
Sellergren B et al., Solvent dependent specific driving forces in the molecular recognition in imprinted polymers.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 27-27, (1997)
Sellergren B et al., Pressure-induced binding sites in molecularly imprinted network polymers.
Macromolecules, 30, (8), 2454-2459, (1997)
Sellergren B, Noncovalent molecular imprinting: Antibody-like molecular recognition in polymeric network materials.
TrAC Trends in Analytical Chemistry, 16, (6), 310-320, (1997)
Sellergren B, Imprinted Polymers: Stable, reusable antibody-mimics for highly selective separations.
International Laboratory, (July), 10A-10F, (1997)
Sellergren B, Imprinted polymers: Stable, reusable antibody-mimics for highly selective separations.
American Laboratory, 29, 14-14, (1997)
Sellergren B, Important considerations in the ''design'' of receptor sites using noncovalent imprinting.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 97-97, (1997)
Armstrong DW et al., Bubble fractionation of enatiomers from solution using molecularly imprinted polymers as collectors.
Analytical Chemistry, 70, (17), 3717-3719, (1998)
Sajonz P et al., Study of the thermodynamics and mass transfer kinetics of two enantiomers on a polymeric imprinted stationary phase.
Journal of Chromatography A, 810, (1-2), 1-17, (1998)
Sellergren B, Molecular imprinting for selective solid-phase extractions in bioanalysis.
Journal de Pharmacie de Belgique, 53, (3), 121-121, (1998)
Sellergren B, Book chapter, Important considerations in the design of receptor sites using noncovalent imprinting,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 4, 49-80, (1998)
Sellergren B et al., Imprinted polymers for selective adsorption of cholesterol from gastrointestinal fluids.
Chemistry of Materials, 10, (12), 4037-4046, (1998)
Zander A et al., Analysis of nicotine and its oxidation products in nicotine chewing gum by a molecularly imprinted solid phase extraction.
Analytical Chemistry, 70, (15), 3304-3314, (1998)
Chen YB et al., Influence of thermal annealing on the thermodynamic and mass transfer kinetic properties of D- and L-phenylalanine anilide on imprinted polymeric stationary phases.
Analytical Chemistry, 71, (5), 928-938, (1999)
Lanza F et al., Method for synthesis and screening of large groups of molecularly imprinted polymers.
Analytical Chemistry, 71, (11), 2092-2096, (1999)
Mullett WM et al., Determination of nicotine in tobacco by molecularly imprinted solid phase extraction with differential pulsed elution.
Analytical Communications, 36, (6), 217-220, (1999)
Sellergren B, Polymer- and template-related factors influencing the efficiency in molecularly imprinted solid-phase extractions.
TrAC Trends in Analytical Chemistry, 18, (3), 164-174, (1999)
Ellwanger A et al., Application of molecularly imprinted polymers in supercritical fluid chromatography.
Journal of Chromatography A, 897, (1-2), 317-327, (2000)
Ferrer I et al., Selective trace enrichment of chlorotriazine pesticides from natural waters and sediment samples using terbuthylazine molecularly imprinted polymers.
Analytical Chemistry, 72, (16), 3934-3941, (2000)
Sellergren B et al., Enantioselective ester hydrolysis catalyzed by imprinted polymers. 2.
Journal of Organic Chemistry, 65, (13), 4009-4027, (2000)
Sellergren B, Imprinted polymers with memory for small molecules, proteins, or crystals.
Angewandte Chemie International Edition, 39, (6), 1031-1037, (2000)
Sellergren B et al., Application of imprinted synthetic polymers in binding assay development.
Methods-A Companion To Methods In Enzymology, 22, (1), 92-106, (2000)
Bereczki A et al., Determination of phenytoin in plasma by molecularly imprinted solid-phase extraction.
Journal of Chromatography A, 930, (1-2), 31-38, (2001)
Chen YB et al., Influence of the pH on the behavior of an imprinted polymeric stationary phase - supporting evidence for a binding site model.
Journal of Chromatography A, 927, (1-2), 1-17, (2001)
Ellwanger A et al., Evaluation of methods aimed at complete removal of template from molecularly imprinted polymers.
Analyst, 126, (6), 784-792, (2001)
Koeber R et al., Evaluation of a multidimensional solid-phase extraction platform for highly selective on-line cleanup and high- throughput LC-MS analysis of triazines in river water samples using molecularly imprinted polymers.
Analytical Chemistry, 73, (11), 2437-2444, (2001)
Lanza F et al., The application of molecular imprinting technology to solid phase extraction.
Chromatographia, 53, (11-12), 599-611, (2001)
Lanza F et al., Development of a semiautomated procedure for the synthesis and evaluation of molecularly imprinted polymers applied to the search for functional monomers for phenytoin and nifedipine.
Analytica Chimica Acta, 435, (1), 91-106, (2001)
Lanza F et al., Book chapter, Molecularly imprinted extraction materials for highly selective sample cleanup and analyte enrichment,
In: Advances in Chromatography, Brown PR, Grushka E (Eds.) Marcel Dekker: Ch. 4, 137-173, (2001)
Quaglia M et al., Target analogue imprinted polymers with affinity for folic acid and related compounds.
Journal of the American Chemical Society, 123, (10), 2146-2154, (2001)
Quaglia M et al., Surface initiated molecularly imprinted polymer films: a new approach in chiral capillary electrochromatography.
Analyst, 126, (9), 1495-1498, (2001)
Sellergren B et al., Book chapter, Molecularly imprinted polymers in solid phase extractions,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 15, 355-375, (2001)
Sellergren B, Book chapter, The non-covalent approach to molecular imprinting,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 5, 113-184, (2001)
Sellergren B, Book chapter, Enantiomer separations using designed imprinted chiral phases,
In: Chiral Separation Techniques: A Practical Approach, Subramanian G (Ed.) Wiley-VCH Verlag GmbH: Weinheim, Ch. 6, 153-184, (2001)
Sellergren B et al., Book chapter, Fundamentals aspects on the synthesis and characterization of imprinted network polymers,
In: Molecularly Imprinted Polymers: Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry, Sellergren B (Ed.) Elsevier: Amsterdam, Ch. 2, 21-57, (2001)
Sellergren B, Imprinted chiral stationary phases in high-performance liquid chromatography.
Journal of Chromatography A, 906, (1-2), 227-252, (2001)
Blomgren A et al., Extraction of clenbuterol from calf urine using a molecularly imprinted polymer followed by quantitation by high-performance liquid chromatography with UV detection.
Journal of Chromatography A, 975, (1), 157-164, (2002)
Dirion B et al., Selective solid phase extraction of a drug lead compound using molecularly imprinted polymers prepared by the target analogue approach.
Chromatographia, 56, (3-4), 237-241, (2002)
Pap T et al., Effect of solvents on the selectivity of terbutylazine imprinted polymer sorbents used in solid-phase extraction.
Journal of Chromatography A, 973, (1-2), 1-12, (2002)
Rückert B et al., Molecularly imprinted composite materials via iniferter-modified supports.
Journal of Materials Chemistry, 12, (8), 2275-2280, (2002)
Sellergren B et al., Layer-by-layer grafting of molecularly imprinted polymers via iniferter modified supports (vol 14, pg 1204, 2002).
Advanced Materials, 14, (19), 1335-1335, (2002)
Sellergren B et al., Layer-by-layer grafting of molecularly imprinted polymers via iniferter modified supports.
Advanced Materials, 14, (17), 1204-1208, (2002)
Sulitzky C et al., Grafting of molecularly imprinted polymer films on silica supports containing surface-bound free radical initiators (vol 35, pg 79, 2002).
Macromolecules, 35, (8), 3314-3314, (2002)
Sulitzky C et al., Grafting of molecularly imprinted polymer films on silica supports containing surface-bound free radical initiators.
Macromolecules, 35, (1), 79-91, (2002)
Szabelski P et al., Energetic heterogeneity of the surface of a molecularly imprinted polymer studied by high-performance liquid chromatography.
Journal of Chromatography A, 964, (1-2), 99-111, (2002)
Titirici MM et al., Hierarchically imprinted stationary phases: Mesoporous polymer beads containing surface-confined binding sites for adenine.
Chemistry of Materials, 14, (1), 21-23, (2002)
Chapuis F et al., Optimization of the class-selective extraction of triazines from aqueous samples using a molecularly imprinted polymer by a comprehensive approach of the retention mechanism.
Journal of Chromatography A, 999, (1-2), 23-33, (2003)
Dirion B et al., Water-compatible molecularly imprinted polymers obtained via high-throughput synthesis and experimental design.
Journal of the American Chemical Society, 125, (49), 15101-15109, (2003)
Hall AJ et al., A substructure approach toward polymeric receptors targeting dihydrofolate reductase inhibitors. 2. Molecularly imprinted polymers against Z-L-glutamic acid showing affinity for larger molecules.
Journal of Organic Chemistry, 68, (23), 9132-9135, (2003)
Quaglia M et al., Molecularly imprinted polymer films grafted from porous or nonporous silica: Novel affinity stationary phases in capillary electrochromatography.
Electrophoresis, 24, (6), 952-957, (2003)
Sellergren B, Book chapter, Imprinted Monoliths,
In: Monolithic Materials - Preparation, Properties and Applications, Svec F, Tennikova TB, Deyl Z (Eds.) Elsevier: Ch. 13, 277-300, (2003)
Sellergren B, Making the most of MIPs: Report on MIP 2002 (the Second International Workshop on Molecularly Imprinted Polymers and Related Technologies), held at La Grande Motte, France, 16-19 September 2002.
TrAC Trends in Analytical Chemistry, 22, (2), xii-xxii, (2003)
Stanley BJ et al., Affinity distributions of a molecularly imprinted polymer calculated numerically by the expectation-maximization method.
Langmuir, 19, (3), 772-778, (2003)
Titirici MM et al., Hierarchical imprinting using crude solid phase peptide synthesis products as templates.
Chemistry of Materials, 15, (4), 822-824, (2003)
Chapuis F et al., Retention mechanism of analytes in the solid-phase extraction process using molecularly imprinted polymers - Application to the extraction of triazines from complex matrices.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 93-101, (2004)
Chassaing C et al., Molecularly imprinted polymers for the determination of a pharmaceutical development compound in plasma using 96-well MISPE technology.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 71-81, (2004)
Dirion B et al., Book chapter, Development of a high throughput synthesis technique for the optimization of MIPs for 17[beta]-estradiol,
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 9, 53-60, (2004)
Lanza F et al., Molecularly imprinted polymers via high-throughput and combinatorial techniques.
Macromolecular Rapid Communications, 25, (1), 59-68, (2004)
Machtejevas E et al., Screening of oxazepine indole enantiomers by means of high performance liquid chromatography with imprinted polymer stationary phase.
Journal of Separation Science, 27, (7-8), 547-551, (2004)
Manesiotis P et al., An enantioselective imprinted receptor for Z-glutamate exhibiting a binding induced color change.
Chemical Communications, (20), 2278-2279, (2004)
Quaglia M et al., Approaches to imprinted stationary phases for affinity capillary electrochromatography.
Journal of Chromatography A, 1044, (1-2), 53-66, (2004)
Titirici MM et al., Peptide recognition via hierarchical imprinting.
Analytical and Bioanalytical Chemistry, 378, (8), 1913-1921, (2004)
Hall AJ et al., Book chapter, Imprinted polymers,
In: Templates in Chemistry II, Schalley CA, Vögtle F, Dötz KH (Eds.) Springer Verlag: Berlin, Ch. 7, 317-349, (2005)
Hall AJ et al., Urea host monomers for stoichiometric molecular imprinting of oxyanions.
Journal of Organic Chemistry, 70, (5), 1732-1736, (2005)
Hall AJ et al., Non-covalent imprinting of phosphorous esters.
Analytica Chimica Acta, 538, (1-2), 9-14, (2005)
Hall AJ et al., Erratum to "Non-covalent imprinting of phosphorous esters": [Analytica Chimica Acta 538 (2005) 9-14].
Analytica Chimica Acta, 540, (2), 417-417, (2005)
Lanza F et al., Book chapter, Combinatorial approaches to molecular imprinting,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 8, 225-248, (2005)
Manesiotis P et al., Improved imide receptors by imprinting using pyrimidine-based fluorescent reporter monomers.
Journal of Organic Chemistry, 70, (7), 2729-2738, (2005)
Manesiotis P et al., An artificial riboflavin receptor prepared by a template analogue imprinting strategy.
Angewandte Chemie International Edition, 44, (25), 3902-3906, (2005)
Sellergren B et al., Molecularly imprinted polymers: A bridge to advanced drug delivery.
Advanced Drug Delivery Reviews, 57, (12), 1733-1741, (2005)
Tamayo FG et al., Synthesis and evaluation of new propazine-imprinted polymer formats for use as stationary phases in liquid chromatography.
Analytica Chimica Acta, 542, (1), 38-46, (2005)
Xia Y et al., Analysis of the Tobacco-Specific Nitrosamine 4-(Methylnitrosamino)-1-(3-pyridyl)-1-butanol in Urine by Extraction on a Molecularly Imprinted Polymer Column and Liquid Chromatography/Atmospheric Pressure Ionization Tandem Mass Spectrometry.
Analytical Chemistry, 77, (23), 7639-7645, (2005)
Courtois J et al., Molecularly imprinted polymers grafted to flow through poly(trimethylolpropane trimethacrylate) monoliths for capillary-based solid-phase extraction.
Journal of Chromatography A, 1109, (1), 92-99, (2006)
Hall AJ et al., Polymeric Receptors for the Recognition of Folic Acid and Related Compounds via Substructure Imprinting.
Analytical Chemistry, 78, (24), 8362-8367, (2006)
Sellergren B, Ionization State Selective Modification of Carboxyl Groups in Molecularly Imprinted Polymers: Supporting Evidence for a Binding Site Model.
Macromolecules, 39, (18), 6306-6309, (2006)
Sellergren B, Book chapter, Recognition of enantiomers using molecularly imprinted polymers,
In: Molecular imprinting of polymers, Piletsky S, Turner A (Eds.) Landes Bioscience: Georgetown, Texas, Ch. 8, 95-121, (2006)
Titirici MM et al., Thin molecularly imprinted polymer films via reversible addition-fragmentation chain transfer polymerization.
Chemistry of Materials, 18, (7), 1773-1779, (2006)
Urraca JL et al., A Stoichiometric Molecularly Imprinted Polymer for the Class-Selective Recognition of Antibiotics in Aqueous Media.
Angewandte Chemie International Edition, 45, (31), 5158-5161, (2006)
Cobb Z et al., Water-compatible molecularly imprinted polymers for efficient direct injection on-line solid-phase extraction of ropivacaine and bupivacaine from human plasma.
Analyst, 132, (12), 1262-1271, (2007)
Oxelbark J et al., Chromatographic comparison of bupivacaine imprinted polymers prepared in crushed monolith, microsphere, silica-based composite and capillary monolith formats.
Journal of Chromatography A, 1160, (1-2), 215-226, (2007)
Sellergren B, Book chapter, Separation of Enantiomers Using Molecularly Imprinted Polymers,
In: Chiral Separation Techniques, Subramanian G (Ed.) WILEY-VCH Verlag GmbH & Co.: Weinheim, Ch. 12, 399-431, (2007)
Skogsberg U et al., A solid-state and suspended-state magic angle spinning nuclear magnetic resonance spectroscopic investigation of a 9-ethyladenine molecularly imprinted polymer.
Polymer, 48, (1), 229-238, (2007)
Urraca JL et al., Direct Extraction of Penicillin G and Derivatives from Aqueous Samples Using a Stoichiometrically Imprinted Polymer.
Analytical Chemistry, 79, (2), 695-701, (2007)
Urraca JL et al., Molecularly Imprinted Polymers as Antibody Mimics in Automated On-Line Fluorescent Competitive Assays.
Analytical Chemistry, 79, (13), 4915-4923, (2007)
Benito-Peńa E et al., Solid-phase extraction of fluoroquinolones from aqueous samples using a water-compatible stochiometrically imprinted polymer.
Journal of Chromatography A, 1208, (1-2), 62-70, (2008)
Emgenbroich M et al., A Phosphotyrosine-Imprinted Polymer Receptor for the Recognition of Tyrosine Phosphorylated Peptides.
Chemistry - A European Journal, 14, (31), 9516-9529, (2008)
Bhaskarapillai A et al., Synthesis and Characterization of Imprinted Polymers for Radioactive Waste Reduction.
Industrial & Engineering Chemistry Research, 48, (8), 3730-3737, (2009)
Bhaskarapillai A et al., Theoretical investigations of the experimentally observed selectivity of a cobalt imprinted polymer.
Biosensors and Bioelectronics, 25, (3), 558-562, (2009)
Greibrokk T et al., Molecular imprinting in Separation Science (Editorial).
Journal of Separation Science, 32, (19), 3263-3264, (2009)
Krupadam RJ et al., Fluorescence Spectrophotometer Analysis of Polycyclic Aromatic Hydrocarbons in Environmental Samples Based on Solid Phase Extraction Using Molecularly Imprinted Polymer.
Environmental Science & Technology, 43, (8), 2871-2877, (2009)
Manesiotis P et al., Water-compatible imprinted polymers for selective depletion of riboflavine from beverages.
Journal of Materials Chemistry, 19, (33), 6185-6193, (2009)
Sellergren B et al., Book chapter, Experimental Combinatorial Methods in Molecular Imprinting,
In: Combinatorial Methods for Chemical and Biological Sensors, Potyrailo RA, Mirsky VM (Eds.) Springer: New York, Ch. 7, 173-198, (2009)
Bhaskarapillai A et al., One in a billion.
Nuclear Engineering International, 55, (672), 22-24, (2010)
Sellergren B, Molecularly imprinted polymers: Shaping enzyme inhibitors.
Nature Chemistry, 2, (1), 7-8, (2010)
Sellergren B et al., Book chapter, The Use of Molecularly Imprinted Polymers for Sampling and Sample Preparation,
In: Handbook of Sample Preparation, Pawliszyn J, Lord HL (Eds.) John Wiley & Sons: Hoboken, New Jersey, Ch. 23, 445-474, (2010)
Ambrosini S et al., Synthesis and chromatographic evaluation of molecularly imprinted polymers prepared by the substructure approach for the class-selective recognition of glucuronides.
Journal of Chromatography A, 1218, (39), 6961-6969, (2011)
Borrelli C et al., Selective Depletion of Riboflavine from Beer Using Membranes Incorporating Imprinted Polymer Particles.
Journal of Food Processing and Preservation, 35, (1), 112-128, (2011)
Helling S et al., Ultratrace Enrichment of Tyrosine Phosphorylated Peptides on an Imprinted Polymer.
Analytical Chemistry, 83, (5), 1862-1865, (2011)
Nematollahzadeh A et al., High-Capacity Hierarchically Imprinted Polymer Beads for Protein Recognition and Capture.
Angewandte Chemie International Edition, 50, (2), 495-498, (2011)
Prieto A et al., Selective determination of estrogenic compounds in water by microextraction by packed sorbents and a molecularly imprinted polymer coupled with large volume injection-in-port-derivatization gas chromatography-mass spectrometry.
Analytica Chimica Acta, 703, (1), 41-51, (2011)
Urraca JL et al., Polymeric Complements to the Alzheimer's Disease Biomarker [beta]-Amyloid Isoforms A[beta]1-40 and A[beta]1-42 for Blood Serum Analysis under Denaturing Conditions.
Journal of the American Chemical Society, 133, (24), 9220-9223, (2011)
Ambrosini S et al., Glucuronide directed molecularly imprinted solid-phase extraction: isolation of testosterone glucuronide from its parent drug in urine.
Analyst, 137, (1), 249-254, (2012)
Halhalli MR et al., An improved grafting technique for producing imprinted thin film composite beads.
Polymer Chemistry, 3, (4), 1033-1042, (2012)
Halhalli MR et al., Thin Walled Imprinted Polymer Beads Featuring Both Uniform and Accessible Binding Sites.
Chemistry of Materials, 24, (15), 2909-2919, (2012)
Martín-Esteban A et al., Book chapter, 2.17 - Molecularly Imprinted Polymers,
In: Comprehensive Sampling and Sample Preparation, Pawliszyn J (Ed.) Academic Press: Oxford, Ch. 17, 331-344, (2012)
Schillinger E et al., An Artificial Estrogen Receptor through Combinatorial Imprinting.
Chemistry - A European Journal, 18, (46), 14773-14783, (2012)
Sellergren B et al., Book chapter, Molecularly Imprinted Polymers,
In: Supramolecular Chemistry, Gale P, Steed J (Eds.) John Wiley & Sons, Ltd: 3255-3282, (2012)
Shinde S et al., Imprinted Polymers Displaying High Affinity for Sulfated Protein Fragments.
Angewandte Chemie International Edition, 51, (33), 8326-8329, (2012)
Székely G et al., A hybrid approach to reach stringent low genotoxic impurity contents in active pharmaceutical ingredients: Combining molecularly imprinted polymers and organic solvent nanofiltration for removal of 1, 3-diisopropylurea.
Separation and Purification Technology, 86, (1), 79-87, (2012)
Székely G et al., Design, preparation and characterization of novel molecularly imprinted polymers for removal of potentially genotoxic 1, 3-diisopropylurea from API solutions.
Separation and Purification Technology, 86, (1), 190-198, (2012)
Székely G et al., Removal of potentially genotoxic acetamide and arylsulfonate impurities from crude drugs by molecular imprinting.
Journal of Chromatography A, 1240, (1), 52-58, (2012)
Azenha M et al., Vapor-phase testing of the memory-effects in benzene- and toluene-imprinted polymers conditioned at elevated temperature.
Analytica Chimica Acta, 802, 40-45, (2013)
Halhalli MR et al., Cover and uncover: chiral switching exploiting templating and layer-by-layer grafting.
Chemical Communications, 49, (64), 7111-7113, (2013)
Kadhirvel P et al., Imidazolium-based functional monomers for the imprinting of the anti-inflammatory drug naproxen: Comparison of acrylic and sol-gel approaches.
Journal of Chromatography A, 1314, 115-123, (2013)
Nematollahzadeh A et al., Molecularly imprinted polydopamine nano-layer on the pore surface of porous particles for protein capture in HPLC column.
Journal of Colloid and Interface Science, 404, 117-126, (2013)
Olsson GD et al., Theoretical Studies of 17-[beta]-Estradiol-Imprinted Prepolymerization Mixtures: Insights Concerning the Roles of Cross-Linking and Functional Monomers in Template Complexation and Polymerization.
Industrial & Engineering Chemistry Research, 52, (39), 13965-13970, (2013)
Ramezany F et al., Application of Molecularly Imprinted Polymers in Analysis and Detoxification of Colocynth: Resurgence of an Obscure Ancient Botanical.
Planta Medica, 79, (5), 67-(2013)
Sellergren B et al., Book chapter, Synthetic Chemistry in Molecular Imprinting,
In: Molecular Imprinting: Principles and Applications of Micro- and Nanostructure Polymers, Ye L (Ed.) Taylor and Francis Group, LLC: Boca Raton, Fl, Ch. 2, 25-70, (2013)
Wagner R et al., Synthesis, Spectroscopic, and Analyte-Responsive Behavior of a Polymerizable Naphthalimide-Based Carboxylate Probe and Molecularly Imprinted Polymers Prepared Thereof.
Journal of Organic Chemistry, 78, (4), 1377-1389, (2013)
Wan W et al., Proceeding, Enantioselective Fluorescence Response of Molecularly Imprinted Polymers (MIPs) toward Carbobenzyloxy- (Cbz) protected Amino Acids,
53-58, (2013)
Wan W et al., Fluorescent Sensory Microparticles that "Light-up" Consisting of a Silica Core and a Molecularly Imprinted Polymer (MIP) Shell.
Angewandte Chemie International Edition, 52, (27), 7023-7027, (2013)
Berghaus M et al., Productive encounter: molecularly imprinted nanoparticles prepared using magnetic templates.
Chemical Communications, 50, (64), 8993-8996, (2014)
Kadhirvel P et al., Chromatographycally efficient microspherical composites of molecularly imprinted xerogels deposited inside mesoporous silica.
Journal of Chromatography A, 1355, 158-163, (2014)
Kadhirvel P et al., Recognitive nano-thin-film composite beads for the enantiomeric resolution of the metastatic breast cancer drug aminoglutethimide.
Journal of Chromatography A, 1358, 93-101, (2014)
Kecili R et al., Fast identification of selective resins for removal of genotoxic aminopyridine impurities via screening of molecularly imprinted polymer libraries.
Journal of Chromatography A, 1339, 65-72, (2014)
Nematollahzadeh A et al., Robust and selective nano cavities for protein separation: An interpenetrating polymer network modified hierarchically protein imprinted hydrogel.
Journal of Chromatography A, 1345, 154-163, (2014)
Picca RA et al., Book chapter, Novel Format of Molecularly Imprinted Polymers for the Development of Electrochemical Sensors,
In: Sensors, Baldini F, D'Amico A, Di Natale C, Siciliano P, Seeber R, De Stefano L, Bizzarri R, Andň B (Eds.) Springer: New York, 165-169, (2014)
Qader AA et al., Peptide imprinted receptors for the determination of the small cell lung cancer associated biomarker progastrin releasing peptide.
Journal of Chromatography A, 1370, 56-62, (2014)
Rossetti C et al., Antibody-Free Biomarker Determination: Exploring Molecularly Imprinted Polymers for Pro-Gastrin Releasing Peptide.
Analytical Chemistry, 86, (24), 12291-12298, (2014)
Chen J et al., Low-bias phosphopeptide enrichment from scarce samples using plastic antibodies.
Scientific Reports, 5, ArticleNo11438-(2015)
Chen W et al., Molecularly Imprinted Polymers with Stimuli-Responsive Affinity: Progress and Perspectives.
Polymers, 7, (9), 1689-1715, (2015)
Halhalli MR et al., Insights into the formation, structural properties and performance of RAFT polymerized l-phenylalanine anilide molecularly imprinted polymers.
Polymer Chemistry, 6, (41), 7320-7332, (2015)
Kadhirvel P et al., Aminoglutethimide-imprinted xerogels in bulk and spherical formats, based on a multifunctional organo-alkoxysilane precursor.
Journal of Chromatography A, 1424, 59-68, (2015)
Shinde S et al., Sialic Acid-Imprinted Fluorescent Core-Shell Particles for Selective Labeling of Cell Surface Glycans.
Journal of the American Chemical Society, 137, (43), 13908-13912, (2015)
Shirangi M et al., Methyleneation of Peptides by N, N, N, N-Tetramethylethylenediamine (TEMED) under Conditions Used for Free Radical Polymerization: A Mechanistic Study.
Bioconjugate Chemistry, 26, (1), 90-100, (2015)
Chen J et al., Validation of molecularly imprinted polymers for side chain selective phosphopeptide enrichment.
Journal of Chromatography A, 1471, 45-50, (2016)
El-Schich Z et al., Different expression levels of glycans on leukemic cells - a novel screening method with molecularly imprinted polymers (MIP) targeting sialic acid.
Tumor Biology, 37, (10), 13763-13768, (2016)
Gutiérrez-Climente R et al., Iniferter-mediated grafting of molecularly imprinted polymers on porous silica beads for the enantiomeric resolution of drugs.
Journal of Molecular Recognition, 29, (3), 106-114, (2016)
Jagadeesan KK et al., Multiplexed MALDI-MS arrays for screening of MIP solid phase extraction materials.
Journal of Chromatography B, 1021, 213-220, (2016)
Schwark S et al., Monoclonal antibody capture from cell culture supernatants using epitope imprinted macroporous membranes.
RSC Advances, 6, (58), 53162-53169, (2016)
Shen XT et al., Reflux precipitation polymerization: a new synthetic insight in molecular imprinting at high temperature.
RSC Advances, 6, (85), 81491-81499, (2016)
Shen XT et al., Catalytic Formation of Disulfide Bonds in Peptides by Molecularly Imprinted Microgels at Oil/Water Interfaces.
ACS Applied Materials & Interfaces, 8, (44), 30484-30491, (2016)
Wang JX et al., Molecularly imprinted fluorescent hollow nanoparticles as sensors for rapid and efficient detection [lambda]-cyhalothrin in environmental water.
Biosensors and Bioelectronics, 85, 387-394, (2016)
Bllaci L et al., Phosphotyrosine Biased Enrichment of Tryptic Peptides from Cancer Cells by Combining pY-MIP and TiO2 Affinity Resins.
Analytical Chemistry, 89, (21), 11332-11340, (2017)
Chen ZL et al., Synergistic Catalysis by "Polymeric Microzymes and Inorganic Nanozymes": The 1+1>2 Effect for Intramolecular Cyclization of Peptides.
Frontiers in Chemistry, 5, ArticleNo60-(2017)
Jagadeesan KK et al., Filter Plate-Based Screening of MIP SPE Materials for Capture of the Biomarker Pro-Gastrin-Releasing Peptide.
SLAS DISCOVERY: Advancing Life Sciences R&D, 22, (10), 1253-1261, (2017)
Liu MQ et al., Molecularly Imprinted Porous Monolithic Materials from Melamine-Formaldehyde for Selective Trapping of Phosphopeptides.
Analytical Chemistry, 89, (17), 9491-9501, (2017)
Pan GQ et al., An Epitope-Imprinted Biointerface with Dynamic Bioactivity for Modulating Cell-Biomaterial Interactions.
Angewandte Chemie International Edition, 56, (50), 15959-15963, (2017)
Ramezani F et al., Molecularly Imprinted Polymer of Colocynthin, An Effective Tool for Quality Control of Citrullus colocynthis Extracts.
Current Drug Discovery Technologies, 14, (3), 169-180, (2017)
Rossetti C et al., Exploring the peptide retention mechanism in molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 409, (24), 5631-5643, (2017)
Rossetti C et al., Automated Protein Biomarker Analysis: on-line extraction of clinical samples by Molecularly Imprinted Polymers.
Scientific Reports, 7, ArticleNo44298-(2017)
Sulc R et al., Phospholipid imprinted polymers as selective endotoxin scavengers.
Scientific Reports, 7, ArticleNo44299-(2017)
Wan W et al., Ratiometric Fluorescence Detection of Phosphorylated Amino Acids Through Excited-State Proton Transfer by Using Molecularly Imprinted Polymer (MIP) Recognition Nanolayers.
Chemistry - A European Journal, 23, (63), 15974-15983, (2017)
Wierzbicka C et al., Hierarchically templated beads with tailored pore structure for phosphopeptide capture and phosphoproteomics.
RSC Advances, 7, (28), 17154-17163, (2017)
Wierzbicka C et al., Cationic pTyr/pSer imprinted polymers based on a bis-imidazolium host monomer: phosphopeptide recognition in aqueous buffers demonstrated by [mu]-liquid chromatography and monolithic columns.
Journal of Materials Chemistry B, 5, (5), 953-960, (2017)
Bakkour R et al., Molecularly Imprinted Polymers for Compound-Specific Isotope Analysis of Polar Organic Micropollutants in Aquatic Environments.
Analytical Chemistry, 90, (12), 7292-7301, (2018)
Rossetti C et al., Correction to: Exploring the peptide retention mechanism in molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 410, (5), 1607-1608, (2018)
Ertürk G et al., Bisphosphonate ligand mediated ultrasensitive capacitive protein sensor: complementary match of supramolecular and dynamic chemistry.
New Journal of Chemistry, 43, (2), 847-852, (2019)
Liu MQ et al., Selective Enrichment of Phosphorylated Peptides by Monolithic Polymers Surface Imprinted with bis-Imidazolium Moieties by UV-Initiated Cryopolymerization.
Analytical Chemistry, 91, (15), 10188-10196, (2019)
Mahajan R et al., Highly Efficient Synthesis and Assay of Protein-Imprinted Nanogels by Using Magnetic Templates.
Angewandte Chemie International Edition, 58, (3), 727-730, (2019)
Moczko E et al., Epitope approach in molecular imprinting of antibodies.
Journal of Chromatography B, 1124, 1-6, (2019)
Wang JX et al., Molecularly Imprinted Fluorescent Test Strip for Direct, Rapid, and Visual Dopamine Detection in Tiny Amount of Biofluid.
Small, 15, (1), Article1803913-(2019)
Zhang YC et al., Determination of cytokine regulated glycan expression by using molecularly imprinted polymers targeting sialic acid.
Journal of Cancer Metastasis and Treatment, 5, Article56-(2019)
Ambaw YA et al., Tailored Polymer-Based Selective Extraction of Lipid Mediators from Biological Samples.
Metabolites, 11, (8), ArticleNo539-(2021)
Incel A et al., Selective Enrichment of Histidine Phosphorylated Peptides Using Molecularly Imprinted Polymers.
Analytical Chemistry, 93, (8), 3857-3866, (2021)
Mavliutova L et al., Discrimination between sialic acid linkage modes using sialyllactose-imprinted polymers.
RSC Advances, 11, (36), 22409-22418, (2021)
Sellier A
Brogat M et al., MSPE/UV for field detection of micropollutants in water.Microchemical Journal, 108, 215-223, (2013)
Selmin F
Parisi OI et al., Design and development of plastic antibodies against SARS-CoV-2 RBD based on molecularly imprinted polymers that inhibit in vitro virus infection.Nanoscale, 13, (40), 16885-16899, (2021)
Selomulya C
Kong B et al., New faces of porous Prussian blue: interfacial assembly of integrated hetero-structures for sensing applications.Chemical Society Reviews, 44, (22), 7997-8018, (2015)
Selvalatchmanan J
Ambaw YA et al., Tailored Polymer-Based Selective Extraction of Lipid Mediators from Biological Samples.Metabolites, 11, (8), ArticleNo539-(2021)
Selvam SP
Selvam SP et al., Novel SeS2-loaded Co MOF with Au@PANI comprised electroanalytical molecularly imprinted polymer-based disposable sensor for patulin mycotoxin.Biosensors and Bioelectronics, 187, Article113302-(2021)
Selvolini G
Selvolini G et al., MIP-Based Sensors: Promising New Tools for Cancer Biomarker Determination.Sensors, 17, (4), ArticleNo718-(2017)
Selyanchyn R
Mizutani N et al., Remarkable enantioselectivity of molecularly imprinted TiO2 nano-thin films.Analytica Chimica Acta, 694, (1-2), 142-150, (2011)
Araki K et al., Self-assembly and imprinting of macrocyclic molecules in layer-by-layered TiO2 ultrathin films.
Analytica Chimica Acta, 779, 72-81, (2013)
Lee SW et al., Book chapter, Fundamentals and Perspectives of Molecular Imprinting in Sensor Applications,
In: Handbook of Molecular Imprinting - Advanced Sensor Applications, Lee SW, Kunitake T (Eds.) Pan Stanford Publishing Pte. Ltd.: Singapore, Ch. 1, 3-64, (2013)
Selyanchyn R et al., Molecularly imprinted polystyrene-titania hybrids with both ionic and [pi]-[pi] interactions: a case study with pyrenebutyric acid.
Microchimica Acta, 180, (15-16), 1443-1452, (2013)
Selçuki C
Gündeger E et al., Modeling prepolymerization step of a serotonin imprinted polymer.Journal of Molecular Modeling, 22, (7), ArticleNo148-(2016)
Semail NF
Rozaini MNH et al., Molecularly imprinted silica gel incorporated with agarose polymer matrix as mixed matrix membrane for separation and preconcentration of sulfonamide antibiotics in water samples.Talanta, 199, 522-531, (2019)
Semnani A
Ghanavati Nasab S et al., Synthesis of ion-imprinted polymer-decorated SBA-15 as a selective and efficient system for the removal and extraction of Cu(II) with focus on optimization by response surface methodology.Analyst, 144, (15), 4596-4612, (2019)
Semong O
Semong O et al., Development of an aflatoxin B1 specific molecularly imprinted solid phase extraction sorbent for the selective pre-concentration of toxic aflatoxin B1 from child weaning food, Tsabana.Molecular Imprinting, 5, (1), 1-15, (2017)
Sen D
Melo JS et al., Spray drying as a novel technique for obtaining microbial imprinted microspheres and its application in filtration.Soft Matter, 9, (3), 805-810, (2013)
Sen TS
Bhawani SA et al., Synthesis of molecular imprinting polymers for extraction of gallic acid from urine.Chemistry Central Journal, 12, (1), ArticleNo19-(2018)
Senaldi C
Geiss O et al., A fast and selective method for the determination of 8 carcinogenic polycyclic aromatic hydrocarbons in rubber and plastic materials.Journal of Chromatography A, 1566, 13-22, (2018)
Senay H
Congur G et al., Estrone Specific Molecularly Imprinted Polymeric Nanospheres: Synthesis, Characterization and Applications for Electrochemical Sensor Development.Combinatorial Chemistry & High Throughput Screening, 16, (7), 503-510, (2013)
Senba H
Koide Y et al., Selective adsorption of metal ions to surface-template resins prepared by emulsion polymerization using 10-(p-vinylphenyl)decanoic acid.Bulletin of the Chemical Society of Japan, 69, (1), 125-130, (1996)
Sendón R
Otero-Pazos P et al., Active Food Packaging Based on Molecularly Imprinted Polymers: Study of the Release Kinetics of Ferulic Acid.Journal of Agricultural and Food Chemistry, 62, (46), 11215-11221, (2014)
Seneci P
Seneci P, Book chapter, Materials and polymeric combinatorial libraries,In: Solid-Phase Synthesis and Combinatorial Technologies, John Wiley & Sons, Inc.: New York, Ch. 11, 579-620, (2000)
Senel S
Andaç M et al., Ion-selective imprinted beads for aluminum removal from aqueous solutions.Industrial & Engineering Chemistry Research, 45, (5), 1780-1786, (2006)
Andaç M et al., Ion-imprinted beads for molecular recognition based mercury removal from human serum.
International Journal of Biological Macromolecules, 40, (2), 159-166, (2007)
Uzun L et al., Chiral recognition of proteins having L-histidine residues on the surface with lanthanide ion complex incorporated-molecularly imprinted fluorescent nanoparticles.
Materials Science and Engineering: C, 33, (6), 3432-3439, (2013)
Çulha S et al., Synthesis of l-lysine imprinted cryogels for immunoglobulin G adsorption.
Materials Science and Engineering: C, 52, 315-324, (2015)
Dursun EM et al., Synthesis of novel monolithic cartridges with specific recognition sites for extraction of melamine.
Reactive and Functional Polymers, 109, 33-41, (2016)
Jalilzadeh M et al., Specific heavy metal ion recovery with ion-imprinted cryogels.
Journal of Applied Polymer Science, 133, (10), ArticleNo43095-(2016)
Jalilzadeh M et al., Removal of Cu(II) ions from water by ion-imprinted magnetic and non-magnetic cryogels: A comparison of their selective Cu(II) removal performances.
Journal of Water Process Engineering, 13, 143-152, (2016)
Üzek R et al., A nitrocellulose paper strip for fluorometric determination of bisphenol A using molecularly imprinted nanoparticles.
Microchimica Acta, 186, (4), 218-(2019)
Sener G
Sener G et al., Quartz crystal microbalance based nanosensor for lysozyme detection with lysozyme imprinted nanoparticles.Biosensors and Bioelectronics, 26, (2), 815-821, (2010)
Sener G et al., Use of molecular imprinted nanoparticles as biorecognition element on surface plasmon resonance sensor.
Sensors and Actuators B: Chemical, 160, (1), 791-799, (2011)
Özgür E et al., A new molecular imprinting-based mass-sensitive sensor for real-time detection of 17[beta]-estradiol from aqueous solution.
Environmental Progress & Sustainable Energy, 32, (4), 1164-1169, (2013)
Sener G et al., Microcontact imprinted surface plasmon resonance biosensor for rapid procalcitonin detection.
Abstracts of Papers of the American Chemical Society, 246, (ANYL), 68-(2013)
Sener G et al., Rapid real-time detection of procalcitonin using a microcontact imprinted surface plasmon resonance biosensor.
Analyst, 138, (21), 6422-6428, (2013)
Shaikh H et al., Molecularly imprinted surface plasmon resonance (SPR) based sensing of bisphenol A for its selective detection in aqueous systems.
Analytical Methods, 7, (11), 4661-4670, (2015)
Sener I
Ersöz A et al., Removal of phenolic compounds with nitrophenol-imprinted polymer based on p-p and hydrogen-bonding interactions.Separation and Purification Technology, 38, (2), 173-179, (2004)
Say R et al., Comparison of adsorption and selectivity characteristics for 4-nitrophenol imprinted polymers prepared via bulk and suspension polymerization.
Separation Science and Technology, 39, (15), 3471-3484, (2004)
Sener I et al., Methacryloyloxycalix[4]arene based ion imprinted polymer as Ag(I) potentiometric sensor.
Indian Journal of Chemistry Section A, 57A, (3), 444-448, (2018)
Sengl M
Sun Z et al., Selective trace analysis of diclofenac in surface and wastewater samples using solid-phase extraction with a new molecularly imprinted polymer.Analytica Chimica Acta, 620, (1-2), 73-81, (2008)
Senholdt M
Senholdt M et al., Determination of cyclosporin A and metabolites total concentration using a molecularly imprinted polymer based radioligand binding assay.Analytical Letters, 30, (10), 1809-1821, (1997)
Seniutinas G
Seniutinas G et al., Versatile SERS sensing based on black silicon.Optics Express, 23, (5), 6763-6772, (2015)
Seno H
Kumazawa T et al., Molecularly imprinted solid-phase extraction for the selective determination of methamphetamine, amphetamine, and methylenedioxyphenylalkylamine designer drugs in human whole blood by gas chromatography-mass spectrometry.Journal of Separation Science, 35, (5-6), 726-733, (2012)
Senobari S
Nezhadali A et al., 1, 4-dihydroxyanthraquinone electrochemical sensor based on molecularly imprinted polymer using multi-walled carbon nanotubes and multivariate optimization method.Talanta, 146, 525-532, (2016)
Seo JI
Park JK et al., Characteristics of phenylalanine imprinted membrane prepared by the wet phase inversion method.Korean Journal of Chemical Engineering, 19, (6), 940-948, (2002)
Seo MH
The Huy B et al., Selective optosensing of clenbuterol and melamine using molecularly imprinted polymer-capped CdTe quantum dots.Biosensors and Bioelectronics, 57, 310-316, (2014)
Seong H
Seong H et al., Glucose binding to molecularly imprinted polymers.Journal of Biomaterials Science-Polymer Edition, 13, (6), 637-649, (2002)
Seong H et al., Preparation of liposomes with glucose binding sites: liposomes containing di-branched amino acid derivatives.
Biomaterials, 24, (24), 4487-4493, (2003)
Sepaniak MJ
Stokes DL et al., Demonstration of a separations-based fiberoptic sensor for bioanalysis.Analytica Chimica Acta, 399, (3), 201-212, (1999)
Sepehri Z
Khoshsafar H et al., Magnetic Carbon Paste Electrode Modified with a High Performance Composite Based on Molecularly Imprinted Carbon Nanotubes for Sensitive Determination of Levofloxacin.Journal of The Electrochemical Society, 163, (8), B422-B427, (2016)
Sequeira F
Sequeira F et al., Proceeding, Ammonium sensing in aqueous solutions with plastic optical fiber modified by molecular imprinting,ArticleNo99161I, (2016)
Cennamo N et al., Proceeding, An optical fiber intensity-based sensor configuration for the detection of PFOA in water,
Article_ThE37, (2018)
Cennamo N et al., A Simple and Low-Cost Optical Fiber Intensity-Based Configuration for Perfluorinated Compounds in Water Solution.
Sensors, 18, (9), ArticleNo3009-(2018)
Cennamo N et al., Proceeding, Water monitoring in smart cities exploiting plastic optical fibers and molecularly imprinted polymers. The case of PFBS detection,
1-6, (2019)
Seraj S
Seraj S et al., Synthesis and sorption properties of heparin imprinted zeolite beta/polydopamine composite nanoparticles.Reactive and Functional Polymers, 147, Article104462-(2020)
Seraji MSI
Bhakta S et al., Antibody-like Biorecognition Sites for Proteins from Surface Imprinting on Nanoparticles.ACS Applied Materials & Interfaces, 7, (51), 28197-28206, (2015)
Sergeeva LM
Sergeyeva TA et al., Conductimetric sensor for atrazine detection based on molecularly imprinted polymer membranes.Analyst, 124, (3), 331-334, (1999)
Sergeyeva TA et al., Selective recognition of atrazine by molecularly imprinted polymer membranes. Development of conductometric sensor for herbicides detection.
Analytica Chimica Acta, 392, (2-3), 105-111, (1999)
Sergeyeva TA et al., Synthesis of matrix polymeric membranes for the solid-phase extraction of triazine herbicides from aqueous solutions and their study.
Reports of National Academy of Sciences of Ukraine, 6, 170-175, (2003)
Sergeyeva TA et al., In situ formation of porous molecularly imprinted polymer membranes.
Macromolecules, 36, (19), 7352-7357, (2003)
Sergeyeva TA et al., Data on the structure and recognition properties of the template-selective binding sites in semi-IPN-based molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 28, (8), 1472-1479, (2008)
Sergeyeva TA et al., Towards development of colorimetric test-systems for phenols detection based on computationally-designed molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 30, (3), 431-436, (2010)
Sergeyeva TA et al., Catalytic molecularly imprinted polymer membranes: Development of the biomimetic sensor for phenols detection.
Analytica Chimica Acta, 659, (1-2), 274-279, (2010)
Sergeyeva TA et al., Colorimetric test-systems for creatinine detection based on composite molecularly imprinted polymer membranes.
Analytica Chimica Acta, 770, 161-168, (2013)
Sergeyeva TA et al., Colorimetric biomimetic sensor systems based on molecularly imprinted polymer membranes for highly-selective detection of phenol in environmental samples.
Biopolymers and Cell, 30, (3), 209-215, (2014)
Sergeyeva LM
Sergeyeva TA et al., Porous molecularly imprinted polymer membranes and polymeric particles.Analytica Chimica Acta, 582, (2), 311-319, (2007)
Sergeyeva T
Piletska E et al., Rational design and development of affinity adsorbents for analytical and biopharmaceutical applications.Journal of the Chinese Advanced Materials Society, 1, (3), 229-244, (2013)
Sergeyeva T et al., Fluorescent sensor systems based on nanostructured polymeric membranes for selective recognition of Aflatoxin B1.
Talanta, 175, 101-107, (2017)
Sergeyeva T et al., Development of a smartphone-based biomimetic sensor for aflatoxin B1 detection using molecularly imprinted polymer membranes.
Talanta, 201, 204-210, (2019)
Sergeyeva TA
Piletsky SA et al., Molecularly imprinted self-assembled films with specificity to cholesterol.Sensors and Actuators B: Chemical, 60, (2-3), 216-220, (1999)
Sergeyeva TA et al., Conductimetric sensor for atrazine detection based on molecularly imprinted polymer membranes.
Analyst, 124, (3), 331-334, (1999)
Sergeyeva TA et al., Selective recognition of atrazine by molecularly imprinted polymer membranes. Development of conductometric sensor for herbicides detection.
Analytica Chimica Acta, 392, (2-3), 105-111, (1999)
Matuschewski H et al., Proceeding, Surface engineering: Molecularly imprinted affinity membranes by photograft polymerization,
Vo-Dinh T, Buettgenbach S (Eds.), 65-74, (2001)
Sergeyeva TA et al., Molecularly imprinted polymer membranes for substance-selective solid-phase extraction from water by surface photo-grafting polymerization.
Journal of Chromatography A, 907, (1-2), 89-99, (2001)
Sergeyeva TA et al., Synthesis of matrix polymeric membranes for the solid-phase extraction of triazine herbicides from aqueous solutions and their study.
Reports of National Academy of Sciences of Ukraine, 6, 170-175, (2003)
Sergeyeva TA et al., In situ formation of porous molecularly imprinted polymer membranes.
Macromolecules, 36, (19), 7352-7357, (2003)
Sergeyeva TA et al., Development of molecularly imprinted polymer membranes with specificity to triazine herbicides, prepared by the "surface photografting" technique.
Biopolymers and Cell, 20, (4), 307-315, (2004)
Piletsky SA et al., Molecularly imprinted polymers - Tyrosinase mimics.
Ukrainskii Biokhimicheskii Zhurnal, 77, (6), 63-67, (2005)
Piletsky SA et al., Synthesis of Biologically Active Molecules by Imprinting Polymerisation.
Biopolymers and Cell, 22, (1), 63-68, (2006)
Sergeyeva TA et al., Capacitive sensor for environmental monitoring based on thin films of molecularly imprinted polymers. Computational modeling for optimization of the polymers-biomimics composition.
Ukrainskii Biokhimicheskii Zhurnal, 78, (2), 121-130, (2006)
Sergeyeva TA et al., Porous molecularly imprinted polymer membranes and polymeric particles.
Analytica Chimica Acta, 582, (2), 311-319, (2007)
Sergeyeva TA et al., Aflatoxin-selective molecularly-imprinted polymer membranes based on acrylate-polyurethane semi-interpenetrating polymer networks.
Ukrainskii Biokhimicheskii Zhurnal, 79, (5), 109-115, (2007)
Sergeyeva TA et al., Data on the structure and recognition properties of the template-selective binding sites in semi-IPN-based molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 28, (8), 1472-1479, (2008)
Sergeyeva TA et al., Sensor system based on molecularly-imprinted polymer membranes for the selective recognition of aflatoxin B1.
Ukrainskii Biokhimicheskii Zhurnal, 80, (3), 84-93, (2008)
Sergeyeva TA et al., A portable sensor system for phenols detection based on molecularly-imprinted polymers with catalytic properties.
Ukrainskii Biokhimicheskii Zhurnal, 81, (1), 41-51, (2009)
Sergeyeva TA, Molecularly imprinted polymers as synthetic mimics of bioreceptors. 1. General principles of molecular imprinting.
Biopolymers and Cell, 25, (4), 253-265, (2009)
Sergeyeva TA, Molecularly-imprinted polymers as synythetic mimics of bioreceptors. 2. Applications in modern biotechnology.
Biopolymers and Cell, 25, (6), 431-444, (2009)
Sergeyeva TA et al., Towards development of colorimetric test-systems for phenols detection based on computationally-designed molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 30, (3), 431-436, (2010)
Sergeyeva TA et al., Catalytic molecularly imprinted polymer membranes: Development of the biomimetic sensor for phenols detection.
Analytica Chimica Acta, 659, (1-2), 274-279, (2010)
Sergeyeva TA et al., Colorimetric test-systems for creatinine detection based on composite molecularly imprinted polymer membranes.
Analytica Chimica Acta, 770, 161-168, (2013)
Soldatkin AP et al., Biosensors. A quarter of a century of R&D experience.
Biopolymers and Cell, 29, (3), 188-206, (2013)
Sergeyeva TA et al., Colorimetric biomimetic sensor systems based on molecularly imprinted polymer membranes for highly-selective detection of phenol in environmental samples.
Biopolymers and Cell, 30, (3), 209-215, (2014)
Sergeyeva TA et al., Sensor System for Sulfamethoxazole Detection Based on Molecularly Imprinted Polymer Membranes.
Innovative Biosystems & Bioengineering, 1, (1), 11-17, (2017)
Sergi M
Capoferri D et al., MIP-MEPS based sensing strategy for the selective assay of dimethoate. Application to wheat flour samples.Talanta, 174, 599-604, (2017)
Serin E
Güney O et al., Stimuli-responsive molecularly imprinted hybrid polymer gel as a potential system for controlled release.Journal of Applied Polymer Science, 133, (4), ArticleNo42913-(2016)
Serizawa T
Akashi M et al., Imprinting of nucleosides and nucleotides in polyacrylamide gel.Abstracts of Papers of the American Chemical Society, 213, (IEC), 131-131, (1997)
Serizawa T et al., Recognition of stereoregular polymers by using structurally regulated ultrathin polymer films.
Angewandte Chemie International Edition, 42, (10), 1118-1121, (2003)
Serkova A
Guerreiro A et al., Influence of Surface-Imprinted Nanoparticles on Trypsin Activity.Advanced Healthcare Materials, 3, (9), 1426-1429, (2014)
Serna F
García JM et al., Fluorogenic and Chromogenic Polymer Chemosensors.Polymer Reviews, 51, (4), 341-390, (2011)
Serpe JM
Zhang Q et al., Stimuli Responsive Polymer-Based 3D Optical Crystals for Sensing.Polymers, 9, (11), ArticleNo436-(2017)
Serpe MJ
Islam MR et al., Responsive polymers for analytical applications: A review.Analytica Chimica Acta, 789, 17-32, (2013)
Serra AC
Mendonça PV et al., Polymeric bile acid sequestrants - Synthesis using conventional methods and new approaches based on ''controlled''/living radical polymerization.Progress in Polymer Science, 38, (3-4), 445-461, (2013)
Serra B
Guzmán-Vázquez de Prada A et al., Molecularly imprinted polymer solid-phase extraction coupled to square wave voltammetry at carbon fibre microelectrodes for the determination of fenbendazole in beef liver.Analytical and Bioanalytical Chemistry, 388, (1), 227-234, (2007)
Serra M
Ambrosini S et al., Synthesis and chromatographic evaluation of molecularly imprinted polymers prepared by the substructure approach for the class-selective recognition of glucuronides.Journal of Chromatography A, 1218, (39), 6961-6969, (2011)
Serra OA
Ciuffi KJ et al., Polymeric organic-inorganic hybrid material containing iron(III) porphyrin using sol-gel process.Journal of Non-Crystalline Solids, 247, (1-3), 146-152, (1999)
Ciuffi KJ et al., Synthesis of fluorinated metalloporphyrinosilica imprinted with templates through sol-gel process.
Journal of Non-Crystalline Solids, 273, (1-3), 100-108, (2000)
Iamamoto Y et al., Porphyrinosilica and metalloporphyrinosilica: Hybrid organic-inorganic materials prepared by sol-gel processing.
Anais Da Academia Brasileira De Ciencias, 72, (1), 59-66, (2000)
Sacco HC et al., Synthesis of manganese porphyrinosilica imprinted with templates using the sol-gel process.
Journal of Non-Crystalline Solids, 273, (1-3), 150-158, (2000)
Serra T
Chiarello M et al., NanoMIP-Based Solid Phase Extraction of Fluoroquinolones from Human Urine: A Proof-of-Concept Study.Separations, 8, (11), ArticleNo226-(2021)
Serrano M
Serrano M et al., Synthesis of a molecularly imprinted polymer for the isolation of 1-hydroxypyrene in human urine.Talanta, 143, 71-76, (2015)
Serrano M et al., On-line flow injection molecularly imprinted solid phase extraction for the preconcentration and determination of 1-hydroxypyrene in urine samples.
Talanta, 166, 375-382, (2017)
Serrano VM
Serrano VM et al., In-situ production of Histamine-imprinted polymeric materials for electrochemical monitoring of fish.Sensors and Actuators B: Chemical, 311, Article127902-(2020)
Servant A
Carboni D et al., The First Example of Molecularly Imprinted Nanogels with Aldolase Type I Activity.Chemistry - A European Journal, 14, (23), 7059-7065, (2008)
Servant A et al., Tuning Molecular Recognition in Water-Soluble Nanogels with Enzyme-Like Activity for the Kemp Elimination.
Chemistry - A European Journal, 17, (39), 11052-11059, (2011)
Bonomi P et al., Modulation of imprinting efficiency in nanogels with catalytic activity in the Kemp elimination.
Journal of Molecular Recognition, 25, (6), 352-360, (2012)
Servant A et al., Polymeric organic nanogels: structural studies and correlation between morphology and catalytic efficiency.
New Journal of Chemistry, 37, (12), 4103-4109, (2013)
Sesay AM
Panjan P et al., Development of a folic acid molecularly imprinted polymer and its evaluation as a sorbent for dispersive solid-phase extraction by liquid chromatography coupled to mass spectrometry.Journal of Chromatography A, 1576, 26-33, (2018)
Setamdideh D
Sheykhaghaei G et al., Synthesis of molecularly imprinted polymer nanoparticles for selective extraction and pre-concentration of protriptyline by ultrasound-assisted extraction method in human plasma.Analytical Methods, 8, (11), 2413-2419, (2016)
Setford S
Nicholls C et al., Displacement imprinted polymer receptor analysis (DIPRA) for chlorophenolic contaminants in drinking water and packaging materials.Biosensors and Bioelectronics, 21, (7), 1171-1177, (2006)
Setford SJ
Setford SJ et al., Book chapter, Enzyme Biosensors,In: Microbial Enzymes and Biotransformations, Barredo JL (Ed.) 29-60, (2005)
Setiyanto H
Zulfikar MA et al., Molecularly imprinted polymers (MIPs): a functional material for removal of humic acid from peat water.Desalination and Water Treatment, 57, (32), 15164-15175, (2016)
Rahmadhani S et al., Proceeding, Electropolymerized of aniline as a new molecularly imprinted polymer for determination of phenol: A study for phenol sensor,
124-128, (2017)
Rahmadhani S et al., Fabrication of Carbon Paste Electrode Modified with Phenol Imprinted Polyaniline as a Sensor for Phenol Analysis by Potentiometric.
Materials Science Forum, 936, 71-76, (2018)
Setiyanto H et al., The Performance of Molecularly Imprinted Polymers (MIPs)-Modified Carbon Paste Electrode and Its Application in Detecting Phenol.
International Journal of Electrochemical Science, 15, 5477-5486, (2020)
Sette G
Reddy SM et al., Electrochemical probing of selective haemoglobin binding in hydrogel-based molecularly imprinted polymers.Electrochimica Acta, 56, (25), 9203-9208, (2011)
Setti S
Setti S, Selective extraction of the herbicide prometon using magnetic molecularly imprinted nanoparticles.Abstracts of Papers of the American Chemical Society, 248, (PHYS), 441-(2014)
Settipani J
Settipani J et al., Theoretical aspects of peptide imprinting: screening of MIP (virtual) binding sites for their interactions with amino acids, di- and tripeptides.Journal of the Chinese Advanced Materials Society, 6, (3), 301-310, (2018)
Seumo Tchekwagep PM
McClements J et al., Immobilization of Molecularly Imprinted Polymer Nanoparticles onto Surfaces Using Different Strategies: Evaluating the Influence of the Functionalized Interface on the Performance of a Thermal Assay for the Detection of the Cardiac Biomarker Troponin I.ACS Applied Materials & Interfaces, 13, (24), 27868-27879, (2021)
Seung D
Lee HI et al., Rational design of ordered mesoporous carbon with controlled bimodal porosity via dual silica templating route.Chemical Communications, (48), 6035-6037, (2005)
Seven F
Seven F et al., Metal ion-imprinted hydrogel with magnetic properties and enhanced catalytic performances in hydrolysis of NaBH4 and NH3BH3.International Journal of Hydrogen Energy, 38, (35), 15275-15284, (2013)
Seven F et al., Imprinting hydrogels with metal ions for metal nanoparticle preparation and use in hydrogen production as catalysis media.
Abstracts of Papers of the American Chemical Society, 245, (POLY), 366-(2013)
Severin K
Polborn K et al., Molecular imprinting with an organometallic transition state analogue.Chemical Communications, (24), 2481-2482, (1999)
Polborn K et al., Biomimetic catalysis with an immobilised chiral rhodium(III) complex.
European Journal of Inorganic Chemistry, (8), 1687-1692, (2000)
Polborn K et al., Biomimetic catalysis with immobilised organometallic ruthenium complexes: Substrate- and regioselective transfer hydrogenation of ketones.
Chemistry - A European Journal, 6, (24), 4604-4611, (2000)
Severin K, Imprinted polymers with transition metal catalysts.
Current Opinion in Chemical Biology, 4, (6), 710-714, (2000)
Severin K, Molecularly Imprinted Polymers. Man-Made Mimics of Antibodies and their Applications in Analytical Chemistry. (Book Review).
Angewandte Chemie International Edition, 41, (6), 1071-1071, (2002)
Burri E et al., Site-isolated porphyrin catalysts in imprinted polymers.
Chemistry - A European Journal, 11, (17), 5055-5061, (2005)
Schiller A et al., Highly cross-linked polymers containing N, N', N''-chelate ligands for the Cu(II)-mediated hydrolysis of phosphoesters.
Inorganic Chemistry, 44, (18), 6482-6492, (2005)
Severin K, Book chapter, Applications of molecularly imprinted materials as enzyme mimics,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 24, 619-640, (2005)
Burri E et al., Molecular imprinting with ruthenium porphyrin catalysts.
Chimia, 60, (4), 182-184, (2006)
Schiller A et al., Enhanced hydrolytic activity of Cu(II) and Zn(II) complexes in highly cross-linked polymers.
Dalton Transactions, (32), 3858-3867, (2006)
Sevildik M
Sevildik M et al., Beta Glucosidase Recognition By Imprinted Polyacrylamide Hydrogels.Eurasian Journal of Biological and Chemical Sciences, 2, (1), 17-23, (2019)
Sevilimedu NV
Bhaskarapillai A et al., Synthesis and Characterization of Imprinted Polymers for Radioactive Waste Reduction.Industrial & Engineering Chemistry Research, 48, (8), 3730-3737, (2009)
Bhaskarapillai A et al., Theoretical investigations of the experimentally observed selectivity of a cobalt imprinted polymer.
Biosensors and Bioelectronics, 25, (3), 558-562, (2009)
Bhaskarapillai A et al., One in a billion.
Nuclear Engineering International, 55, (672), 22-24, (2010)
Sevilla F
Albano DRB et al., Book chapter, Piezoelectric quartz crystal sensor for sodium dodecylsulfate (SDS) based on molecularly imprinted polypyrrole,In: Sensors: Asiasense 2003 - Asian Conference On Sensors, Ahmad M, Heng LY, Salimon J, Ghodgaonkar DK, Yousof RW, Surif S, Taib MN (Eds.) IEEE: New York, 117-120, (2003)
Cabanilla S et al., Book chapter, Piezoelectric biomimetic sensor for caffeine based on electrosynthesized polypyrrole,
In: Sensors: Asiasense 2003 - Asian Conference On Sensors, Ahmad M, Heng LY, Salimon J, Ghodgaonkar DK, Yousof RW, Surif S, Taib MN (Eds.) IEEE: New York, 105-109, (2003)
Sevilla F, Book chapter, Chemical sensors based on conducting polymers,
In: Sensors: Asiasense 2003 - Asian Conference On Sensors, Ahmad M, Heng LY, Salimon J, Ghodgaonkar DK, Yousof RW, Surif S, Taib MN (Eds.) IEEE: New York, 87-92, (2003)
Ebarvia BS et al., Biomimetic piezoelectric quartz sensor for caffeine based on a molecularly imprinted polymer.
Analytical and Bioanalytical Chemistry, 378, (5), 1331-1337, (2004)
Albano DR et al., Piezoelectric quartz crystal sensor for surfactant based on molecularly imprinted polypyrrole.
Sensors and Actuators B: Chemical, 121, (1), 129-134, (2007)
Sevilla FB
Arenas LF et al., Enantioselective piezoelectric quartz crystal sensor for d-methamphetamine based on a molecularly imprinted polymer.Analytical and Bioanalytical Chemistry, 397, (7), 3155-3158, (2010)
Sevilla FBI
Koirala K et al., Biomimetic potentiometric sensor for chlorogenic acid based on electrosynthesized polypyrrole.Sensors and Actuators B: Chemical, 222, 391-396, (2016)
Koirala K et al., Book chapter, Food Biosensors Based on Molecularly Imprinted Polymers,
In: Food Biosensors, Lim SA, Ahmed MU (Eds.) The Royal Society of Chemistry: Ch. 11, 264-281, (2017)
Sevilla FBII
Ebarvia BS et al., Biomimetic piezoelectric quartz crystal sensor with chloramphenicol-imprinted polymer sensing layer.Talanta, 144, 1260-1265, (2015)
Sevilla III F
Ebarvia BS et al., Piezoelectric quartz sensor for caffeine based on molecularly imprinted polymethacrylic acid.Sensors and Actuators B: Chemical, 107, (2), 782-790, (2005)
Ebarvia BS et al., Biomimetic properties and surface studies of a piezoelectric caffeine sensor based on electrosynthesized polypyrrole.
Talanta, 66, (1), 145-152, (2005)
Sevilla JM
Qader B et al., Electrochemical determination of disulfoton using a molecularly imprinted poly-phenol polymer.Electrochimica Acta, 295, 333-339, (2019)
Sevin SB
Demirel M et al., Propranolol HCl Imprinted Polymeric Microspheres: Development, Characterization and Dissolution.FABAD Journal of Pharmaceutical Sciences, 32, (4), 147-157, (2007)
Sewry J
Rammika M et al., Dimethylglyoxime based ion-imprinted polymer for the determination of Ni(II) ions from aqueous samples.Water SA, 37, (3), 321-329, (2011)
Seydou M
Ktari N et al., Design of a polypyrrole MIP-SAW sensor for selective detection of flumequine in aqueous media. Correlation between experimental results and DFT calculations.RSC Advances, 5, (108), 88666-88674, (2015)
Ktari N et al., Surface Acoustic Wave Sensor for Selective Detection of Flumequine.
Procedia Engineering, 120, 998-1002, (2015)
Maouche N et al., A surface acoustic wave sensor functionalized with a polypyrrole molecularly imprinted polymer for selective dopamine detection.
Journal of Molecular Recognition, 28, (11), 667-678, (2015)
Mazouz Z et al., Highly Selective Polypyrrole MIP-Based Gravimetric and Electrochemical Sensors for Picomolar Detection of Glyphosate.
Sensors, 17, (11), ArticleNo2586-(2017)
Seyedsajadi M
Sheykhaghaei G et al., Magnetic molecularly imprinted polymer nanoparticles for selective solid phase extraction and pre-concentration of Tizanidine in human urine.Journal of Chromatography B, 1011, 1-5, (2016)
Seyedzadeh Z
Hashemi B et al., Synthesis of ion imprinted polymeric nanoparticles for selective pre-concentration and recognition of lithium ions.New Journal of Chemistry, 40, (5), 4803-4809, (2016)
Hashemi B et al., Preparation of a K+-imprinted polymer for the selective recognition of K+ in food samples.
Journal of Separation Science, 39, (10), 2006-2012, (2016)
Sezer E
Ertugrul Uygun HD et al., Non-invasive cortisol detection in saliva by using molecularly cortisol imprinted fullerene-acrylamide modified screen printed electrodes.Talanta, 206, Article120225-(2020)
Sezgin S
Herold M et al., Molecular recognition by imprinted polymer nanospheres fundamental research and applications.Polymer Preprints, 46, (2), 1125-1126, (2005)
Herold M et al., Molecular recognition by imprinted polymer nanospheres: Fundamental research and applications.
Abstracts of Papers of the American Chemical Society, 230, 584-POLY, (2005)
Sezgin S et al., Kinetic and thermodynamic behaviour of recognition processes employing nano-spherical L-boc-phenylalanine anilide molecularly imprinted poly(MAA-co-EGDMA) monoliths.
Polymer Preprints, 47, (2), 860-861, (2006)
Sezginturk MK
Teke M et al., Preparation and characterization of biosensor based on imprinted urease.FEBS Journal, 273, (Suppl. 1), 344-344, (2006)
Teke AB et al., A bio-imprinted ascorbate oxidase biosensor.
International Journal of Environmental Analytical Chemistry, 87, (10), 723-729, (2007)
Teke M et al., A bio-imprinted urease biosensor: Improved thermal and operational stabilities.
Talanta, 74, (4), 661-665, (2008)
Sezgintürk MK
Teke M et al., A Biosensor Based on Bay Leaf (Laurus nobilis L.) Tissue Homogenate: Improvement of the Stability Characteristics by a Simple Bio-imprinted Technique.Artificial Cells, Blood Substitutes, and Biotechnology, 36, (5), 445-456, (2008)
Teke M et al., Two Biosensors for Phenolic Compounds Based on Mushroom (Agaricus bisporus) Homogenate: Comparison in Terms of Some Important Parameters of the Biosensors.
Preparative Biochemistry and Biotechnology, 38, (1), 51-60, (2008)
Sgobba V
Malitesta C et al., Synthesis of a Molecularly Imprinted Polymer for Dioxin.Sensors, 6, (8), 915-924, (2006)
Sgorbini M
Meucci VM et al., Determination of phenylbutazone and flunixin meglumine in horse plasma by electro-chemical-based detection coupled to selective extraction with molecularly imprinted polymers.Journal of Veterinary Pharmacology and Therapeutics, 35, (Supplement 3), 90-90, (2012)
Meucci V et al., Determination of phenylbutazone and flunixin meglumine in equine plasma by electrochemical-based sensing coupled to selective extraction with molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 179, 226-231, (2013)
Meucci V et al., Selective and simultaneous determination of NSAIDs in equine plasma by HPLC with molecularly imprinted solid-phase extraction.
Bioanalysis, 6, (16), 2147-2158, (2014)
Sha BJ
Zhang BX et al., Selective solid-phase extraction using molecularly imprinted polymers for the analysis of norfloxacin in fish.Analytical Methods, 4, (10), 3187-3192, (2012)
Sha M
Liu R et al., A facile approach for imprinting protein on the surface of multi-walled carbon nanotubes.Talanta, 120, 76-83, (2014)
Sha X
Sha X et al., Molecularly imprinted polymer, nanoparticles, and the quartz crystal microbalance in combination evaluate bisphenol A in water.Abstracts of Papers of the American Chemical Society, 246, (ANYL), 26-(2013)
Sha ZL
Zhang JK et al., Directly fast detection of digoxin in the serum sample by the synthetic receptor sensor.Materials Science and Engineering: B, 178, (18), 1191-1194, (2013)
Jiang SH et al., A Novel Molecularly Imprinted Sensor for Direct Tartrazine Detection.
Analytical Letters, 47, (2), 323-330, (2014)
Zhao XY et al., Decoration of graphene with 2-aminoethanethiol functionalized gold nanoparticles for molecular imprinted sensing of erythrosine.
Carbon, 127, 618-626, (2018)
Shaabani A
Shaabani A et al., Molecularly Imprinted Polymer as an Eco-Compatible Nanoreactor in Multicomponent Reactions: A Remarkable Synergy for Expedient Access to Highly Substituted Imidazoles.ACS Sustainable Chemistry & Engineering, 5, (10), 9506-9516, (2017)
Shaabani N
Javanbakht M et al., Novel molecularly imprinted polymers for the selective extraction and determination of metoclopramide in human serum and urine samples using high-performance liquid chromatography.Journal of Chromatography B, 877, (24), 2537-2544, (2009)
Javanbakht M et al., Molecularly Imprinted Polymers for Selective Solid-Phase Extraction of Verapamil from Biological Fluids and Human Urine.
Current Pharmaceutical Analysis, 5, (3), 269-276, (2009)
Shaarani SM
Rovina K et al., Extraction, Analytical and Advanced Methods for Detection of Allura Red AC (E129) in Food and Beverages Products.Frontiers in Microbiology, 7, ArticleNo798-(2016)
Rovina K et al., A Review of Extraction and Analytical Methods for the Determination of Tartrazine (E 102) in Foodstuffs.
Critical Reviews in Analytical Chemistry, 47, (4), 309-324, (2017)
Shabani A
Pebdani AA et al., Selective separation and determination of diclofenac via magnetic molecularly imprinted polymer and spectrophotometry.Journal of the Iranian Chemical Society, 13, (1), 155-164, (2016)
Shabani AMH
Shakerian F et al., Synthesis and application of nano-pore size ion imprinted polymer for solid phase extraction and determination of zinc in different matrices.Food Chemistry, 134, (1), 488-493, (2012)
Shakerian F et al., Synthesis of nano-pore size Al(III)-imprinted polymer for the extraction and preconcentration of aluminum ions.
Journal of the Iranian Chemical Society, 10, (4), 669-676, (2013)
Dadfarnia S et al., Synthesis of Nano-Pore Size Ag(I)-Imprinted Polymer for the Extraction and Preconcentration of Silver Ions Followed by Its Determination with Flame Atomic Absorption Spectrometry and Spectrophotometry Using Localized Surface Plasmon Resonance Peak of Silver Nanoparticles.
Journal of the Brazilian Chemical Society, 26, (6), 1180-1190, (2015)
Kazemi E et al., Synthesis and characterization of a nanomagnetic ion imprinted polymer for selective extraction of silver ions from aqueous samples.
Microchimica Acta, 182, (5-6), 1025-1033, (2015)
Pebdani AA et al., Solid phase microextraction of diclofenac using molecularly imprinted polymer sorbent in hollow fiber combined with fiber optic-linear array spectrophotometry.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 147, 26-30, (2015)
Shabsel's BM
Men’shikova AYu et al., Monodisperse polymer particles with molecular imprints of naphthalene in the shell: Synthesis and adsorption properties.Russian Journal of Applied Chemistry, 84, (9), 1567-1574, (2011)
Men’shikova AYu et al., Crosslinked monodisperse particles containing luminophore groups in shells for molecular recognition of lower alcohols (Original Russian Text Š A.Yu. Men'shikova, N.N. Shevchenko, T.G. Evseeva, A.V. Koshkin, G.A. Pankova, B.M. Shabsel's, V.V. Faraonova, M.Ya. Goikhman, A.V. Yakimanskii, V.A. Sazhnikov, M.V. Alfimov, 2012, published in Russian in Vysokomolekulyarnye Soedineniya, Ser. B, 2012, Vol. 54, No. 1, pp. 93 - 101.).
Polymer Science Series B, 54, (1), 21-29, (2012)
Shabsels B
Shevchenko N et al., Core-shell polymer particles containing derivatives of 1, 3-diphenyl-[beta]-diketonate boron difluoride: synthesis and spectroscopic investigation of toluene vapor sorption.Colloids and Surfaces A: Physicochemical and Engineering Aspects, 562, 310-320, (2019)
Shadjou N
Hasanzadeh M et al., Electrochemical nano-immunosensing of effective cardiac biomarkers for acute myocardial infarction.TrAC Trends in Analytical Chemistry, 49, 20-30, (2013)
Hasanzadeh M et al., Cytosensing of cancer cells using antibody-based molecular imprinting: A short-review.
TrAC Trends in Analytical Chemistry, 99, 129-134, (2018)
Sardaremelli S et al., A novel bioassay for the monitoring of hydrogen peroxide in human plasma samples based on binding of horseradish peroxidase-conjugated prostate specific antigen to poly (toluidine blue) as imprinted polymer receptor.
International Journal of Biological Macromolecules, 145, 311-324, (2020)
Shadmehri R
Nezhadali A et al., Determination of benzimidazole in biological model samples using electropolymerized-molecularly imprinted polypyrrole modified pencil graphite sensor.Sensors and Actuators B: Chemical, 171-172, 1125-1131, (2012)
Nezhadali A et al., Computer-aided sensor design and analysis of thiocarbohydrazide in biological matrices using electropolymerized-molecularly imprinted polypyrrole modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 177, 871-878, (2013)
Nezhadali A et al., Computer-assisted sensor design and analysis of 2-aminobenzimidazole in biological model samples based on electropolymerized-molecularly imprinted polypyrrole modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 185, 17-23, (2013)
Nezhadali A et al., Neuro-genetic multi-objective optimization and computer-aided design of pantoprazole molecularly imprinted polypyrrole sensor.
Sensors and Actuators B: Chemical, 202, 240-251, (2014)
Nezhadali A et al., Determination of methimazole based on electropolymerized-molecularly imprinted polypyrrole modified pencil graphite sensor.
Materials Science and Engineering: C, 85, 225-232, (2018)
Shafaat A
Soleimani M et al., High-Selective Tramadol Sensor Based on Modified Molecularly Imprinted Polymer-Carbon Paste Electrode with Multiwalled Carbon Nanotubes.Electroanalysis, 25, (5), 1159-1168, (2013)
Faridbod F et al., Ionic Liquids Based Polymeric Membrane Drug Sensors.
Current Analytical Chemistry, 13, (1), 52-61, (2017)
Shafeeq S
Motib A et al., Modulation of Quorum Sensing in a Gram-Positive Pathogen by Linear Molecularly Imprinted Polymers with Anti-infective Properties.Angewandte Chemie International Edition, 56, (52), 16555-16558, (2017)
Shaffer KM
Johnson-White B et al., Detection of organics using porphyrin embedded nanoporous organosilicas.Biosensors and Bioelectronics, 22, (6), 1154-1162, (2007)
Shafik AL
Monier M et al., Surface molecularly imprinted amino-functionalized alginate microspheres for enantio-selective extraction of l-ascorbic acid.Carbohydrate Polymers, 195, 652-661, (2018)
Monier M et al., Synthesis of azo-functionalized ion-imprinted polymeric resin for selective extraction of nickel(II) ions.
Polymer International, 67, (8), 1035-1045, (2018)
Shafiqul Islam AKM
Tahir I et al., Virtual searching of dummy template for sinensetin based on 2D molecular similarity using ChemDB tool.Indonesian Journal of Chemistry, 12, (3), 217-222, (2012)
Ishak N et al., Theoretical and experimental studies of ion imprinted polymer for nitrate detection.
Polymer Science, Series A, 59, (5), 649-659, (2017)
Shafizadeh F
Shafizadeh F et al., Preparation of a novel magnetic Pd(II) ion-imprinted polymer for the fast and selective adsorption of palladium ions from aqueous solutions.Environmental Science and Pollution Research, 26, (18), 18493-18508, (2019)
Shafqat SR
Bakhtiar S et al., Synthesis and characterization of molecular imprinting polymer for the removal of 2-phenylphenol from spiked blood serum and river water.Chemical and Biological Technologies in Agriculture, 6, (1), Article15-(2019)
Shah AT
Hussain T et al., Molecular Imprinted Titania Sol-Gel Layer for Conductometric Sensing of p-Nitrophenol.Sensor Letters, 12, (11), 1682-1687, (2014)
Mujahid A et al., Tailoring Imprinted Titania Nanoparticles for Purines Recognition.
Journal of Materials, 2015, ArticleNo903543-(2015)
Mujahid A et al., Molecularly imprinted titania nanoparticles for selective recognition and assay of uric acid.
Applied Nanoscience, 5, (5), 527-534, (2015)
Shah DO
Maulvi FA et al., A review on therapeutic contact lenses for ocular drug delivery.Drug Delivery, 23, (8), 3017-3026, (2016)
Shah J
Ara B et al., Preparation and characterization of uniform molecularly imprinted polymer beads for separation of triazine herbicides.Journal of Applied Polymer Science, 126, (1), 315-321, (2012)
Shah K
Gupta N et al., An epitope-imprinted piezoelectric diagnostic tool for Neisseria meningitidis detection.Journal of Molecular Recognition, 29, (12), 572-579, (2016)
Gupta N et al., Epitope imprinting of iron binding protein of Neisseria meningitidis bacteria through multiple monomers imprinting approach.
Journal of Molecular Recognition, 31, (7), ArticleNoe2709-(2018)
Shah KA
Shah KA et al., A modified method for the determination of tobacco specific nitrosamine 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol in human urine by solid phase extraction using a molecularly imprinted polymer and liquid chromatography tandem mass spectrometry.Journal of Chromatography B, 877, (14-15), 1575-1582, (2009)
Shah KA et al., Microfluidic direct injection method for analysis of urinary 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanol (NNAL) using molecularly imprinted polymers coupled on-line with LC-MS/MS.
Journal of Pharmaceutical and Biomedical Analysis, 54, (2), 368-378, (2011)
Shah KR
Shalaby SW et al., Book chapter, Chemical modifications of natural polymers and their technological relevance,In: Water Soluble Polymers: Synthesis, Solution Properties, and Applications, Shalaby SW, Butler GB (Eds.) The American Chemical Society: Washington DC, Ch. 4, 74-80, (1991)
Shah M
Anwar A et al., Synthesis and Characterization of Molecular Imprinted Polymer for the Recognition and Removal of Cephradine.Sensor Letters, 15, (1), 32-36, (2017)
Shah MM
Brenner JR et al., A molecularly imprinted polymer for recognition of S-(-)-timolol.Abstracts of Papers of the American Chemical Society, 223, (IEC), 084-084, (2002)
Brenner JR et al., A molecularly imprinted polymer for S-(-)-timolol.
Abstracts of Papers of the American Chemical Society, 223, (MEDI), 097-097, (2002)
Brenner JR et al., A molecularly imprinted polymer for recognition of S-(-)-timolol.
Abstracts of Papers of the American Chemical Society, 223, (ORGN), 174-174, (2002)
Brenner JR et al., A molecularly imprinted polymer for recognition of S-(-)-timolol.
Abstracts of Papers of the American Chemical Society, 223, (ANYL), 022-022, (2002)
Shah MR
Ahmed F et al., Preparation and Characterization of Molecular Imprinted Polymer for Detection and Selective Removal of Albendazole from Aqueous Solution.Sensor Letters, 14, (11), 1089-1093, (2016)
Shah MT
Balouch A et al., Review: Arsenic Remediation by Synthetic and Natural Adsorbents.Pakistan Journal of Analytical & Environmental Chemistry, 18, (1), 18-36, (2017)
Abdullah AB et al., Synthesis of ultrasonic-assisted lead ion imprinted polymer as a selective sorbent for the removal of Pb2+ in a real water sample.
Microchemical Journal, 146, 1160-1168, (2019)
Shah N
Shah N et al., Highly improved adsorption selectivity of L-phenylalanine imprinted polymeric submicron/nanoscale beads prepared by modified suspension polymerization.Korean Journal of Chemical Engineering, 28, (9), 1936-1944, (2011)
Shah N et al., Chiral separation of phenylalanine using D-phenylalanine imprinted membrane containing L-phenylalanine imprinted submicron/nanoscale beads.
Journal of Pharmacy Research, 5, (8), 4425-4433, (2012)
Shah N et al., A Brief Overview of Molecularly Imprinted Polymers: From Basics to Applications.
Journal of Pharmacy Research, 5, (6), 3309-3317, (2012)
Shah N et al., Phenylalanine Imprinted Microbeads Prepared by Shaking Method.
International Journal of Engineering Research and Applications, 3, (3), 889-894, (2013)
Shah N et al., Adsorptive molecularly imprinted composite membranes for chiral separation of phenylalanine.
Polish Journal of Chemical Technology The Journal of West Pomeranian University of Technology, Szczecin, 18, (3), 22-29, (2016)
Gul S et al., Fabrication of magnetic core shell particles coated with phenylalanine imprinted polymer.
Polymer Testing, 75, 262-269, (2019)
Shah RN
Umpleby RJ et al., Application of the Freundlich adsorption isotherm in the characterization of molecularly imprinted polymers.Analytica Chimica Acta, 435, (1), 35-42, (2001)
Umpleby RJ et al., Recognition directed site-selective chemical modification of molecularly imprinted polymers.
Macromolecules, 34, (24), 8446-8452, (2001)
Umpleby RJ et al., Characterization of molecularly imprinted polymers with the Langmuir-Freundlich isotherm.
Analytical Chemistry, 73, (19), 4584-4591, (2001)
Rampey AM et al., Characterization of the imprint effect and the influence of imprinting conditions on affinity, capacity, and heterogeneity in molecularly imprinted polymers using the Freundlich isotherm-affinity distribution analysis.
Analytical Chemistry, 76, (4), 1123-1133, (2004)
Shah SJ
Li SH et al., Engineering NSAIDs imprinted UiO-66s for markedly enhanced adsorption of coexisting diclofenac sodium and Cu(II) and their synergistic adsorption mechanism.Chemical Engineering Journal, 426, Article131440-(2021)
Shah SM
Sun XL et al., Highly selective dummy molecularly imprinted polymer as a solid-phase extraction sorbent for five bisphenols in tap and river water.Journal of Chromatography A, 1343, 33-41, (2014)
Sun XL et al., Novel dummy molecularly imprinted polymers for matrix solid-phase dispersion extraction of eight fluoroquinolones from fish samples.
Journal of Chromatography A, 1359, 1-7, (2014)
Sun XL et al., Highly class-selective solid-phase extraction of bisphenols in milk, sediment and human urine samples using well-designed dummy molecularly imprinted polymers.
Journal of Chromatography A, 1360, 9-16, (2014)
Yang JJ et al., Novel sponge-like molecularly imprinted mesoporous silica material for selective isolation of bisphenol A and its analogues from sediment extracts.
Analytica Chimica Acta, 853, 311-319, (2015)
Shah SM et al., Highly Selective Solid-Phase Extraction of Pb(II) by Ion-Imprinted Superparamagnetic Mesoporous Silica.
ChemistrySelect, 4, (1), 259-264, (2019)
Shah T
Yang ZT et al., Development of surface imprinted heterogeneous nitrogen-doped magnetic carbon nanotubes as promising materials for protein separation and purification.Talanta, 224, Article121760-(2021)
Shah V
Gohel P H et al., Drug Eluting Therapeutic Contact Lens.International Journal of Pharmaceutical Research & Allied Sciences, 1, (4), 1-6, (2012)
Shahaidah S
Shahaidah S et al., Characterization of bisphenol A MIP (BPA-MIP) synthesizing.Journal of Applied Sciences, 14, (13), 1455-1459, (2014)
Shahaidah S et al., Molecularly imprinted membrane system for endocrine removal.
Desalination and Water Treatment, 55, 2700-2704, (2015)
Shahar T
Shahar T et al., Molecularly imprinted polymer particles: Formation, characterization and application.Colloids and Surfaces A: Physicochemical and Engineering Aspects, 495, 11-19, (2016)
Shahar T et al., Nanosphere molecularly imprinted polymers doped with gold nanoparticles for high selectivity molecular sensors.
Nano Research, 10, (3), 1056-1063, (2017)
Shahar T et al., Core-shell nanoparticles for gas phase detection based on silver nanospheres coated with a thin molecularly imprinted polymer adsorbed on a chemiresistor.
Nanoscale, 10, (37), 17593-17602, (2018)
Shahbaz G
Gohel P H et al., Drug Eluting Therapeutic Contact Lens.International Journal of Pharmaceutical Research & Allied Sciences, 1, (4), 1-6, (2012)
Shahbazi MA
Ashley J et al., Molecularly imprinted polymers for sample preparation and biosensing in food analysis: Progress and perspectives.Biosensors and Bioelectronics, 91, 606-615, (2017)
Banan K et al., MIP-based extraction techniques for the determination of antibiotic residues in edible meat samples: Design, performance & recent developments.
Trends In Food Science & Technology, 119, 164-178, (2022)
Shahdost-Fard F
Shahdost-Fard F et al., Impedimetric detection of trinitrotoluene by using a glassy carbon electrode modified with a gold nanoparticle@fullerene composite and an aptamer-imprinted polydopamine.Microchimica Acta, 184, (10), 3997-4006, (2017)
Shaheen A
Munawar A et al., Investigating nanohybrid material based on 3D CNTs@Cu nanoparticle composite and imprinted polymer for highly selective detection of chloramphenicol.Journal of Hazardous Materials, 342, 96-106, (2018)
Shahgaldian P
Shahgaldian P et al., Cyclodextrin derivatives as chiral supramolecular receptors for enantioselective sensing.Sensors, 6, (6), 593-615, (2006)
Xiao P et al., Synthesis and characterization of fluoroquinolone-imprinted polymeric nanoparticles.
Reactive and Functional Polymers, 72, (4), 287-293, (2012)
Cumbo A et al., SCS-FH Awards 11. A Novel Synthetic Virus Recognition Nanomaterial for Diagnostic and Environmental Applications.
Chimia, 67, (9), 655-656, (2013)
Cumbo A et al., A synthetic nanomaterial for virus recognition produced by surface imprinting.
Nature Communications, 4, Art. No. 1503-(2013)
Sykora S et al., Virus-like particles as virus substitutes to design artificial virus-recognition nanomaterials.
Chemical Communications, 51, (12), 2256-2258, (2015)
Shahhoseini F
Azizi A et al., Magnetic molecularly imprinted polymers prepared by reversible addition fragmentation chain transfer polymerization for dispersive solid phase extraction of polycyclic aromatic hydrocarbons in water.Journal of Chromatography A, 1610, Article460534-(2020)
Azizi A et al., Micro-gel thin film molecularly imprinted polymer coating for extraction of organophosphorus pesticides from water and beverage samples.
Analytica Chimica Acta, 1187, Article339135-(2021)
Shahhoseini F et al., Thin film molecularly imprinted polymer (TF-MIP), a selective and single-use extraction device for high-throughput analysis of biological samples.
Analyst, 146, (10), 3157-3168, (2021)
Shahidi F
Naczk M et al., Extraction and analysis of phenolics in food.Journal of Chromatography A, 1054, (1-2), 95-111, (2004)
Shahin RY
Mohamed FA et al., Fabrication of water compatible and biodegradable super-paramagnetic molecularly imprinted nanoparticles for selective separation of memantine from human serum prior to its quantification: An efficient and green pathway.International Journal of Biological Macromolecules, 140, 140-148, (2019)
Shahiri Tabarestani M
Shahiri Tabarestani M et al., Synthesis of a nanoporous molecularly imprinted polymers for dibutyl Phthalate extracted from Trichoderma Harzianum.Journal of Nanostructures, 6, (3), 245-249, (2016)
Shahmari M
Jalilian R et al., Ultrasonic-assisted micro solid phase extraction of arsenic on a new ion-imprinted polymer synthesized from chitosan-stabilized pickering emulsion in water, rice and vegetable samples.Ultrasonics Sonochemistry, 61, Article104802-(2020)
Shahmoradi E
Esfandyari-Manesh M et al., The control of morphological and size properties of carbamazepine-imprinted microspheres and nanospheres under different synthesis conditions.Journal of Materials Research, 28, (19), 2677-2686, (2013)
Esfandyari-Manesh M et al., Paclitaxel molecularly imprinted polymer-PEG-folate nanoparticles for targeting anticancer delivery: Characterization and cellular cytotoxicity.
Materials Science and Engineering: C, 62, 626-633, (2016)
Shahna FG
Soleimani E et al., Determination of urinary trans, trans-muconic acid using molecularly imprinted polymer in microextraction by packed sorbent followed by liquid chromatography with ultraviolet detection.Journal of Chromatography B, 1061, 65-71, (2017)
Soleimani E et al., Selective determination of mandelic acid in urine using molecularly imprinted polymer in microextraction by packed sorbent.
Archives of Toxicology, 92, (1), 213-222, (2018)
Soleimani E et al., Correction to: Selective determination of mandelic acid in urine using molecularly imprinted polymer in microextraction by packed sorbent.
Archives of Toxicology, 92, (1), 223-223, (2018)
Shahnazi A
Shahnazi A et al., Synthesis of surface molecularly imprinted poly-o-phenylenediamine/TiO2/carbon nanodots with a highly enhanced selective photocatalytic degradation of pendimethalin herbicide under visible light.Reactive and Functional Polymers, 151, Article104580-(2020)
Shahreza S
Khansari MR et al., Determination of donepezil in serum samples using molecularly imprinted polymer nanoparticles followed by high-performance liquid chromatography with ultraviolet detection.Journal of Separation Science, 39, (5), 1000-1008, (2016)
Khansari1 MR et al., Synthesis of Surface Molecularly Imprinting Polymers for Methylphenidate and its Application in Separating Methylphenidate.
Journal of Analytical & Bioanalytical Techniques, 8, (2), ArticleNo351-(2017)
Shahrokhian S
Mokhtari Z et al., Evaluation of molecular imprinted polymerized methylene blue/aptamer as a novel hybrid receptor for Cardiac Troponin I (cTnI) detection at glassy carbon electrodes modified with new biosynthesized ZnONPs.Sensors and Actuators B: Chemical, 320, Article128316-(2020)
Shahrousvand M
Ghaffari-Bohlouli P et al., Enhanced osteogenesis using poly (l-lactide-co-d, l-lactide)/poly (acrylic acid) nanofibrous scaffolds in presence of dexamethasone-loaded molecularly imprinted polymer nanoparticles.International Journal of Biological Macromolecules, 165, 2363-2377, (2020)
Shahtaheri SJ
Koohpaei AR et al., Molecular Imprinted Solid Phase Extraction for Determination of Atrazine in Environmental Samples.Iranian Journal of Environmental Health Science & Engineering, 5, (4), 283-296, (2008)
Koohpaei AR et al., Application of multivariate analysis to the screening of molecularly imprinted polymers (MIPs) for ametryn.
Talanta, 75, (4), 978-986, (2008)
Koohpaei AR et al., Optimization of solid-phase extraction using developed modern sorbent for trace determination of ametryn in environmental matrices.
Journal of Hazardous Materials, 170, (2-3), 1247-1255, (2009)
Rahiminejad M et al., Molecularly Imprinted Solid Phase Extraction for Trace Analysis of Diazinon in Drinking Water.
Iranian Journal of Environmental Health Science & Engineering, 6, (2), 97-106, (2009)
Rahiminezhad M et al., An experimental investigation of the molecularly imprinted polymers as tailor-made sorbents of diazinon.
Journal of Analytical Chemistry, 65, (7), 694-698, (2010)
Rahiminezhad M et al., Synthesis of Molecularly Imprinted Polymer as A Solid Phase Sorbent for Pesticide Dursban.
International Journal of Occupational Hygiene, 2, (3), 51-56, (2010)
Peighambarzadeh SZ et al., Presence of atrazine in the biological samples of cattle and its consequence adversity in human health.
Iranian Journal of Public Health, 40, (4), 112-121, (2011)
Omidi F et al., Coupling of Molecular Imprinted Polymer Nanoparticles by High Performance Liquid Chromatography as an Efficient Technique for Sensitive and Selective Trace Determination of 4-Chloro-2-Methylphenoxy Acetic Acid in Complex Matrices.
Iranian Journal of Public Health, 43, (5), 645-657, (2014)
Omidi F et al., Application of molecular imprinted polymer nanoparticles as a selective solid phase extraction for preconcentration and trace determination of 2, 4-dichlorophenoxyacetic acid in the human urine and different water samples.
Journal of Environmental Health Science and Engineering, 12, Article No 137-(2014)
Rahiminezhad M et al., Proceeding, Application of Response Surface Methodology to Synthesize Appropriate Molecularly Imprinted Polymer for Diazinon,
Hristoforou E, Vlachos DS (Eds.), 67-70, (2014)
Ganjali MR et al., All Solid State Graphene Based Potentiometric Sensors for Monitoring of Mercury Ions inWasteWater Samples.
International Journal of Environmental Research, 9, (1), 333-340, (2015)
Panjali Z et al., Development of a selective sorbent based on a magnetic ion imprinted polymer for the preconcentration and FAAS determination of urinary cadmium.
Analytical Methods, 7, (8), 3618-3624, (2015)
Khadem M et al., Biomimetic electrochemical sensor based on molecularly imprinted polymer for dicloran pesticide determination in biological and environmental samples.
Journal of the Iranian Chemical Society, 13, (11), 2077-2084, (2016)
Panjali Z et al., A Simple and Fast Method Based on New Magnetic Ion Im-printed Polymer as a Highly Selective Sorbent for Preconcentra-tion and Determination of Cadmium in Environmental Samples.
Iranian Journal of Public Health, 45, (8), 1044-1053, (2016)
Khadem M et al., Modification of Carbon Paste Electrode Based on Molecularly Imprinted Polymer for Electrochemical Determination of Diazinon in Biological and Environmental Samples.
Electroanalysis, 29, (3), 708-715, (2017)
Khadem M et al., Development of a specific electrochemical sensor for occupational and environmental monitoring of Diazinon.
Tehran University Medical Journal - Health and Safety at Work, 7, (1), 9-22, (2017)
Shahtaheri SJ et al., Highly Selective Voltammetric Sensor Based on Molecularly Imprinted Polymer and Carbon Nanotubes to Determine the Dicloran Pesticide in Biological and Environmental Samples.
Procedia Technology, 27, 96-97, (2017)
Heravizadeh OR et al., Synthesis of molecular imprinted polymer nanoparticles followed by application of response surface methodology for optimization of metribuzin extraction from urine samples.
Chemical Papers, 72, (12), 3057-3068, (2018)
Heravizadeh OR et al., Synthesis of molecularly imprinted nanoparticles for selective exposure assessment of permethrin: optimization by response surface methodology.
Journal of Environmental Health Science and Engineering, 17, (1), 393-406, (2019)
Shaikh H
Shaikh H et al., Preparation and characterization of molecularly imprinted polymer for di(2-ethylhexyl) phthalate: Application to sample clean-up prior to gas chromatographic determination.Journal of Chromatography A, 1247, (1), 125-133, (2012)
Shaikh H et al., Core-shell molecularly imprinted polymer-based solid-phase microextraction fiber for ultra trace analysis of endosulfan I and II in real aqueous matrix through gas chromatography-micro electron capture detector.
Journal of Chromatography A, 1337, 179-187, (2014)
Türkmen D et al., Molecular imprinted magnetic nanoparticles for controlled delivery of mitomycin C.
Artificial Cells, Nanomedicine, and Biotechnology, 42, (5), 316-322, (2014)
Shaikh H et al., Synthesis and characterization of molecularly imprinted polymer embedded composite cryogel discs: application for the selective extraction of cypermethrins from aqueous samples prior to GC-MS analysis.
RSC Advances, 5, (34), 26604-26615, (2015)
Shaikh H et al., Molecularly imprinted surface plasmon resonance (SPR) based sensing of bisphenol A for its selective detection in aqueous systems.
Analytical Methods, 7, (11), 4661-4670, (2015)
Malik MI et al., Recent Applications of Molecularly Imprinted Polymers in Analytical Chemistry.
Separation & Purification Reviews, 48, (3), 179-219, (2019)
Zahara S et al., Molecular imprinting-based extraction of rosmarinic acid from Salvia hypoleuca extract.
Reactive and Functional Polymers, 166, Article104984-(2021)
Shainy F
Anirudhan TS et al., Magnetic titanium dioxide embedded molecularly imprinted polymer nanocomposite for the degradation of diuron under visible light.Reactive and Functional Polymers, 152, Article104597-(2020)
Shaka AJ
Arora PS et al., Design and synthesis of a transition state analogue for the Diels-Alder reaction.Bioorganic & Medicinal Chemistry, 6, (9), 1421-1428, (1998)
Shakaff AYM
Hawari HF et al., Proceeding, Development of highly selective electronic nose using molecular imprinted polymer (MIP) for recognition of fruit ripeness,(2012)
Hawari HF et al., Array of MIP-Based Sensor for Fruit Maturity Assessment.
Procedia Chemistry, 6, 100-109, (2012)
Hawari HF et al., Proceeding, Recognition of Limonene volatile using Interdigitated Electrode molecular imprinted polymer sensor,
723-726, (2012)
Halim NFA et al., Grafting Amino-acid Molecular Imprinted Polymer on Carbon Nanotube for Sensing.
Procedia Engineering, 53, 64-70, (2013)
Hawari HF et al., Development of Interdigitated Electrode Molecular Imprinted Polymer Sensor for Monitoring Alpha Pinene Emissions from Mango Fruit.
Procedia Engineering, 53, 197-202, (2013)
Hawari HF et al., Highly selective molecular imprinted polymer (MIP) based sensor array using interdigitated electrode (IDE) platform for detection of mango ripeness.
Sensors and Actuators B: Chemical, 187, 434-444, (2013)
Halim NFA et al., Proceeding, Serine Sensor Based on Graphene Sheet Congo-Red Molecular Imprinted Polymer (GSCR-MIP) Organic Thin Film Transistor (OTFT),
Al-Douri Y (Ed.), 500-504, (2014)
Halim NFAB et al., Reduced graphene oxide/molecular imprinted polymer-organic thin film transistor for amino acid detection.
AIP Conference Proceedings, 1808, (1), ArticleNo020019-(2017)
Shakeri A
Kisomi AS et al., Application of [mu]-TLC for speciation of inorganic arsenic by laser ablation inductively coupled plasma mass spectrometry.Microchemical Journal, 159, Article105443-(2020)
Kisomi AS et al., [mu]-Thin-layer chromatography coupled with laser ablation-inductively coupled plasma-mass spectrometry using tin(II)-imprinted polymer nanoparticles as a stationary phase for speciation of tin.
Microchimica Acta, 187, (5), Article298-(2020)
Shakeri M
Hashemi-Moghaddam H et al., Removal of potentioally genotoxic impurity from fluroxamine maleate crude drug by molecularly imprinted polymer.Korean Journal of Chemical Engineering, 31, (10), 1898-1902, (2014)
Shakerian F
Shakerian F et al., Proceeding, Synthesis of new aluminum ion imprinted polymer for solid phase extraction and preconcentration of Al(III) from different matrices,(2011)
Shakerian F et al., Synthesis and application of nano-pore size ion imprinted polymer for solid phase extraction and determination of zinc in different matrices.
Food Chemistry, 134, (1), 488-493, (2012)
Shakerian F et al., Synthesis of nano-pore size Al(III)-imprinted polymer for the extraction and preconcentration of aluminum ions.
Journal of the Iranian Chemical Society, 10, (4), 669-676, (2013)
Shakerian F et al., Synthesis and characterisation of nano-pore antimony imprinted polymer and its use in the extraction and determination of antimony in water and fruit juice samples.
Food Chemistry, 145, 571-577, (2014)
Shakerian F et al., Advanced polymeric materials: Synthesis and analytical application of ion imprinted polymers as selective sorbents for solid phase extraction of metal ions.
TrAC Trends in Analytical Chemistry, 83, (Part B), 55-69, (2016)
Shakhtakhtinskii TN
Efendiev AA et al., Book chapter, Homogeneous and heterogeneous catalysis, Yermakov Y, Likholobov V (Eds.) VNU Science: Utrecht, 717-725, (1986)Efendiev AA et al., Structural setting of active-centers of metallopolymeric complex catalysis for hydrocarbon substrate.
Kinetics And Catalysis, 27, (2), 451-452, (1986)
Shakhtakhtinsky TN
Efendiev AA et al., Book chapter, Polymer supported metal complex catalysts with memory,In: Preparation of Catalysts VII, Delmon B, Jacobs PA, Maggi R, Martens JA, Grange P, Poncelet G (Eds.) Elesevier: Amsterdam, 533-540, (1998)
Shakil S
Priego-Capote F et al., Monoclonal Behavior of Molecularly Imprinted Polymer Nanoparticles in Capillary Electrochromatography.Analytical Chemistry, 80, (8), 2881-2887, (2008)
Shalaby SW
Shalaby SW et al., Book chapter, Chemical modifications of natural polymers and their technological relevance,In: Water Soluble Polymers: Synthesis, Solution Properties, and Applications, Shalaby SW, Butler GB (Eds.) The American Chemical Society: Washington DC, Ch. 4, 74-80, (1991)
Shalan AE
Davoodi M et al., CdSe Quantum Dot Nanoparticles: Synthesis and Application in the Development of Molecularly Imprinted Polymer-Based Dual Optical Sensors.Industrial & Engineering Chemistry Research, 60, (33), 12328-12342, (2021)
Shalygina Z
Kozitsina AN et al., Determination of urea and creatinine by chronoamperometry.Journal of Analytical Chemistry, 69, (8), 758-762, (2014)
Shamaeli E
Shamaeli E et al., Kinetic studies of electrochemically controlled release of salicylate from nanostructure conducting molecularly imprinted polymer.Electrochimica Acta, 114, 409-415, (2013)
Manbohi A et al., Nanostructure conducting molecularly imprinted polypyrrole film as a selective sorbent for benzoate ion and its application in spectrophotometric analysis of beverage samples.
Food Chemistry, 155, 186-191, (2014)
Shami Z
Amininasab SM et al., Preparation and evaluation of functionalized goethite nanorods coated by molecularly imprinted polymer for selective extraction of bisphenol A in aqueous medium.Journal of Polymer Research, 25, (3), ArticleNo84-(2018)
Amininasab SM et al., Sensitive Detection of Morphine by Efficient Molecular Imprinted Polymers Based on Goethite Nanorods.
Macromolecular Research, 26, (8), 730-737, (2018)
Hassanzadeh M et al., An effective approach for fast selective separation of Cr(VI) from water by ion-imprinted polymer grafted on the electro-spun nanofibrous mat of functionalized polyacrylonitrile.
Reactive and Functional Polymers, 130, 70-80, (2018)
Shamkhali AN
Alizadeh T et al., A Ca2+ selective membrane electrode based on calcium-imprinted polymeric nanoparticles.New Journal of Chemistry, 40, (10), 8479-8487, (2016)
Alizadeh T et al., Synthesis of nano-sized stereoselective imprinted polymer by copolymerization of (S)-2-(acrylamido) propanoic acid and ethylene glycol dimethacrylate in the presence of racemic propranolol and copper ion.
Materials Science and Engineering: C, 63, 247-255, (2016)
Alizadeh T et al., Chiral resolution of salbutamol in plasma sample by a new chiral ligand-exchange chromatography method after its extraction with nano-sized imprinted polymer.
Journal of Chromatography B, 1009-1010, 96-106, (2016)
Shams AMR
Ramezani F et al., Molecularly Imprinted Polymer of Colocynthin, An Effective Tool for Quality Control of Citrullus colocynthis Extracts.Current Drug Discovery Technologies, 14, (3), 169-180, (2017)
Shamsi M
Aeinehvand R et al., Synthesis of poly(2-hydroxyethyl methacrylate)-based molecularly imprinted polymer nanoparticles containing timolol maleate: morphological, thermal, and drug release along with cell biocompatibility studies.Polymers for Advanced Technologies, 28, (7), 828-841, (2017)
Madadian-Bozorg N et al., Poly (methacrylic acid)-based molecularly imprinted polymer nanoparticles containing 5-fluourouracil used in colon cancer therapy potentially.
Polymers for Advanced Technologies, 29, (8), 2401-2409, (2018)
Shamsi SA
Zheng J et al., Book chapter, Chiral Analysis in Capillary Electrochromatography (CEC) and CEC Coupled to Mass Spectrometry,In: Chiral Separation Techniques, Subramanian G (Ed.) WILEY-VCH Verlag GmbH & Co.: Weinheim, Ch. 14, 441-504, (2007)
Priego-Capote F et al., Monoclonal Behavior of Molecularly Imprinted Polymer Nanoparticles in Capillary Electrochromatography.
Analytical Chemistry, 80, (8), 2881-2887, (2008)
Shamsipur H
Shamsipur M et al., A stoichiometric imprinted chelating resin for selective recognition of copper(II) ions in aqueous media.Analytica Chimica Acta, 599, (2), 294-301, (2007)
Shamsipur M
Khajeh M et al., Imprinted polymer particles for selenium uptake: Synthesis, characterization and analytical applications.Analytica Chimica Acta, 581, (2), 208-213, (2007)
Shamsipur M et al., Grafting of Ion-Imprinted Polymers on the Surface of Silica Gel Particles through Covalently Surface-Bound Initiators: A Selective Sorbent for Uranyl Ion.
Analytical Chemistry, 79, (18), 7116-7123, (2007)
Shamsipur M et al., A stoichiometric imprinted chelating resin for selective recognition of copper(II) ions in aqueous media.
Analytica Chimica Acta, 599, (2), 294-301, (2007)
Shamsipur M et al., Synthesis and characterization of novel ion-imprinted polymeric nanoparticles for very fast and highly selective recognition of copper(II) ions.
Talanta, 83, (2), 674-681, (2010)
Fasihi J et al., Adsorption of uranyl ion onto an anthraquinone based ion-imprinted copolymer.
Reactive and Functional Polymers, 71, (8), 803-808, (2011)
Shamsipur M et al., Synthesis of a novel nanostructured ion-imprinted polymer for very fast and highly selective recognition of copper(II) ions in aqueous media.
Reactive and Functional Polymers, 71, (2), 131-139, (2011)
Rajabi HR et al., Preparation of a novel potassium ion imprinted polymeric nanoparticles based on dicyclohexyl 18C6 for selective determination of K+ ion in different water samples.
Materials Science and Engineering: C, 33, (6), 3374-3381, (2013)
Rajabi HR et al., Development of a highly selective voltammetric sensor for nanomolar detection of mercury ions using glassy carbon electrode modified with a novel ion imprinted polymeric nanobeads and multi-wall carbon nanotubes.
Journal of Electroanalytical Chemistry, 693, 16-22, (2013)
Shamsipur M et al., Bulk polymer nanoparticles containing a tetrakis(3-hydroxyphenyl)porphyrin for fast and highly selective separation of mercury ions.
Microchimica Acta, 180, (9-10), 791-799, (2013)
Shamsipur M et al., Flame photometric determination of cesium ion after its preconcentration with nanoparticles imprinted with the cesium-dibenzo-24-crown-8 complex.
Microchimica Acta, 180, (3-4), 243-252, (2013)
Bahrami A et al., A highly selective voltammetric sensor for sub-nanomolar detection of lead ions using a carbon paste electrode impregnated with novel ion imprinted polymeric nanobeads.
Electrochimica Acta, 118, 92-99, (2014)
Gholivand MB et al., Development of a selective and sensitive voltammetric sensor for propylparaben based on a nanosized molecularly imprinted polymer-carbon paste electrode.
Materials Science and Engineering: C, 36, 102-107, (2014)
Shamsipur M et al., Ion imprinted polymeric nanoparticles for selective separation and sensitive determination of zinc ions in different matrices.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 117, 24-33, (2014)
Shamsipur M et al., Silver ion imprinted polymer nanobeads based on a aza-thioether crown containing a 1, 10-phenanthroline subunit for solid phase extraction and for voltammetric and potentiometric silver sensors.
Analytica Chimica Acta, 852, 223-235, (2014)
Bahrami A et al., A highly selective voltammetric sensor for nanomolar detection of mercury ions using a carbon ionic liquid paste electrode impregnated with novel ion imprinted polymeric nanobeads.
Materials Science and Engineering: C, 48, 205-212, (2015)
Besharati-Seidani A et al., Ion-imprinted polymeric nanoparticles for fast and selective separation of lanthanum(III).
Microchimica Acta, 182, (9-10), 1747-1755, (2015)
Hashemi B et al., Synthesis and characterization of ion imprinted polymeric nanoparticles for selective extraction and determination of mercury ions.
Analytical Methods, 7, (22), 9641-9648, (2015)
Hashemi B et al., Synthesis of novel ion-imprinted polymeric nanoparticles based on dibenzo-21-crown-7 for the selective pre-concentration and recognition of rubidium ions.
Journal of Separation Science, 38, (24), 4248-4254, (2015)
Rajabi HR et al., On-line flow injection solid phase extraction using imprinted polymeric nanobeads for the preconcentration and determination of mercury ions.
Chemical Engineering Journal, 259, 330-337, (2015)
Bagheri H et al., Magnetic molecularly imprinted composite for the selective solid-phase extraction of p-aminosalicylic acid followed by high-performance liquid chromatography with ultraviolet detection.
Journal of Separation Science, 39, (21), 4166-4174, (2016)
Fasihi J et al., Imprinted polymer grafted from silica particles for on-line trace enrichment and ICP OES determination of uranyl ion.
Microchemical Journal, 126, 316-321, (2016)
Hashemi B et al., Synthesis of ion imprinted polymeric nanoparticles for selective pre-concentration and recognition of lithium ions.
New Journal of Chemistry, 40, (5), 4803-4809, (2016)
Hashemi B et al., Preparation of a K+-imprinted polymer for the selective recognition of K+ in food samples.
Journal of Separation Science, 39, (10), 2006-2012, (2016)
Hashemi B et al., Recent developments and applications of different sorbents for SPE and SPME from biological samples.
Talanta, 187, 337-347, (2018)
Shamsipur M et al., Coupled electrochemical-chemical procedure used in construction of molecularly imprinted polymer-based electrode: a highly sensitive impedimetric melamine sensor.
Journal of Solid State Electrochemistry, 22, (1), 169-180, (2018)
Shamsipur M et al., Synthesis, characterization and using a new terpyridine moiety-based ion-imprinted polymer nanoparticle: sub-nanomolar detection of Pb(II) in biological and water samples.
Chemical Papers, 72, (11), 2707-2717, (2018)
Ardalani M et al., A new generation of highly sensitive potentiometric sensors based on ion imprinted polymeric nanoparticles/multiwall carbon nanotubes/polyaniline/graphite electrode for sub-nanomolar detection of lead(II) ions.
Journal of Electroanalytical Chemistry, 879, Article114788-(2020)
Shamsipur M et al., Development of an ultrasensitive electrochemical genosensor for detection of HIV-1 pol gene using a gold nanoparticles coated carbon paste electrode impregnated with lead ion-imprinted polymer nanomaterials as a novel electrochemical probe.
Microchemical Journal, 160, Article105714-(2021)
Shamspur T
Afzali M et al., Developing a novel sensor based on ionic liquid molecularly imprinted polymer/gold nanoparticles/graphene oxide for the selective determination of an anti-cancer drug imiquimod.Biosensors and Bioelectronics, 143, Article111620-(2019)
Afzali M et al., Designing a rapid and selective electrochemical nanosensor based on molecularly imprinted polymer on the Fe3O4/MoS2/glassy carbon electrode for detection of immunomodulatory drug pomalidomide.
Microchemical Journal, 164, Article106039-(2021)
Shan D
Pan Y et al., Developing a generally applicable electrochemical sensor for detecting macrolides in water with thiophene-based molecularly imprinted polymers.Water Research, 205, Article117670-(2021)
Shan GM
Liu ZL et al., Book chapter, Future Perspectives and Challenges,In: Immunoassays in Agricultural Biotechnology, Shan GM (Ed.) John Wiley & Sons, Inc.: Hoboken, New Jersey, 325-339, (2011)
Shan JJ
Shan JJ et al., Preparation of Quercetin-Cu(II) Complex Molecularly Imprinted Polymer and Its Binding Characteristics.Acta Polymerica Sinica, (1), 100-106, (2011)
Shan JJ et al., Preparation and Characterization of a Metal-Complexing Imprinted Polymer for Improved Quercetin Recognition.
Separation Science and Technology, 46, (1), 164-171, (2011)
Huangfu FY et al., Enantioselective analysis of naproxen using chiral molecular imprinting polymers based thin-layer chromatography.
E-Polymers, Art No 017-(2013)
Liu J et al., Precipitate Preparation of Chloramphenicol Molecularly Imprinted Nanospheres By Electron Beam Radiation.
Polymer Materials Science and Engineering, 30, (7), 143-148, (2014)
Guo C et al., Preparation of Thermosensitive Hollow Imprinted Microspheres via Combining Distillation Precipitation Polymerization and Thiol-ene Click Chemistry.
Chinese Journal of Chemistry, 33, (2), 225-234, (2015)
Guo C et al., Preparation of ibuprofen's metal-complexing imprinted polymer membrane via radiation polymerization.
Journal of Functional Materials, 46, (14), 14134-14139, (2015)
Sun ZC et al., Preparation and Characterization of Vanillin Molecularly Imprinted Polymer Microspheres.
Modern Food Science and Technology, 31, (9), 132-137, (2015)
Wang S et al., Preparation of magnetic molecularly imprinted polymer beads and their recognition for baicalein.
RSC Advances, 5, (11), 8028-8036, (2015)
Wang S et al., Synthesis of Baicalein Imprinted Polymer Microspheres by Precipitation Polymerization.
Polymer Materials Science and Engineering, 31, (1), 170-174+179, (2015)
Si HT et al., Synthesis of magnetic molecularly imprinted nanoparticles and their selective adsorption for dibenzothiophene.
Journal of Functional Materials, 47, (S1), 188-192, (2016)
Sun ZC et al., Preparation of Cadmium(II) Ion Imprinted Polymer Microspheres by Seedball Swelling Suspension Polymerization.
Chinese Journal of Materials Research, 30, (9), 669-674, (2016)
Shan LL
Shan LL, Electrochemical Determination of Methandrostenolone Using a Molecularly Imprinted Sensor.International Journal of Electrochemical Science, 15, 12587-12598, (2020)
Shan LQ
Yin XY et al., Proceeding, Preparation and recognition properties of andrographolide molecularly imprinted ploymer microspheres,Zhang GJ, Xu J (Eds.), 777-782, (2010)
Shan WG
Wang ZC et al., Preparation of Capsaicin Molecular Imprinting Polymers and Application to Solid Phase Extraction.Food Science, 34, (12), 45-50, (2013)
Fu LL et al., Magnetic carbon nanotubes-molecularly imprinted polymer coupled with HPLC for selective enrichment and determination of ferulic acid in traditional Chinese medicine and biological samples.
Journal of Chromatography B, 1180, Article122870-(2021)
Shan WJ
Xiong Y et al., Adsorption-controlled preparation of anionic imprinted amino-functionalization chitosan for recognizing rhenium(VII).Separation and Purification Technology, 177, 142-151, (2017)
Shan X
Zhang YQ et al., Development of a molecularly imprinted membrane for selective separation of flavonoids.Separation and Purification Technology, 76, (3), 337-344, (2011)
Shan XC
Yang HR et al., Site-imprinted hollow composites with integrated functions for ultra-efficient capture of hexavalent chromium from water.Separation and Purification Technology, 284, Article120240-(2022)
Shan XL
Chen ZD et al., Preparation of molecularly imprinted polypyrrole/Fe3O4 composite material and its application in recognition of tryptophan enantiomers.Chinese Journal of Chromatography, 30, (4), 423-427, (2012)
Kong Y et al., A novel voltammetric sensor for ascorbic acid based on molecularly imprinted poly(o-phenylenediamine-co-o-aminophenol).
Analytica Chimica Acta, 809, 54-60, (2014)
Shan XL et al., Spontaneous and specific binding of enterohemorrhagic Escherichia coli to overoxidized polypyrrole-coated microspheres.
Chemical Communications, 53, (27), 3890-3893, (2017)
Shan XL et al., Binding Constant of the Cell-shaped Cavity Formed on a Polymer for Escherichia coli O157.
Analytical Sciences, 34, (4), 483-486, (2018)
Shan XL et al., A rapid and specific bacterial detection method based on cell-imprinted microplates.
Analyst, 143, (7), 1568-1574, (2018)
Chen XH et al., Derivative chiral copper(II) complexes as template of an electrochemical molecular imprinting sol-gel sensor for enantiorecognition of aspartic acid.
Analytica Chimica Acta, 1072, 54-60, (2019)
Shan XQ
Shan XQ et al., A molecularly imprinted electrochemical sensor based on Au nanocross-chitosan composites for detection of paraquat.Journal of Solid State Electrochemistry, 23, (4), 1211-1220, (2019)
Shan XY
Ye HP et al., Magnetic molecularly imprinted polymers for extraction of S-phenylmercapturic acid from urine samples followed by high-performance liquid chromatography.Journal of Molecular Recognition, 34, (11), Article_e2930-(2021)
Zhao YJ et al., A novel molecularly imprinted polymer electrochemiluminescence sensor based on Fe2O3@Ru(bpy)32+ for determination of clenbuterol.
Sensors and Actuators B: Chemical, 350, Article130822-(2022)
Shan YJ
Wang ZH et al., Determination of the azo dye, sunset yellow, using carbon paste electrode modified with molecularly imprinted polymer.Indian Journal of Chemistry, 55A, 1458-1464, (2016)
Wang ZH et al., Development and application of the tartrazine voltammetric sensors based on molecularly imprinted polymers.
International Journal of Polymer Analysis and Characterization, 22, (1), 83-91, (2017)
Shang C
Chen AW et al., Novel thiourea-modified magnetic ion-imprinted chitosan/TiO2 composite for simultaneous removal of cadmium and 2, 4-dichlorophenol.Chemical Engineering Journal, 191, (1), 85-94, (2012)
Zhou LM et al., Selective adsorption of uranium(VI) from aqueous solutions using the ion-imprinted magnetic chitosan resins.
Journal of Colloid and Interface Science, 366, (1), 165-172, (2012)
Shang C et al., Adsorption properties for uranium(VI) ions using ion-imprinted magnetic chitosan microspheres.
Polymer Materials Science and Engineering, 29, (1), 56-59, (2013)
Chen AW et al., Carbon disulfide-modified magnetic ion-imprinted chitosan-Fe(III): A novel adsorbent for simultaneous removal of tetracycline and cadmium.
Carbohydrate Polymers, 155, 19-27, (2017)
Shang H
Wang YL et al., Sol-gel molecularly imprinted polymer for selective solid phase microextraction of organophosphorous pesticides.Talanta, 115, 920-927, (2013)
Shang HX
Li GS et al., Study on Adsorption Character of Clenbuterol Molecularly Imprinted Polymer.Chemistry & Bioengineering, 22, (6), 28-30, (2005)
Shang HZ
Shang HZ et al., Recent research development of molecular imprinting polymer.Modern Chemical Industry, 33, (12), 28-30, 32, (2013)
Shang HZ et al., Research progress of ion imprinted polymer.
Modern Chemical Industry, 33, (2), 20-23, 25, (2013)
Shang HZ et al., Latest research development of ion imprinted polymer.
Modern Chemical Industry, 36, (9), 32-35, (2016)
Wang HQ et al., Preparation and adsorption performance of novel ion imprinting magnetic microspheres.
Modern Chemical Industry, 36, (5), 57-60, (2016)
He JN et al., Synthesis and application of ion imprinting polymer coated magnetic multi-walled carbon nanotubes for selective adsorption of nickel ion.
Applied Surface Science, 428, 110-117, (2018)
Zhang X et al., Preparation and properties of thermo-sensitive surface Pb(II) ion-imprinted polymers.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 577, 138-146, (2019)
Shang J
Zhang HC et al., A Conductometric Sensor Based on Screen Printed Electrode Modified with Multi-walled Carbon Nanotubes and Molecularly Imprinted Membrane for Determination of Ractopamine in Pig Urine.Chinese Journal of Analytical Chemistry, 40, (1), 95-100, (2012)
Shang JB
Shang JB et al., Preparation and selective adsorption of organic pollutants by an inorganic molecular imprinted polymer.Water Science And Technology, 74, (5), 1193-1201, (2016)
Song YQ et al., Synthesis of an inorganic-framework molecularly imprinted Fe-doped TiO2 composite and its selective photo-Fenton-like degradation of acid orange II.
Journal of Chemical Technology & Biotechnology, 92, (8), 2038-2049, (2017)
Song YQ et al., Selective Fenton-like catalytic oxidation of acid orange II on inorganic heterogeneous molecular imprinted catalysts.
Journal of Advanced Oxidation Technologies, 20, (1), ArticleNo20160195-(2017)
Zhang YY et al., Selective Fenton-like oxidation of methylene blue on modified Fe-zeolites prepared via molecular imprinting technique.
Water Science And Technology, 75, (3), 659-(2017)
Shang L
Shang L et al., 3D Porous Graphene-Porous PdCu Alloy Nanoparticles-Molecularly Imprinted Poly(para-aminobenzoic acid) Composite for the Electrocatalytic Assay of Melamine.ACS Applied Materials & Interfaces, 6, (21), 18721-18727, (2014)
Pan YH et al., A novel electrochemical 4-nonyl-phenol sensor based on molecularly imprinted poly (o-phenylenediamine-co-o-toluidine)-nitrogen-doped graphene nanoribbons-ionic liquid composite film.
Electrochimica Acta, 151, 423-428, (2015)
Shang L et al., LSPR sensor array based on molecularly imprinted sol-gels for pattern recognition of volatile organic acids.
Sensors and Actuators B: Chemical, 249, 14-21, (2017)
Liu CJ et al., Preparation of molecularly imprinted polymer nanobeads for selective sensing of carboxylic acid vapors.
Analytica Chimica Acta, 1010, 1-10, (2018)
Shang L et al., Development of molecular imprinted sol-gel based LSPR sensor for detection of volatile cis-jasmone in plant.
Sensors and Actuators B: Chemical, 260, 617-626, (2018)
Shang L et al., Plant Biomarker Recognition by Molecular Imprinting Based Localized Surface Plasmon Resonance Sensor Array: Performance Improvement by Enhanced Hotspot of Au Nanostructure.
ACS Sensors, 3, (8), 1531-1538, (2018)
Shang LR
Wang H et al., Boronate affinity molecularly imprinted inverse opal particles for multiple label-free bioassays.Chemical Communications, 52, (16), 3296-3299, (2016)
Chen HX et al., Hierarchically Molecular Imprinted Porous Particles for Biomimetic Kidney Cleaning.
Advanced Materials, 32, (52), Article2005394-(2020)
Shang M
Xu JS et al., Simultaneous self-assembly of molecularly imprinted magnetic nanoparticles to construct a magnetically responsive photonic crystals sensor for bisphenol A.Sensors and Actuators B: Chemical, 338, Article129858-(2021)
Shang PL
Yang SM et al., Electrochemical determination of thrombin with molecularly imprinted polymers and multiwalled carbon nanotubes.Canadian Journal of Chemistry - Revue Canadienne de Chimie, 95, (7), 799-805, (2017)
Li LL et al., Preparation and Application of Bisphenol-A TiO2 Gel Molecularly Imprinted Electrochemical Sensor Based on the Sensitivity-Enhancement of Gold Nanoparticles.
Chinese Journal of Applied Chemistry, 35, (4), 484-490, (2018)
Shang PP
Zhang LL et al., Determination of kanamycin using a molecularly imprinted SPR sensor.Food Chemistry, 266, 170-174, (2018)
Zhao L et al., Improving affinity of [beta]-cyclodextrin-based molecularly imprinted polymer using room temperature ionic liquid.
European Polymer Journal, 116, 275-282, (2019)
Shang W
Wen YQ et al., Preparation of Molecularly Imprinted Polymers Microsphere and its Applications Progress.Chemical Industry and Engineering Progress, 24, (1), 25-27+56, (2005)
Shang XG
Yang ZP et al., Photoelectrochemical bilirubin biosensor based on Fe3O4/hydroxyapatite/molecularly imprinted polypyrrole nanoparticles.Sensors and Actuators B: Chemical, 201, 167-172, (2014)
Shang YZ
Wang P et al., Preparation of hydrophilic molecularly imprinted polymers for tetracycline antibiotics recognition.Chinese Chemical Letters, 22, (5), 611-614, (2011)
Wang P et al., Fluorescent, magnetic dual-responsive molecularly imprinted polymers for the selective detection of moxidectin in animal samples.
Journal of the Iranian Chemical Society, 14, (4), 755-762, (2017)
Shang ZH
Wang JF et al., Simultaneously molecular imprinting chiral stationary phase.Chinese Journal of Analytical Chemistry, 28, (12), 1531-1534, (2000)
Wang JF et al., Simultaneous chiral separation of two pairs of enantiomers using series column of molecular imprinted phase.
Chinese Journal of Analytical Chemistry, 28, (9), 1096-1098, (2000)
Su LQ et al., Investigation of separation of caffeine and theophylline on molecular imprinted polymer stationary phases by high performance liquid chromatography.
Chemical Journal of Chinese Universities, 22, (7), 1122-1124, (2001)
Liu XL et al., The application and advancement of molecular imprinting technology.
Chinese Journal of Analytical Chemistry, 30, (10), 1260-1266, (2002)
Shang ZY
Han CF et al., Detection of hidden drugs with a molecularly imprinted electrochemiluminescence sensor.Analytical Methods, 5, (21), 6064-6070, (2013)
Shang ZY et al., Advance Research of Molecular Imprinted Chemical Sensors Based on Electropolymerization.
Journal of Instrumental Analysis, 32, (11), 1401-1408, (2013)
Shang ZY et al., An Electrochemiluminescence Sensor with Molecularly Imprinted Polymer for Heroin Detection.
Chinese Journal of Analytical Chemistry, 42, (6), 904-908, (2014)
Shangguan DH
Chen ZY et al., Preparation and evaluation of uniform-sized molecularly imprinted polymer beads used for the separation of sulfamethazine.Biomedical Chromatography, 19, (7), 533-538, (2005)
Liu XJ et al., Monolithic molecularly imprinted polymer for sulfamethoxazole and molecular recognition properties in aqueous mobile phase.
Analytica Chimica Acta, 571, (2), 235-241, (2006)
Liu XJ et al., Uniform-sized molecularly imprinted polymer for metsulfuron-methyl by one-step swelling and polymerization method.
Talanta, 71, (3), 1205-1210, (2007)
Shanmuganathan S
Karthika P et al., Molecularly imprinted polymer-based electrochemical sensor for the determination of endocrine disruptor bisphenol-A in bovine milk.Food Chemistry, 363, Article130287-(2021)
Shanmugasundaram K
Anantha-Iyengar G et al., Functionalized conjugated polymers for sensing and molecular imprinting applications.Progress in Polymer Science, 88, 1-129, (2019)
Shannon C
Wang TY et al., Electrochemical sensors based on molecularly imprinted polymers grafted onto gold electrodes using click chemistry.Analytica Chimica Acta, 708, (1-2), 37-43, (2011)
Shanq T
Zhu JF et al., Proceeding, Synthesis and Adsorption of Molecularly Imprinted Polymers of Dibutyl Phthalate in Food,Li B (Ed.), 340-343, (2012)
Shanzer A
Rubinstein I et al., Ionic recognition and selective response in self-assembling monolayer membranes on electrodes.Nature, 332, (6163), 426-429, (1988)
Shao B
Yang YJ et al., Molecularly Imprinted Solid-Phase Extraction for Selective Extraction of Bisphenol Analogues in Beverages and Canned Food.Journal of Agricultural and Food Chemistry, 62, (46), 11130-11137, (2014)
Shao DJ
Ge YR et al., Preparation and Evaluation of Florfenicol Imprinted Polymers by Using Nano-Titanium Dioxide.Asian Journal of Chemistry, 25, (16), 9105-9109, (2013)
Shao DL
Kan XW et al., Preparation and Recognition Properties of Bovine Hemoglobin Magnetic Molecularly Imprinted Polymers.Journal of Physical Chemistry B, 114, (11), 3999-4004, (2010)
Shao G
Wang LH et al., Selectivity of two types of sulfadimidine-imprinted monolithic polymer-based fibers.Journal of Separation Science, 35, (7), 816-822, (2012)
Shao GS
Cao JS et al., A cellulose-based temperature sensitivity molecular imprinted hydrogel for specific recognition and enrichment of paclitaxel.International Journal of Biological Macromolecules, 181, 1231-1242, (2021)
Wu XD et al., Preparation and application of modified three-dimensional cellulose microspheres for paclitaxel targeted separation.
Journal of Chromatography A, 1655, Article462487-(2021)
Shao H
Deng QL et al., Molecularly imprinted polymers as tools for the screening of felodipine from dihydropyridine calcium antagonists by pressurized capillary electrochromatography.Analytical and Bioanalytical Chemistry, 382, (1), 51-58, (2005)
Wang M et al., Determination of Melamine Using Magnetic Molecular Imprinted Polymers and High Performance Liquid Chromatography.
Analytical Letters, 46, (1), 120-130, (2013)
Du XW et al., Synthesis and Application of Class-specific Molecularly Imprinted Polymer for Triazine Pesticides.
Journal of Instrumental Analysis, 34, (7), 755-761, (2015)
Liu GY et al., Preparation of a magnetic molecularly imprinted polymer using g-C3N4-Fe3O4 for atrazine adsorption.
Materials Letters, 160, 472-475, (2015)
Du XW et al., Fluorescent competitive assay for melamine using dummy molecularly imprinted polymers as antibody mimics.
Journal of Integrative Agriculture, 15, (5), 1166-1177, (2016)
Li TF et al., Electrochemical detection of ractopamine based on a molecularly imprinted poly-o-phenylenediamine/gold nanoparticle-ionic liquid-graphene film modified glass carbon electrode.
RSC Advances, 6, (71), 66949-66956, (2016)
Liu GY et al., Competitive fluorescence assay for specific recognition of atrazine by magnetic molecularly imprinted polymer based on Fe3O4-chitosan.
Carbohydrate Polymers, 137, 75-81, (2016)
Zeng SM et al., Analysis of Four Tropane Alkaloids in Przewalskia Tangutica Maxim.by Analogous-specific Molecularly Imprinted Solid-phase Extraction Combined with High Performance Liquid Chromatography.
Journal of Instrumental Analysis, 35, (4), 373-379, (2016)
Zhang C et al., Preparation of an Electrochemical Sensor Based on Molecularly Imprinted Polymer and Its Application in Determination of Glyphosate Residues in Water Samples.
Journal of Instrumental Analysis, 35, (12), 1542-1547, (2016)
Chen G et al., A sensitive chemiluminescence enzyme immunoassay based on molecularly imprinted polymers solid-phase extraction of parathion.
Analytical Biochemistry, 530, 87-93, (2017)
Zhang C et al., A highly selective electrochemical sensor based on molecularly imprinted polypyrrole-modified gold electrode for the determination of glyphosate in cucumber and tap water.
Analytical and Bioanalytical Chemistry, 409, (30), 7133-7144, (2017)
Zhao FN et al., Selective Determination of Chloramphenicol in Milk Samples by the Solid-Phase Extraction Based on Dummy Molecularly Imprinted Polymer.
Food Analytical Methods, 10, (7), 2566-2575, (2017)
Zhao FN et al., Selective solid-phase extraction based on molecularly imprinted technology for the simultaneous determination of 20 triazole pesticides in cucumber samples using high-performance liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 1064, 143-150, (2017)
Zhao FN et al., Subcritical water extraction combined with molecular imprinting technology for sample preparation in the detection of triazine herbicides.
Journal of Chromatography A, 1515, 17-22, (2017)
Hong SH et al., Biomimetic enzyme-linked immunoassay based on a molecularly imprinted 96-well plate for the determination of triazophos residues in real samples.
RSC Advances, 8, (37), 20549-20556, (2018)
Yan MM et al., Advance of molecularly imprinted technology based on nanomaterials.
Chinese Journal of Analysis Laboratory, 37, (5), 607-613, (2018)
Zhang C et al., A disposable molecularly imprinted sensor based on Graphe@AuNPs modified screen-printed electrode for highly selective and sensitive detection of cyhexatin in pear samples.
Sensors and Actuators B: Chemical, 284, 13-22, (2019)
Zhao MJ et al., The determination of patulin from food samples using dual-dummy molecularly imprinted solid-phase extraction coupled with LC-MS/MS.
Journal of Chromatography B, 1125, Article121714-(2019)
Zhao MJ et al., Preparation of core-shell magnetic molecularly imprinted polymers for extraction of patulin from juice samples.
Journal of Chromatography A, 1615, Article460751-(2020)
Shao HH
Shao HH et al., An ion-imprinted material embedded carbon quantum dots for selective fluorometric determination of lithium ion in water samples.Microchimica Acta, 184, (12), 4861-4868, (2017)
Shao HJ
Jia MF et al., A molecular imprinting fluorescence sensor based on quantum dots and a mesoporous structure for selective and sensitive detection of 2, 4-dichlorophenoxyacetic acid.Sensors and Actuators B: Chemical, 252, 934-943, (2017)
Shao HK
Shao HK et al., Preparation, characterization and application of molecularly imprinted monolithic column for hesperetin.Journal of Pharmaceutical and Biomedical Analysis, 111, 241-247, (2015)
Shao HK et al., Preparation of molecularly imprinted hybrid monoliths for the selective detection of fluoroquinolones in infant formula powders.
Journal of Chromatography A, 1588, 33-40, (2019)
Shao J
Sui GQ et al., Synthesis of SERS imprinted membrane based on Ag/ESM with different morphologies for selective detection of antibiotics in aqueous sample.Optical Materials, 121, Article111581-(2021)
Xue Y et al., Rapid detection of orange II dyes in water with SERS imprinted sensor based on PDA-modified MOFs@Ag.
Journal of Environmental Chemical Engineering, 9, (6), Article106317-(2021)
Ye HP et al., Magnetic molecularly imprinted polymers for extraction of S-phenylmercapturic acid from urine samples followed by high-performance liquid chromatography.
Journal of Molecular Recognition, 34, (11), Article_e2930-(2021)
Shao JD
Jiang H et al., Magnetic molecularly imprinted polymer nanoparticles based electrochemical sensor for the measurement of Gram-negative bacterial quorum signaling molecules (N-acyl-homoserine-lactones).Biosensors and Bioelectronics, 75, 411-419, (2016)
de Dieu Habimana J et al., A class-specific artificial receptor-based on molecularly imprinted polymer-coated quantum dot centers for the detection of signaling molecules, N-acyl-homoserine lactones present in gram-negative bacteria.
Analytica Chimica Acta, 1031, 134-144, (2018)
Shao JH
Chen AW et al., Carbon disulfide-modified magnetic ion-imprinted chitosan-Fe(III): A novel adsorbent for simultaneous removal of tetracycline and cadmium.Carbohydrate Polymers, 155, 19-27, (2017)
Shao L
Wang XY et al., Determination of enrofloxacin residue in chicken muscle using molecular imprinted solid phase extraction-high performance capillary electrophoresis.Chinese Journal of Chromatography, 28, (11), 1107-1110, (2010)
Shao LY
Xie ZY et al., Highly-sensitive optical biosensor based on equal FSR cascaded microring resonator with intensity interrogation for detection of progesterone molecules.Optics Express, 25, (26), ArticleNo33193-(2017)
Shao MD
Wei SL et al., Preparation of magnetic Pb(II) and Cd(II) ion-imprinted microspheres and their application in determining the Pb(II) and Cd(II) contents of environmental and food samples.RSC Advances, 4, (56), 29715-29723, (2014)
Shao MW
Chen T et al., Molecularly imprinted polymer-coated silicon nanowires for protein specific recognition and fast separation.Journal of Materials Chemistry, 22, (9), 3990-3996, (2012)
Shao MY
Shao MY et al., Carbon Quantum Dots Encapsulated Molecularly Imprinted Fluorescence Quenching Particles for Sensitive Detection of Zearalenone in Corn Sample.Toxins, 10, (11), ArticleNo438-(2018)
Shao N
Huang RJ et al., Fabrication of an efficient surface ion-imprinted polymer based on sandwich-like graphene oxide composite materials for fast and selective removal of lead ions.Colloids and Surfaces A: Physicochemical and Engineering Aspects, 566, 218-228, (2019)
Shao PH
Lai WQ et al., Optimization of adsorption configuration by DFT calculation for design of adsorbent: A case study of palladium ion-imprinted polymers.Journal of Hazardous Materials, 379, Article120791-(2019)
Yu HY et al., Palladium ion-imprinted polymers with PHEMA polymer brushes: Role of grafting polymerization degree in anti-interference.
Chemical Engineering Journal, 359, 176-185, (2019)
Ni CQ et al., Selective removal and recovery of La(III) using a phosphonic-based ion imprinted polymer: Adsorption performance, regeneration, and mechanism.
Journal of Environmental Chemical Engineering, 9, (6), Article106701-(2021)
Shao RT
Hao J et al., Determination of Eleven [beta]-Blocker Residues in Animal Derived Foods by Ultra High Performance Liquid Chromatography-Tandem Mass Spectrometry with Molecularly Imprinted Solid Phase Extraction.Journal of Instrumental Analysis, 35, (10), 1278-1282, (2016)
Shao S
Malyshev V et al., Determination of Asymmetric Dimethylarginine by Using Organic Semiconductor-Based Molecularly Imprinted Polymer Film.ECS Journal of Solid State Science and Technology, 7, (7), Q3189-Q3195, (2018)
Bartold K et al., Promoting bioanalytical concepts in genetics: A TATA box molecularly imprinted polymer as a small isolated fragment of the DNA damage repairing system.
Materials Science and Engineering: C, 100, 1-10, (2019)
Dabrowski M et al., Facile Fabrication of Surface-Imprinted Macroporous Films for Chemosensing of Human Chorionic Gonadotropin Hormone.
ACS Applied Materials & Interfaces, 11, (9), 9265-9276, (2019)
Shao SY
Pan Y et al., A SAW-Based Chemical Sensor for Detecting Sulfur-Containing Organophosphorus Compounds Using a Two-Step Self-Assembly and Molecular Imprinting Technology.Sensors, 14, (5), 8810-8820, (2014)
Pan Y et al., Selective Surface Acoustic Wave-Based Organophosphorus Sensor Employing a Host-Guest Self-Assembly Monolayer of [beta]-Cyclodextrin Derivative.
Sensors, 15, (8), 17916-17925, (2015)
Shao W
Zheng HY et al., Molecular simulation for preparation of molecularly imprinted polymers of salicylic acid by using different functional monomers.Computers and Applied Chemistry, 25, (12), 1577-1580, (2008)
Shao XJ
Wei YF et al., Preparation of diphenylguanidine-imprinted polymer and its application for solid-phase extraction.Journal of Instrumental Analysis, 27, (10), 1039-1043, (2008)
Shao Y
Li QS et al., G-Quadruplex DNA with an Apurinic Site as a Soft Molecularly Imprinted Sensing Platform.Analytical Chemistry, 90, (9), 5552-5556, (2018)
Ma XB et al., Extraction and identification of matrine-type alkaloids from Sophora moorcroftiana using double-templated molecularly imprinted polymers with HPLCGÇôMS/MS.
Journal of Separation Science, 41, (7), 1691-1703, (2018)
Yin ZZ et al., Highly sensitive and selective sensor for sunset yellow based on molecularly imprinted polydopamine-coated multi-walled carbon nanotubes.
Biosensors and Bioelectronics, 100, 565-570, (2018)
Yan MM et al., A molecularly imprinted polymer with integrated gold nanoparticles for surface enhanced Raman scattering based detection of the triazine herbicides, prometryn and simetryn.
Microchimica Acta, 186, (3), Article143-(2019)
Yu HL et al., Preparation of molecularly imprinted polymers coupled with high-performance liquid chromatography for the selective extraction of salidroside from Rhodiola crenulata.
Journal of Chromatography B, 1118-1119, 180-186, (2019)
Ma J et al., An overview on molecular imprinted polymers combined with surface-enhanced Raman spectroscopy chemical sensors toward analytical applications.
Talanta, 225, Article122031-(2021)
Shao YJ
Li JP et al., A strategy for improving the sensitivity of molecularly imprinted electrochemical sensors based on catalytic copper deposition.Analytica Chimica Acta, 817, 17-22, (2014)
Shao YL
Zhao CD et al., Novel molecularly imprinted polymer prepared by nanoattapulgite as matrix for selective solid-phase extraction of diethylstilbestrol.Journal of Chromatography A, 1216, (44), 7546-7552, (2009)
Shao YM
Shao YM et al., Preparation of novel magnetic molecular imprinted polymers nanospheres via reversible addition - fragmentation chain transfer polymerization for selective and efficient determination of tetrabromobisphenol A.Journal of Hazardous Materials, 339, 418-426, (2017)
Wu Q et al., Well-defined nanostructured core-shell magnetic surface imprinted polymers (Fe3O4@SiO2@MIPs) for effective extraction of trace tetrabromobisphenol A from water.
Journal of Industrial and Engineering Chemistry, 60, 268-278, (2018)
Shao YX
Fang R et al., On-line preconcentration in capillary electrophoresis for analysis of agrochemical residues.Journal of Liquid Chromatography & Related Technologies, 37, (10), 1465-1497, (2014)
Shaporenko A
Hirsch T et al., Size-controlled electrochemical synthesis of metal nanoparticles on monomolecular templates.Angewandte Chemie International Edition, 44, (41), 6775-6778, (2005)
Shapovalova EN
Popov SA et al., Preconcentration of 2, 4-dichlorophenoxyacetic acid on molecularly imprinted polymers and its subsequent determination by high performance liquid chromatography.Journal of Analytical Chemistry, 66, (1), 6-10, (2011)
Sharabi D
Sharabi D et al., Preferential photodegradation of contaminants by molecular imprinting on titanium dioxide.Applied Catalysis B: Environmental, 95, (1-2), 169-178, (2010)
Shareena MS
Shareena MS et al., Influence of factorial design analysis on the performance of bisphenol A molecular imprinted polymer.International Journal of Chemical and Environmental Engineering, 3, (2), 147-151, (2012)
Shahaidah S et al., Characterization of bisphenol A MIP (BPA-MIP) synthesizing.
Journal of Applied Sciences, 14, (13), 1455-1459, (2014)
Shahaidah S et al., Molecularly imprinted membrane system for endocrine removal.
Desalination and Water Treatment, 55, 2700-2704, (2015)
Sharfstein ST
Terracina JJ et al., Computational investigation of stoichiometric effects, binding site heterogeneities, and selectivities of molecularly imprinted polymers.Journal of Molecular Modeling, 22, (6), ArticleNo139-(2016)
Terracina JJ et al., In silico characterization of enantioselective molecularly imprinted binding sites.
Journal of Molecular Recognition, 31, (3), ArticleNoe2612-(2018)
Sharghi H
Shamsipur M et al., Synthesis and characterization of novel ion-imprinted polymeric nanoparticles for very fast and highly selective recognition of copper(II) ions.Talanta, 83, (2), 674-681, (2010)
Fasihi J et al., Adsorption of uranyl ion onto an anthraquinone based ion-imprinted copolymer.
Reactive and Functional Polymers, 71, (8), 803-808, (2011)
Shamsipur M et al., Bulk polymer nanoparticles containing a tetrakis(3-hydroxyphenyl)porphyrin for fast and highly selective separation of mercury ions.
Microchimica Acta, 180, (9-10), 791-799, (2013)
Shariati R
Shariati R et al., Application of coated green source carbon dots with silica molecularly imprinted polymers as a fluorescence probe for selective and sensitive determination of phenobarbital.Talanta, 194, 143-149, (2019)
Shariati R et al., Manufacturing of a Sensitive and Selective Optical Sensor Based on Molecularly Imprinted Polymers and Green Carbon Dots Synthesized from Cedrus Plant for Trace Analysis of Propranolol.
Analytical Sciences, 35, (10), 1083-1088, (2019)
Shariati S
Fasihi J et al., Preparation of ion-imprinted polyvinyl sulfonate-grafted silica particles for trace enrichment of Th(IV) prior to determination by inductively coupled plasma-mass spectrometry.International Journal of Environmental Analytical Chemistry, 96, (8), 789-800, (2016)
Shariati-Rad M
Gholivand MB et al., Proceeding, A chemometrics approach for simultaneous determination of cyanazine and propazine based on a carbon paste electrode modified by a novel molecularly imprinted polymer,(2011)
Gholivand MB et al., A chemometrics approach for simultaneous determination of cyanazine and propazine based on a carbon paste electrode modified by a molecularly imprinted polymer.
Analyst, 137, (5), 1190-1198, (2012)
Shariatinia Z
Shariatinia Z et al., Ab initio calculations on the hydrogen bonding interactions among pseudoephedrinium cation isomers and methacrylic acid.Main Group Chemistry, 10, (1), 1-16, (2011)
Shariatinia Z et al., Hydrogen bonding interactions between [alpha]-, [beta]-glucose, and methacrylic acid.
Structural Chemistry, 22, (6), 1347-1352, (2011)
Abdouss M et al., Synthesis of molecularly imprinted polymer as a sorbent for solid phase extraction of citalopram from human serum and urine.
Journal of Materials Science: Materials in Medicine, 23, (6), 1543-1552, (2012)
Azodi-Deilami S et al., Preparation of N, N-p-phenylene bismethacryl amide as a novel cross-link agent for synthesis and characterization of the core-shell magnetic molecularly imprinted polymer nanoparticles.
Journal of Materials Science: Materials in Medicine, 25, (3), 645-656, (2014)
Kazemi S et al., DFT computations on the hydrogen bonding interactions between methacrylic acid-trimethylolpropane trimethacrylate copolymers and letrozole as drug delivery systems.
Journal of Theoretical and Computational Chemistry, 15, (2), ArticleNo1650015-(2016)
Sharif A
Irshad M et al., Molecularly Imprinted Nanomaterials for Sensor Applications.Nanomaterials, 3, (4), 615-637, (2013)
Riazi A et al., Fabrication and Characterization of Molecularly Imprinted Microspheres as Highly Effective Sorbent for Fast and Selective Solid Phase Extraction of Nicotinamide in Beef and Wheat Flour Samples.
Journal of Food Science and Technology (Iran), 18, (120), 317-334, (2021)
Sharif AAM
Moniri E et al., Selective Solid-Phase Extraction of Zinc(II) from Environmental Water Samples Using Ion Imprinted Activated Carbon.Journal of AOAC International, 98, (1), 206-212, (2015)
Sharifi AR
Alizadeh T et al., A new bio-compatible Cd2+-selective nanostructured fluorescent imprinted polymer for cadmium ion sensing in aqueous media and its application in bio imaging in Vero cells.RSC Advances, 10, (7), 4110-4117, (2020)
Sharifi S
Mashinchian O et al., Cell-Imprinted Substrates Act as an Artificial Niche for Skin Regeneration.ACS Applied Materials & Interfaces, 6, (15), 13280-13292, (2014)
Bonakdar S et al., Cell-Imprinted Substrates Modulate Differentiation, Redifferentiation, and Transdifferentiation.
ACS Applied Materials & Interfaces, 8, (22), 13777-13784, (2016)
Sharifirad M
Khajeh M et al., Magnetic molecularly imprinted polymers-silver nanoparticle based micro-solid phase extraction for the determination of polycyclic aromatic hydrocarbons in water samples.RSC Advances, 6, (60), 54702-54708, (2016)
Sharifpour E
Sadegh N et al., Ultrasound-assisted solid phase microextraction-HPLC method based on Fe3O4@SiO2-NH2-molecularly imprinted polymer magnetic nano-sorbent for rapid and efficient extraction of harmaline from Peganum harmala extract.Journal of Chromatography B, 1171, Article122640-(2021)
Sharipov M
Tawfik SM et al., Dual emission nonionic molecular imprinting conjugated polythiophenes-based paper devices and their nanofibers for point-of-care biomarkers detection.Biosensors and Bioelectronics, 160, Article112211-(2020)
Sharma A
Borovik AS et al., Design of immobilized metal sites in porous organic hosts: Evidence for site isolation.Abstracts of Papers of the American Chemical Society, 213, (IEC), 99-99, (1997)
Sharma A, Proceeding, Molecular imprinted nanoPolymer nanomaterials: Application in biomolecule recognition,
270-273, (2010)
Piletska EV et al., Passive Control of Quorum Sensing: Prevention of Pseudomonas aeruginosa Biofilm Formation by Imprinted Polymers.
Biomacromolecules, 12, (4), 1067-1071, (2011)
Sharma AC
Sharma AC et al., Design, synthesis, and characterization of templated metal sites in porous organic hosts: Application to reversible dioxygen binding.Journal of the American Chemical Society, 122, (37), 8946-8955, (2000)
Sharma AC et al., Surface grafting of cobalt complexes on polymeric supports: Evidence for site isolation and applications to reversible dioxygen binding.
Journal of Polymer Science Part A: Polymer Chemistry, 39, (6), 888-897, (2001)
Sharma B
Sharma B et al., Biomimetic Glycoside Hydrolysis by a Microgel Templated with a Competitive Glycosidase Inhibitor.ACS Catalysis, 8788-8795, (2018)
Sharma B et al., Modulating the Catalytic Performance of an Immobilized Catalyst with Matrix Effects - A Critical Evaluation.
ACS Catalysis, 7710-7718, (2018)
Sharma D
Sharma D et al., Studies on Bacterial Proteins Corona Interaction with Saponin Imprinted ZnO Nanohoneycombs and Their Toxic Responses.ACS Applied Materials & Interfaces, 7, (43), 23848-23856, (2015)
Sharma G
Shrivastav AM et al., Hypersensitive and selective biosensing based on microfiber interferometry and molecular imprinted nanoparticles.Biosensors and Bioelectronics, 141, Article111347-(2019)
Sharma G et al., Molecularly Imprinted Polymers for Selective Recognition and Extraction of Heavy Metal Ions and Toxic Dyes.
Journal of Chemical & Engineering Data, 65, (2), 396-418, (2020)
Sharma KS
Zhou YQ et al., Polymers in Carbon Dots: A Review.Polymers, 9, (2), ArticleNo67-(2017)
Sharma N
Sharma N et al., Molecularly Imprinted Polymer Waveguides for Direct Optical Detection of Low-Molecular-Weight Analytes.Macromolecular Chemistry And Physics, 215, (23), 2295-2304, (2014)
Sharma P
Ghatak B et al., Application of Polymethacrylic Acid Imprinted Quartz Crystal Microbalance Sensor for Detection of 3-Carene in Mango.IEEE Sensors Journal, 18, (7), 2697-2704, (2018)
Sharma PK
Madhuri R et al., Book chapter, Combination of Molecular Imprinting and Nanotechnology: Beginning of a New Horizon,In: Advanced Biomaterials and Biodevices, Tiwari A, Nordin AN (Eds.) Wiley: Hoboken, Ch. 11, 367-422, (2014)
Madhuri R et al., Book chapter, Combination of Molecular Imprinting and Nanotechnology: Beginning of a New Horizon,
In: Biosensors Nanotechnology, Tiwari A, Turner APF (Eds.) Wiley: Hoboken, Ch. 12, 375-432, (2014)
Roy E et al., Simultaneous determination of heavy metals in biological samples by a multiple-template imprinting technique: an electrochemical study.
RSC Advances, 4, (100), 56690-56700, (2014)
Roy E et al., Gold nanoparticle mediated designing of non-hydrolytic sol-gel cross-linked metformin imprinted polymer network: A theoretical and experimental study.
Talanta, 120, 198-207, (2014)
Roy E et al., A metronidazole-probe sensor based on imprinted biocompatible nanofilm for rapid and sensitive detection of anaerobic protozoan.
RSC Advances, 4, (62), 32881-32893, (2014)
Patra S et al., Bimetallic magnetic nanoparticle as a new platform for fabrication of pyridoxine and pyridoxal-5'-phosphate imprinted polymer modified high throughput electrochemical sensor [RETRACTED].
Biosensors and Bioelectronics, 73, 234-244, (2015)
Patra S et al., Fast and Selective Preconcentration of Europium from Wastewater and Coal Soil by Graphene Oxide/Silane@Fe3O4 Dendritic Nanostructure.
Environmental Science & Technology, 49, (10), 6117-6126, (2015)
Patra S et al., RETRACTED Imprinted ZnO nanostructure-based electrochemical sensing of calcitonin: A clinical marker for medullary thyroid carcinoma.
Analytica Chimica Acta, 853, 271-284, (2015)
Patra S et al., Nano-iniferter based imprinted sensor for ultra trace level detection of prostate-specific antigen in both men and women.
Biosensors and Bioelectronics, 66, 1-10, (2015)
Patra S et al., An imprinted Ag@CdS core shell nanoparticle based optical-electrochemical dual probe for trace level recognition of ferritin.
Biosensors and Bioelectronics, 63, 301-310, (2015)
Patra S et al., RETRACTED: Bimetallic magnetic nanoparticle as a new platform for fabrication of pyridoxine and pyridoxal-5'-phosphate imprinted polymer modified high throughput electrochemical sensor.
Biosensors and Bioelectronics, 73, 234-244, (2015)
Roy E et al., Developing electrochemical sensor for point-of-care diagnostics of oxidative stress marker using imprinted bimetallic Fe/Pd nanoparticle.
Talanta, 132, 406-415, (2015)
Roy E et al., Development of an imprinted polymeric sensor with dual sensing property for trace level estimation of zinc and arginine.
Materials Science and Engineering: C, 49, 25-33, (2015)
Karfa P et al., RETRACTED A fluorescent molecularly-imprinted polymer gate with temperature and pH as inputs for detection of alpha-fetoprotein.
Biosensors and Bioelectronics, 78, 454-463, (2016)
Karfa P et al., RETRACTED - A battle between spherical and cube-shaped Ag/AgCl nanoparticle modified imprinted polymer to achieve femtogram detection of alpha-feto protein.
Journal of Materials Chemistry B, 4, (33), 5534-5547, (2016)
Kumar S et al., Molecularly imprinted star polymer-modified superparamagnetic iron oxide nanoparticle for trace level sensing and separation of mancozeb.
RSC Advances, 6, (43), 36751-36760, (2016)
Patra S et al., Nanocomposite of bimetallic nanodendrite and reduced graphene oxide as a novel platform for molecular imprinting technology.
Analytica Chimica Acta, 918, 77-88, (2016)
Patra S et al., RETRACTED Size-specific imprinted polymer embedded carbon nanodots modified magnetic nanoparticle for specific recognition of titanium nanoparticle: The round versus round.
Biosensors and Bioelectronics, 86, 818-826, (2016)
Roy E et al., A single solution for arsenite and arsenate removal from drinking water using cysteine@ZnS:TiO2 nanoparticle modified molecularly imprinted biofouling-resistant filtration membrane.
Chemical Engineering Journal, 304, 259-270, (2016)
Karfa P et al., Development of carbon dots modified fluorescent molecular imprinted Polymer@Ag/AgCl nanoparticle for hepatocellular carcinoma marker.
AIP Conference Proceedings, 1832, (1), ArticleNo050008-(2017)
Kumar S et al., Super paramagnetic iron oxide nanoparticle modified mancozeb imprinted polymer.
AIP Conference Proceedings, 1832, (1), ArticleNo050014-(2017)
Patra S et al., Triple signalling mode carbon dots-based biodegradable molecularly imprinted polymer as a multi-tasking visual sensor for rapid and "on-site" monitoring of silver ions.
Journal of Materials Chemistry C, 5, (45), 11965-11976, (2017)
Patra S et al., RETRACTED Graphene quantum dots decorated CdS doped graphene oxide sheets in dual action mode: As initiator and platform for designing of nimesulide imprinted polymer (Retracted).
Biosensors and Bioelectronics, 89, 627-635, (2017)
Patra S et al., RETRACTED Removal and Recycling of Precious Rare Earth Element from Wastewater Samples Using Imprinted Magnetic Ordered Mesoporous Carbon.
ACS Sustainable Chemistry & Engineering, 5, (8), 6910-6923, (2017)
Patra S et al., Anisotropic (spherical/hexagon/cube) silver nanoparticle embedded magnetic carbon nanosphere as platform for designing of tramadol imprinted polymer.
Biosensors and Bioelectronics, 97, 208-217, (2017)
Patra S et al., Imprinted magnetic graphene oxide for the mini-solid phase extraction of Eu (III) from coal mine area.
AIP Conference Proceedings, 1832, (1), ArticleNo050009-(2017)
Roy E et al., RETRACTED Single cell imprinting on the surface of Ag-ZnO bimetallic nanoparticle modified graphene oxide sheets for targeted detection, removal and photothermal killing of E. Coli (Retracted).
Biosensors and Bioelectronics, 89, (Part 1), 620-626, (2017)
Roy E et al., Introduction of selectivity and specificity to graphene using an inimitable combination of molecular imprinting and nanotechnology.
Biosensors and Bioelectronics, 89, (Part 1), 234-248, (2017)
Roy E et al., Shape effect on the fabrication of imprinted nanoparticles: Comparison between spherical-, rod-, hexagonal-, and flower-shaped nanoparticles.
Chemical Engineering Journal, 321, 195-206, (2017)
Kumar S et al., Designing of fluorescent and magnetic imprinted polymer for rapid, selective and sensitive detection of imidacloprid via activators regenerated by the electron transfer-atom transfer radical polymerization (ARGET-ATRP) technique.
Journal of Physics and Chemistry of Solids, 116, 222-233, (2018)
Patra S et al., Retraction notice to "Graphene quantum dots decorated CdS doped graphene oxide sheets in dual action mode: as initiator and platform for designing of nimesulide imprinted polymer " [BIOS 89P1 (2017) 627-635].
Biosensors and Bioelectronics, 114, 89-(2018)
Patra S et al., Retracted: Imprinted ZnO nanostructure-based electrochemical sensing of calcitonin: A clinical marker for medullary thyroid carcinoma.
Analytica Chimica Acta, 1023, 121-121, (2018)
Patra S et al., Retraction of "Removal and Recycling of Precious Rare Earth Element from Wastewater Samples Using Imprinted Magnetic Ordered Mesoporous Carbon".
ACS Sustainable Chemistry & Engineering, 6, (7), 9520-9520, (2018)
Roy E et al., Retraction notice to Single cell imprinting on the surface of Ag-ZnO bimetallic nanoparticle modified graphene oxide sheets for targeted detection, removal and photothermal killing of E. Coli Biosensors and Bioelectronics Volume 89, Part 1, 15 March 2017, Pages 620-626.
Biosensors and Bioelectronics, 112, 216-(2018)
Karfa P et al., Retraction to "A Fluorescent molecularly-imprinted polymer gate with temperature and pH as inputs for detection of alpha-fetoprotein", [Biosensors and Bioelectronics, 78 (2016) 454-463].
Biosensors and Bioelectronics, 124-125, 268-268, (2019)
Patra S et al., Retraction notice to "Size-specific imprinted polymer embedded carbon nanodots modified magnetic nanoparticle for specific recognition of titanium nanoparticle: The round versus round", [Biosensors and Bioelectronics, 86 (2016) 818-826].
Biosensors and Bioelectronics, 124-125, 269-(2019)
Sharma PS
Lakshmi D et al., Development of uric acid sensor based on molecularly imprinted polymer-modified hanging mercury drop electrode.Electroanalysis, 18, (9), 918-927, (2006)
Lakshmi D et al., Creatinine sensor based on a molecularly imprinted polymer-modified hanging mercury drop electrode.
Talanta, 70, (2), 272-280, (2006)
Lakshmi D et al., Imprinted polymer-modified hanging mercury drop electrode for differential pulse cathodic stripping voltammetric analysis of creatine.
Biosensors and Bioelectronics, 22, (12), 3302-3308, (2007)
Prasad BB et al., Molecularly imprinted polymer-based solid-phase extraction combined with molecularly imprinted polymer-based sensor for detection of uric acid.
Journal of Chromatography A, 1173, (1-2), 18-26, (2007)
Sharma PS et al., Highly Sensitive and Selective Detection of Creatinine by Combined Use of MISPE and a Complementary MIP-Sensor.
Chromatographia, 65, (7), 419-427, (2007)
Sharma PS et al., Molecularly imprinted solid-phase extraction combined with molecularly imprinted polymer-sensor: a diagnostic tool applicable to creatine deficiency syndrome.
Biomedical Chromatography, 21, (9), 976-986, (2007)
Patel AK et al., Development of a Creatinine Sensor Based on a Molecularly Imprinted Polymer-Modified Sol-Gel Film on Graphite Electrode.
Electroanalysis, 20, (19), 2102-2112, (2008)
Prasad BB et al., Molecularly imprinted polymer-based solid-phase microextraction fiber coupled with molecularly imprinted polymer-based sensor for ultratrace analysis of ascorbic acid.
Journal of Chromatography A, 1198-1199, (1-2), 59-66, (2008)
Patel AK et al., Voltammetric sensor for barbituric acid based on a sol-gel derivated molecularly imprinted polymer brush grafted to graphite electrode.
International Journal of Pharmaceutics, 371, (1-2), 47-55, (2009)
Patel AK et al., Electrochemical sensor for uric acid based on a molecularly imprinted polymer brush grafted to tetraethoxysilane derived sol-gel thin film graphite electrode.
Materials Science and Engineering: C, 29, (5), 1545-1553, (2009)
Prasad BB et al., Zwitterionic molecularly imprinted polymer-based solid-phase micro-extraction coupled with molecularly imprinted polymer sensor for ultra-trace sensing of L-histidine.
Journal of Separation Science, 32, (7), 1096-1105, (2009)
Prasad BB et al., Ascorbic acid sensor based on molecularly imprinted polymer-modified hanging mercury drop electrode.
Materials Science and Engineering: C, 29, (4), 1082-1087, (2009)
Prasad BB et al., Ultratrace analysis of uracil and 5-fluorouracil by molecularly imprinted polymer brushes grafted to silylated solid-phase microextraction fiber in combination with complementary molecularly imprinted polymer-based sensor.
Biomedical Chromatography, 23, (5), 499-509, (2009)
Prasad BB et al., Trace-level sensing of dopamine in real samples using molecularly imprinted polymer-sensor.
Biochemical Engineering Journal, 44, (2-3), 232-239, (2009)
Prasad BB et al., Ultratrace Analysis of Dopamine Using a Combination of Imprinted Polymer-Brush-Coated SPME and Imprinted Polymer Sensor Techniques.
Chromatographia, 69, (9), 949-957, (2009)
Prasad BB et al., A new zwitterionic imprinted polymer sensor using ethylenediamine tetraacetic acid and chloranil precursors for the trace analysis of l-histidine.
Materials Science and Engineering: C, 29, (6), 1781-1789, (2009)
Prasad BB et al., Development of Uracil and 5-Fluorouracil Sensors Based on Molecularly Imprinted Polymer-Modified Hanging Mercury Drop Electrode.
Sensors and Materials, 21, (6), 291-306, (2009)
Patel AK et al., Trace-level sensing of creatine in real sample using a zwitterionic molecularly imprinted polymer brush grafted to sol-gel modified graphite electrode.
Thin Solid Films, 518, (10), 2847-2853, (2010)
Prasad BB et al., Imprinting molecular recognition sites on multiwalled carbon nanotubes surface for electrochemical detection of insulin in real samples.
Electrochimica Acta, 55, (28), 9146-9156, (2010)
Prasad BB et al., Enantioselective quantitative separation of d- and l-thyroxine by molecularly imprinted micro-solid phase extraction silver fiber coupled with complementary molecularly imprinted polymer-sensor.
Journal of Chromatography A, 1217, (26), 4255-4266, (2010)
Prasad BB et al., Imprinted polymer-carbon consolidated composite fiber sensor for substrate-selective electrochemical sensing of folic acid.
Biosensors and Bioelectronics, 25, (9), 2140-2148, (2010)
Prasad BB et al., Development of a highly sensitive and selective hyphenated technique (molecularly imprinted micro-solid phase extraction fiber-molecularly imprinted polymer fiber sensor) for ultratrace analysis of folic acid.
Analytica Chimica Acta, 662, (1), 14-22, (2010)
Prasad BB et al., Layer-by-layer assembled molecularly imprinted polymer modified silver electrode for enantioselective detection of d- and l-thyroxine.
Analytica Chimica Acta, 681, (1-2), 16-26, (2010)
Prasad BB et al., Electrochemical sensor for folic acid based on a hyperbranched molecularly imprinted polymer-immobilized sol-gel-modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 146, (1), 321-330, (2010)
Prasad BB et al., Enantioselective recognition of d- and l-tryptophan by imprinted polymer-carbon composite fiber sensor.
Talanta, 81, (1-2), 187-196, (2010)
Lakshmi D et al., Electrochemical Detection of Uric Acid in Mixed and Clinical Samples: A Review.
Electroanalysis, 23, (2), 305-320, (2011)
Prasad BB et al., Enantioselective separation and electrochemical sensing of d- and l-tryptophan at ultratrace level using molecularly imprinted micro-solid phase extraction fiber coupled with complementary molecularly imprinted polymer-fiber sensor.
Journal of Chromatography B, 879, (5-6), 364-370, (2011)
Bossi AM et al., Fingerprint-Imprinted Polymer: Rational Selection of Peptide Epitope Templates for the Determination of Proteins by Molecularly Imprinted Polymers.
Analytical Chemistry, 84, (9), 4036-4041, (2012)
Sharma PS et al., Molecular imprinting for selective chemical sensing of hazardous compounds and drugs of abuse.
TrAC Trends in Analytical Chemistry, 34, (1), 59-77, (2012)
Sharma PS et al., Book chapter, Molecular Imprinting for Selective Sensing of Explosives, Warfare Agents, and Toxins,
In: Portable Chemical Sensors, Nikolelis D (Ed.) Springer Netherlands: Ch. 4, 63-94, (2012)
Sharma PS et al., Electrochemically synthesized polymers in molecular imprinting for chemical sensing.
Analytical and Bioanalytical Chemistry, 402, (10), 3177-3204, (2012)
Huynh TP et al., Electrochemically synthesized molecularly imprinted polymer of thiophene derivatives for flow-injection analysis determination of adenosine-5'-triphosphate (ATP).
Biosensors and Bioelectronics, 41, 634-641, (2013)
Sharma PS et al., Surface development of molecularly imprinted polymer films to enhance sensing signals.
TrAC Trends in Analytical Chemistry, 51, 146-157, (2013)
Sharma PS et al., Fullerene derived molecularly imprinted polymer for chemosensing of adenosine-5'-triphosphate (ATP).
Analytica Chimica Acta, 844, 61-69, (2014)
Huynh TP et al., Functionalized polythiophenes: Recognition materials for chemosensors and biosensors of superior sensitivity, selectivity, and detectability.
Progress in Polymer Science, 47, 1-25, (2015)
Iskierko Z et al., Extended-gate field-effect transistor (EG-FET) with molecularly imprinted polymer (MIP) film for selective inosine determination.
Biosensors and Bioelectronics, 74, 526-533, (2015)
Sharma PS et al., Bioinspired intelligent molecularly imprinted polymers for chemosensing: A mini review.
Electrochemistry Communications, 50, 81-87, (2015)
Dabrowski M et al., Early diagnosis of fungal infections using piezomicrogravimetric and electric chemosensors based on polymers molecularly imprinted with d-arabitol.
Biosensors and Bioelectronics, 79, 627-635, (2016)
Iskierko Z et al., Molecularly Imprinted Polymer (MIP) Film with Improved Surface Area Developed by Using Metal-Organic Framework (MOF) for Sensitive Lipocalin (NGAL) Determination.
ACS Applied Materials & Interfaces, 8, (31), 19860-19865, (2016)
Iskierko Z et al., Molecularly imprinted polymers for separating and sensing of macromolecular compounds and microorganisms.
Biotechnology Advances, 34, (1), 30-46, (2016)
Sharma PS et al., Book chapter, Molecularly Imprinted Polymers as Synthetic Catalysts,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 9, 183-210, (2016)
Sharma PS et al., Potentiometric chemosensor for neopterin, a cancer biomarker, using an electrochemically synthesized molecularly imprinted polymer as the recognition unit.
Biosensors and Bioelectronics, 77, 565-572, (2016)
Sharma PS et al., Book chapter, Macromolecular Imprinting for Improved Health Security,
In: Biosensors for Security and Bioterrorism Applications, Nikolelis PD, Nikoleli GP (Eds.) Springer International Publishing: Cham, 141-160, (2016)
Wojnarowicz A et al., An electropolymerized molecularly imprinted polymer for selective carnosine sensing with impedimetric capacity.
Journal of Materials Chemistry B, 4, (6), 1156-1165, (2016)
Dabrowski M et al., Hierarchical templating in deposition of semi-covalently imprinted inverse opal polythiophene film for femtomolar determination of human serum albumin.
Biosensors and Bioelectronics, 94, 155-161, (2017)
Dabrowski M et al., Surface enhancement of a molecularly imprinted polymer film using sacrificial silica beads for increasing l-arabitol chemosensor sensitivity and detectability.
Journal of Materials Chemistry B, 5, (31), 6292-6299, (2017)
Dabrowski M et al., Semi-Covalent Imprinting for Selective Protein Sensing at a Femtomolar Concentration Level.
Proceedings, 1, (8), ArticleNo771-(2017)
Iskierko Z et al., Molecularly imprinted polymer based extended-gate field-effect transistor chemosensors for phenylalanine enantioselective sensing.
Journal of Materials Chemistry C, 5, (4), 969-977, (2017)
Iskierko Z et al., (Invited) Application of Extended-Gate Field-Effect Transistor Sensors with Molecularly Imprinted Polymer Recognition Layers for Determination of Renal Dysfunction Biomarkers.
ECS Meeting Abstracts, MA2017-01, (28), 1315-1315, (2017)
Kutner W et al., Conducting Molecularly Imprinted Polymer (MIP) Chemical Sensors for Toxic N-Nitrosamines Selective Determination in Heat Processed Food of Animal Origin.
ECS Meeting Abstracts, MA2017-01, (42), 1919-1919, (2017)
Lach P et al., Self-Reporting Molecularly Imprinted Polymer for Label-Free Selective Electrochemical Sensing of p-synephrine.
Proceedings, 1, (8), ArticleNo772-(2017)
Lach P et al., Molecularly Imprinted Polymer Chemosensor for Selective Determination of an N-Nitroso-l-proline Food Toxin.
Chemistry - A European Journal, 23, (8), 1942-1949, (2017)
Iskierko Z et al., Molecular recognition by synthetic receptors: Application in field-effect transistor based chemosensing.
Biosensors and Bioelectronics, 109, 50-62, (2018)
Sharma PS et al., Synthesis and application of a "plastic antibody" in electrochemical microfluidic platform for oxytocin determination.
Biosensors and Bioelectronics, 100, 251-258, (2018)
Dabrowski M et al., Facile Fabrication of Surface-Imprinted Macroporous Films for Chemosensing of Human Chorionic Gonadotropin Hormone.
ACS Applied Materials & Interfaces, 11, (9), 9265-9276, (2019)
Iskierko Z et al., Selective PQQPFPQQ Gluten Epitope Chemical Sensor with a Molecularly Imprinted Polymer Recognition Unit and an Extended-Gate Field-Effect Transistor Transduction Unit.
Analytical Chemistry, 91, (7), 4537-4543, (2019)
Lach P et al., Gate Effect Sharma PS et al., 'Gate effect' in molecularly imprinted polymers: the current state of understanding.
Current Opinion in Electrochemistry, 16, 50-56, (2019)
Zembrzuska D et al., Electrochemically initiated co-polymerization of monomers of different oxidation potentials for molecular imprinting of electroactive analyte.
Sensors and Actuators B: Chemical, 298, Article126884-(2019)
Ayerdurai V et al., Selective Impedimetric Chemosensing of Carcinogenic Heterocyclic Aromatic Amine in Pork by dsDNA-Mimicking Molecularly Imprinted Polymer Film-Coated Electrodes.
Journal of Agricultural and Food Chemistry, 69, (48), 14689-14698, (2021)
Jyoti et al., Molecularly imprinted polymer nanoparticles-based electrochemical chemosensors for selective determination of cilostazol and its pharmacologically active primary metabolite in human plasma.
Biosensors and Bioelectronics, 193, Article113542-(2021)
Lach P et al., Self-reporting molecularly imprinted polymer with the covalently immobilized ferrocene redox probe for selective electrochemical sensing of p-synephrine.
Sensors and Actuators B: Chemical, 344, Article130276-(2021)
Lach P et al., Molecularly imprinted polymers in chemosensors: Better control over deposited polymers structure for better sensors performance.
Video Proceedings of Advanced Materials, 2, Article2111229-(2021)
Yasmeen N et al., Molecularly imprinted polymer as a synthetic receptor mimic for capacitive impedimetric selective recognition of Escherichia coli K-12.
Analytica Chimica Acta, 1188, Article339177-(2021)
Sharma R
Divya MP et al., Synthesis and Application of Tetracycline Imprinted Polymer.Analytical Letters, 43, (6), 919-928, (2010)
Sharma R et al., Molecularly imprinted sensor based on o-aminophenol for the selective determination of norepinephrine in pharmaceutical and biological samples.
Talanta, 125, 167-173, (2014)
Divya MP et al., Molecularly imprinted polymer for separation of lactate.
Journal of Analytical Chemistry, 70, (10), 1213-1217, (2015)
Lata K et al., Synthesis and application of cephalexin imprinted polymer for solid phase extraction in milk.
Food Chemistry, 184, 176-182, (2015)
Aggarwal S et al., Synthesis and characterization of oxytetracycline imprinted magnetic polymer for application in food.
Applied Nanoscience, 6, (2), 209-214, (2016)
Sharma S
Moreira FTC et al., Smart plastic antibody material (SPAM) tailored on disposable screen printed electrodes for protein recognition: Application to myoglobin detection.Biosensors and Bioelectronics, 45, 237-244, (2013)
Moreira FTC et al., Protein-responsive polymers for point-of-care detection of cardiac biomarker.
Sensors and Actuators B: Chemical, 196, 123-132, (2014)
Moreira FTC et al., Detection of cardiac biomarker proteins using a disposable based on a molecularly imprinted polymer grafted onto graphite.
Microchimica Acta, 182, (5-6), 975-983, (2015)
Sharma S et al., Molecularly imprinted and nanoengineered camphor soot functionalized PAN-nanofibers for effluent treatment.
RSC Advances, 5, (40), 31732-31741, (2015)
Sharma S et al., Correction: Molecularly imprinted and nanoengineered camphor soot functionalized PAN-nanofibers for effluent treatment.
RSC Advances, 6, (78), 74067-74067, (2016)
Sharma S et al., Surface Plasmon Resonance Based Highly Selective Fiber Optic Dopamine Sensor Fabricated Using Molecular Imprinted GNP/SnO2 Nanocomposite.
Journal of Lightwave Technology, 36, (24), 5956-5962, (2018)
Sharma S, Proceeding, An efficient and selective sensing of creatinine based on fiber optic SPR technique exploiting the advantages of molecular imprinting technique,
ArticleNo106801T, (2018)
Sharma V
Singh B et al., Design of Molecular Imprinted Hydrogels for Controlled Release of Cisplatin: Evaluation of Network Density of Hydrogels.Industrial & Engineering Chemistry Research, 50, (24), 13742-13751, (2011)
Bueno D et al., Portable and low cost fluorescence set-up for in-situ screening of Ochratoxin A.
Talanta, 159, 395-400, (2016)
Sharma VP
Mudiam MKR et al., Molecularly imprinted SPE combined with dispersive liquid-liquid microextraction for selective analysis of telmisartan in biological and formulation samples.Bioanalysis, 5, (7), 847-858, (2013)
Sharman M
Tarbin JA et al., Synthesis and preliminary evaluation of a molecularly imprinted polymer selective for artificial phenolic estrogenic compounds.Analytical Communications, 36, (3), 105-107, (1999)
Tarbin JA et al., Development of molecularly imprinted phase for the selective retention of stilbene-type estrogenic compounds.
Analytica Chimica Acta, 433, (1), 71-79, (2001)
Sharon P
Jenifer AC et al., A Review of the Unconventional Methods Used for the Demetallization of Petroleum Fractions over the Past Decade.Energy & Fuels, 29, (12), 7743-7752, (2015)
Sharonova LV
Podosenova NG et al., Fullerene effects on the adsorption properties of silica gel with respect to low-density lipoproteides.Russian Journal of Physical Chemistry, 75, (11), 1871-1875, (2001)
Shashidhar R
Adams JD et al., A Molecularly Imprinted Polymer-Graphene Sensor Antenna Hybrid for Ultra Sensitive Chemical Detection.IEEE Sensors Journal, 19, (16), 6571-6577, (2019)
Shatalov GV
Churilina EV et al., New N-vinylamide-based polymers for the preconcetration of nitrophenols from aqueous media (originally published as Zhurnal Analiticheskoi Khimii, 2012, Vol. 67, No. 9, pp. 855-859).Journal of Analytical Chemistry, 67, (9), 767-771, (2012)
Shatskaya MA
Shumyantseva VV et al., Electrosynthesis and binding properties of molecularly imprinted poly-o-phenylenediamine as artificial antibodies for electroanalysis of myoglobin.Doklady Biochemistry and Biophysics, 464, (1), 275-278, (2015)
Shavelle DM
Shea KJ et al., Synthesis and characterization of highly cross-linked polyacrylamides and polymethacrylamides - a new class of macroporous polyamides.Macromolecules, 23, (21), 4497-4507, (1990)
Shaw DR
Morrison JL et al., The nature of the specificity of adsorption of alkyl orange dyes on silica gel.Canadian Journal of Chemistry - Revue Canadienne de Chimie, 37, 1986-1995, (1959)
Shaw JA
Carter KR et al., Surface modification of imprinted polymer surfaces.Abstracts of Papers of the American Chemical Society, 225, (COLL), 286-286, (2003)
Shaw LA
Li LL et al., Noise Squeezing Controlled Parametric Bifurcation Tracking of MIP-Coated Microbeam MEMS Sensor for TNT Explosive Gas Sensing.Journal of Microelectromechanical Systems, 23, (5), 1228-1236, (2014)
Shawket A
Medine A et al., Analysis of selective adsorption of Cu(II) on Cu(II)-imprinted acrylonitrile-co-styrene microspheres by FAAS.Chinese Journal of Analysis Laboratory, 32, (7), 84-87, (2013)
Medine A et al., Preparation of Pb2+ imprinted polymers and analysis of selective adsorption of Pb2+ on polymers by FAAS.
Chinese Journal of Analysis Laboratory, 33, (9), 1077-1081, (2014)
Shawky HA
Shawky HA, Synthesis of ion-imprinting chitosan/PVA crosslinked membrane for selective removal of Ag(I).Journal of Applied Polymer Science, 114, (5), 2608-2615, (2009)
Shayani Rad M
Kioomars S et al., Ciprofloxacin-imprinted hydrogels for drug sustained release in aqueous media.Pharmaceutical Development and Technology, 22, (1), 122-129, (2017)
Shayani-jam H
Mostafavi M et al., A new diclofenac molecularly imprinted electrochemical sensor based upon a polyaniline/reduced graphene oxide nano-composite.Biosensors and Bioelectronics, 122, 160-167, (2018)
Saadati F et al., Synthesis and characterization of nanostructure molecularly imprinted polyaniline/graphene oxide composite as highly selective electrochemical sensor for detection of p-nitrophenol.
Journal of the Taiwan Institute of Chemical Engineers, 86, 213-221, (2018)
She C
Tian XG et al., Magnetic-graphene oxide based molecularly imprinted polymers for selective extraction of microsystin-LR prior to the determination by HPLC.Microchemical Journal, 146, 1126-1133, (2019)
She J
Dong H et al., Preparation of molecularly imprinted polymer for chiral recognition of racemic 1, 1'-binaphthalene-2, 2'-diamine by HPLC.Acta Chromatographica, 26, (4), 683-693, (2014)
She XH
Zhang W et al., Preparation, Characterization and Application of a Molecularly Imprinted Polymer for Selective Recognition of Sulpiride.Materials, 10, (5), ArticleNo475-(2017)
She YX
Wang RY et al., Study on the determination of trace chloramphenicol residue in milk by HPLC with matrix solid-phase dispersion using molecularly imprinted polymer as an adsorbent.Chinese Journal of Analysis Laboratory, 28, (8), 26-28, (2009)
She YX et al., Class-specific molecularly imprinted polymers for the selective extraction and determination of sulfonylurea herbicides in maize samples by high-performance liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 878, (23), 2047-2053, (2010)
She YX et al., Spectroscopy study of binding mechanisms and molecular recognition of class-specific molecularly imprinted polymer beads.
Spectroscopy and Spectral Analysis, 30, (11), 3052-3055, (2010)
Yang X et al., Application of molecular imprinting technology in separation and purification of active ingredients from natural products.
Journal of Northeast Agricultural University, 42, (8), 146-153, (2011)
Wang M et al., Determination of Melamine Using Magnetic Molecular Imprinted Polymers and High Performance Liquid Chromatography.
Analytical Letters, 46, (1), 120-130, (2013)
Chen XJ et al., The application of molecular imprinting technique in analysis and test.
Journal of Food Safety and Quality, 5, (5), 1459-1467, (2014)
Du XW et al., Synthesis and Application of Class-specific Molecularly Imprinted Polymer for Triazine Pesticides.
Journal of Instrumental Analysis, 34, (7), 755-761, (2015)
Liu GY et al., Preparation of a magnetic molecularly imprinted polymer using g-C3N4-Fe3O4 for atrazine adsorption.
Materials Letters, 160, 472-475, (2015)
Yao T et al., Recent Advances in Application of Surface Plasmon Resonance Sensors Based on Molecular Imprinted Polymers in Food Safety Detection.
Journal of Instrumental Analysis, 34, (2), 237-244, (2015)
Zeng SM et al., Molecularly imprinted polymer for selective extraction and simultaneous determination of four tropane alkaloids from Przewalskia tangutica Maxim. fruit extracts using LC-MS/MS.
RSC Advances, 5, (115), 94997-95006, (2015)
Du XW et al., Fluorescent competitive assay for melamine using dummy molecularly imprinted polymers as antibody mimics.
Journal of Integrative Agriculture, 15, (5), 1166-1177, (2016)
Li TF et al., Electrochemical detection of ractopamine based on a molecularly imprinted poly-o-phenylenediamine/gold nanoparticle-ionic liquid-graphene film modified glass carbon electrode.
RSC Advances, 6, (71), 66949-66956, (2016)
Liu GY et al., Competitive fluorescence assay for specific recognition of atrazine by magnetic molecularly imprinted polymer based on Fe3O4-chitosan.
Carbohydrate Polymers, 137, 75-81, (2016)
Yao T et al., Enhancement of surface plasmon resonance signals using a MIP/GNPs/rGO nano-hybrid film for the rapid detection of ractopamine.
Biosensors and Bioelectronics, 75, 96-100, (2016)
Zeng SM et al., Analysis of Four Tropane Alkaloids in Przewalskia Tangutica Maxim.by Analogous-specific Molecularly Imprinted Solid-phase Extraction Combined with High Performance Liquid Chromatography.
Journal of Instrumental Analysis, 35, (4), 373-379, (2016)
Zhang C et al., Preparation of an Electrochemical Sensor Based on Molecularly Imprinted Polymer and Its Application in Determination of Glyphosate Residues in Water Samples.
Journal of Instrumental Analysis, 35, (12), 1542-1547, (2016)
Chen G et al., A sensitive chemiluminescence enzyme immunoassay based on molecularly imprinted polymers solid-phase extraction of parathion.
Analytical Biochemistry, 530, 87-93, (2017)
Zhang C et al., A highly selective electrochemical sensor based on molecularly imprinted polypyrrole-modified gold electrode for the determination of glyphosate in cucumber and tap water.
Analytical and Bioanalytical Chemistry, 409, (30), 7133-7144, (2017)
Zhao FN et al., Selective Determination of Chloramphenicol in Milk Samples by the Solid-Phase Extraction Based on Dummy Molecularly Imprinted Polymer.
Food Analytical Methods, 10, (7), 2566-2575, (2017)
Zhao FN et al., Selective solid-phase extraction based on molecularly imprinted technology for the simultaneous determination of 20 triazole pesticides in cucumber samples using high-performance liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 1064, 143-150, (2017)
Zhao FN et al., Subcritical water extraction combined with molecular imprinting technology for sample preparation in the detection of triazine herbicides.
Journal of Chromatography A, 1515, 17-22, (2017)
Cao XL et al., Rapid Analysis of Bitertanol in Agro-products Using Molecularly Imprinted Polymers-Surface-Enhanced Raman Spectroscopy.
Food Analytical Methods, 11, (5), 1435-1443, (2018)
Hong SH et al., Biomimetic enzyme-linked immunoassay based on a molecularly imprinted 96-well plate for the determination of triazophos residues in real samples.
RSC Advances, 8, (37), 20549-20556, (2018)
Liu GY et al., Development of ELISA-Like Fluorescence Assay for Melamine Detection Based on Magnetic Dummy Molecularly Imprinted Polymers.
Applied Sciences, 8, (4), ArticleNo560-(2018)
Ma XB et al., Extraction and identification of matrine-type alkaloids from Sophora moorcroftiana using double-templated molecularly imprinted polymers with HPLCGÇôMS/MS.
Journal of Separation Science, 41, (7), 1691-1703, (2018)
Ma XB et al., Preparation and characterization of dummy molecularly imprinted polymers for separation and determination of farrerol from Rhododendron aganniphum using HPLC.
Green Chemistry Letters and Reviews, 11, (4), 513-522, (2018)
Yan MM et al., Advance of molecularly imprinted technology based on nanomaterials.
Chinese Journal of Analysis Laboratory, 37, (5), 607-613, (2018)
Zheng LF et al., Fabrication of a highly sensitive electrochemical sensor based on electropolymerized molecularly imprinted polymer hybrid nanocomposites for the determination of 4-nonylphenol in packaged milk samples.
Analytical Biochemistry, 559, 44-50, (2018)
He YH et al., Assessment of magnetic core-shell mesoporous molecularly imprinted polymers for selective recognition of triazoles residual levels in cucumber.
Journal of Chromatography B, 1132, Article121811-(2019)
He YH et al., Magnetic molecularly imprinted polymers for the detection of aminopyralid in milk using dispersive solid-phase extraction.
RSC Advances, 9, (51), 29998-30006, (2019)
Hong SH et al., A Novel CdSe/ZnS Quantum Dots Fluorescence Assay Based on Molecularly Imprinted Sensitive Membranes for Determination of Triazophos Residues in Cabbage and Apple.
Frontiers in Chemistry, 7, Article130-(2019)
Ma XB et al., Magnetic molecularly imprinted polymers doped with graphene oxide for the selective recognition and extraction of four flavonoids from Rhododendron species.
Journal of Chromatography A, 1598, 39-48, (2019)
Tan SJ et al., A dummy molecularly imprinted solid-phase extraction coupled with liquid chromatography-tandem mass spectrometry for selective determination of four pyridine carboxylic acid herbicides in milk.
Journal of Chromatography B, 1108, 65-72, (2019)
Wang SS et al., Dual-template imprinted polymers for class-selective solid-phase extraction of seventeen triazine herbicides and metabolites in agro-products.
Journal of Hazardous Materials, 367, 686-693, (2019)
Yan MM et al., A molecularly imprinted polymer with integrated gold nanoparticles for surface enhanced Raman scattering based detection of the triazine herbicides, prometryn and simetryn.
Microchimica Acta, 186, (3), Article143-(2019)
Yu HL et al., Preparation of molecularly imprinted polymers coupled with high-performance liquid chromatography for the selective extraction of salidroside from Rhodiola crenulata.
Journal of Chromatography B, 1118-1119, 180-186, (2019)
Zhang C et al., A disposable molecularly imprinted sensor based on Graphe@AuNPs modified screen-printed electrode for highly selective and sensitive detection of cyhexatin in pear samples.
Sensors and Actuators B: Chemical, 284, 13-22, (2019)
Zhang C et al., A disposable electrochemical sensor based on electrospinning of molecularly imprinted nanohybrid films for highly sensitive determination of the organotin acaricide cyhexatin.
Microchimica Acta, 186, (8), Article504-(2019)
Zhao MJ et al., The determination of patulin from food samples using dual-dummy molecularly imprinted solid-phase extraction coupled with LC-MS/MS.
Journal of Chromatography B, 1125, Article121714-(2019)
He YH et al., Development of fluorescent lateral flow test strips based on an electrospun molecularly imprinted membrane for detection of triazophos residues in tap water.
New Journal of Chemistry, 44, (15), 6026-6036, (2020)
Ma XB et al., Magnetic molecularly imprinted specific solid-phase extraction for determination of dihydroquercetin from Larix griffithiana using HPLC.
Journal of Separation Science, 43, (12), 2301-2310, (2020)
Zhao MJ et al., Preparation of core-shell magnetic molecularly imprinted polymers for extraction of patulin from juice samples.
Journal of Chromatography A, 1615, Article460751-(2020)
Feng GG et al., Preparation of molecularly imprinted polymer with class-specific recognition for determination of 29 sulfonylurea herbicides in agro-products.
Journal of Chromatography A, 1647, Article462143-(2021)
Ma J et al., An overview on molecular imprinted polymers combined with surface-enhanced Raman spectroscopy chemical sensors toward analytical applications.
Talanta, 225, Article122031-(2021)
Li Y et al., Synthesis of metal-organic framework @molecularly imprinted polymer adsorbents for solid phase extraction of organophosphorus pesticides from agricultural products.
Journal of Chromatography B, 1188, Article123081-(2022)
Shea JJ
Shea JJ, Molecular Imprinting-From Fundamentals to Applications [Book Review].IEEE Electrical Insulation Magazine, 19, (5), 74-74, (2003)
Shea KJ
Shea KJ et al., Template synthesis of macromolecules. Selective functionalization of an organic polymer.Journal of Organic Chemistry, 43, (21), 4253-4255, (1978)
Shea KJ et al., Template synthesis of macromolecules. Synthesis and chemistry of functionalised macroporous polydivinylbenzene.
Journal of the American Chemical Society, 102, (9), 3149-3155, (1980)
Shea KJ et al., Site isolation in macroreticular divinylbenzene polymers.
Macromolecules, 18, (4), 814-817, (1985)
Shea KJ et al., Molecular recognition on synthetic amorphous surfaces - the influence of functional-group positioning on the effectiveness of molecular recognition.
Journal of the American Chemical Society, 108, (5), 1091-1093, (1986)
Dougherty TK et al., Molecular recognition on synthetic-polymers.
Abstracts of Papers of the American Chemical Society, 196, (OLY), 124-124, (1988)
Shea KJ et al., Fluorescence probes for the evaluation of diffusion of ionic reagents through network polymers - chemical quenching of the fluorescence emission of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.
Macromolecules, 22, (11), 4303-4308, (1989)
Shea KJ et al., Fluorescence probes for evaluating chain solvation in network polymers - An analysis of the solvatochromic shift of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.
Macromolecules, 22, (4), 1722-1730, (1989)
Shea KJ et al., On the control of microenvironment shape of functionalized network polymers prepared by template polymerization.
Journal of the American Chemical Society, 111, (9), 3442-3444, (1989)
Shea KJ et al., Synthesis and characterization of highly cross-linked polyacrylamides and polymethacrylamides - a new class of macroporous polyamides.
Macromolecules, 23, (21), 4497-4507, (1990)
Shea KJ et al., An analysis of small-molecule binding to functionalized synthetic polymers by 13C CP/MAS NMR and FT-IR spectroscopy.
Journal of the American Chemical Society, 113, (11), 4109-4120, (1991)
Sellergren B et al., Influence of polymer morphology on the ability of imprinted network polymers to resolve enantiomers.
Journal of Chromatography, 635, (1), 31-49, (1993)
Sellergren B et al., Chiral ion-exchange chromatography - correlation between solute retention and a theoretical ion-exchange model using imprinted polymers.
Journal of Chromatography A, 654, (1), 17-28, (1993)
Shea KJ et al., Polymer complements to nucleotide bases - selective binding of adenine-derivatives to imprinted polymers.
Journal of the American Chemical Society, 115, (8), 3368-3369, (1993)
Beach JV et al., Designed catalysts - A synthetic network polymer that catalyzes the dehydrofluorination of 4-fluoro-4-(p-nitrophenyl)butan-2-one.
Journal of the American Chemical Society, 116, (1), 379-380, (1994)
Sellergren B et al., Enantioselective ester hydrolysis catalyzed by imprinted polymers.
Tetrahedron: Asymmetry, 5, (8), 1403-1406, (1994)
Shea KJ, Molecular imprinting of synthetic network polymers - the de-novo synthesis of macromolecular binding and catalytic sites.
Abstracts of Papers of the American Chemical Society, 208, (OLY), 467-467, (1994)
Shea KJ, Molecular imprinting of synthetic network polymers: The de novo synthesis of macromolecular binding and catalytic sites.
Trends in Polymer Science, 2, (5), 166-173, (1994)
Sellergren B et al., Origin of peak asymmetry and the effect of temperature on solute retention in enantiomer separations on imprinted chiral stationary phases.
Journal of Chromatography A, 690, (1), 29-39, (1995)
Shea KJ, Molecular imprinting - the de-novo synthesis of macromolecular binding and catalytic sites.
Abstracts of Papers of the American Chemical Society, 209, (COLL), 29-29, (1995)
Mathew-Krotz J et al., Imprinted polymer membranes for the selective transport of targeted neutral molecules.
Journal of the American Chemical Society, 118, (34), 8154-8155, (1996)
Daitch CE et al., Phosphate and phosphonate receptors in silicate materials.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 132-132, (1997)
Rush DJ et al., Molecular imprinting: Recent advances in the synthesis of macromolecular binding sites.
Abstracts of Papers of the American Chemical Society, 214, (ORGN), 146-146, (1997)
Shea KJ, Molecular imprinting. The de novo synthesis of macromolecular binding and catalytic sites.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 145-145, (1997)
Spivak D et al., Evaluation of binding and origins of specificity of 9-ethyladenine imprinted polymers.
Journal of the American Chemical Society, 119, (19), 4388-4393, (1997)
Sasaki DY et al., Book chapter, Molecular imprinted receptors in sol-gel materials for aqueous phase recognition of phosphates and phosphonates,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 22, 314-323, (1998)
Spivak DA et al., Binding of nucleotide bases by imprinted polymers.
Macromolecules, 31, (7), 2160-2165, (1998)
Hart BR et al., Molecular imprinting for enantiomeric separations of benzodiazepines.
Abstracts of Papers of the American Chemical Society, 218, (OLY), 136-136, (1999)
Sasaki DY et al., Molecular imprinting in guanidine functionalized sol-gel materials.
Abstracts of Papers of the American Chemical Society, 217, (HYS), 211-211, (1999)
Spivak D et al., Molecular imprinting of carboxylic acids employing novel functional macroporous polymers.
Journal of Organic Chemistry, 64, (13), 4627-4634, (1999)
Hart BR et al., Discrimination between enantiomers of structurally related molecules: Separation of benzodiazepines by molecularly imprinted polymers.
Journal of the American Chemical Society, 122, (3), 460-465, (2000)
Sellergren B et al., Enantioselective ester hydrolysis catalyzed by imprinted polymers. 2.
Journal of Organic Chemistry, 65, (13), 4009-4027, (2000)
Batra D et al., Molecular imprinting of oligonucleotides.
Abstracts of Papers of the American Chemical Society, 221, (ORGN), 158-158, (2001)
Hart BR et al., Synthetic peptide receptors: Molecularly imprinted polymers for the recognition of peptides using peptide-metal interactions.
Journal of the American Chemical Society, 123, (9), 2072-2073, (2001)
Spivak DA et al., Investigation into the scope and limitations of molecular imprinting with DNA molecules.
Analytica Chimica Acta, 435, (1), 65-74, (2001)
Zhou XZ et al., Synthesis of molecularly imprinted polymer membranes and their application to the selective transport of targeted molecules.
Abstracts of Papers of the American Chemical Society, 221, (ORGN), 377-377, (2001)
Hart BR et al., Book chapter, Molecularly imprinted polymers,
In: Encyclopedia of Smart Materials, Schwartz M (Ed.) John Wiley & Sons Inc.: 667-681, (2002)
Hart BR et al., Book chapter, Molecularly Imprinted Polymers,
In: Encyclopedia of Polymer Science and Technology, John Wiley & Sons, Inc.: (2002)
Hart BR et al., Molecular imprinting for the recognition of N-terminal histidine peptides in aqueous solution.
Macromolecules, 35, (16), 6192-6201, (2002)
Batra D et al., Novel trifunctional building blocks for fluorescent polymers.
Organic Letters, 5, (21), 3895-3898, (2003)
Batra D et al., Combinatorial methods in molecular imprinting.
Current Opinion in Chemical Biology, 7, (3), 434-442, (2003)
Conrad PGI et al., Functional molecularly imprinted polymer microstructures fabricated using microstereolithography.
Advanced Materials, 15, (18), 1541-1544, (2003)
Shea KJ, Recent developments in molecular imprinting.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 709-709, (2003)
Shea KJ, Microfabrication of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 227, (PMSE), 94-94, (2004)
Anderson CD et al., Strategies for the generation of molecularly imprinted polymeric nitroxide catalysts.
Organic Letters, 7, (22), 4879-4882, (2005)
Choi KM et al., Book chapter, A fabrication of a novel microfluidic reactor microsynthesis of MIP's particles,
In: Micro- and Nanosystems - Materials and Devices, Ozkan CS, La Van.D.A., McNie M, Prasad S (Eds.) Materials Research Society: Warrendale, 137-141, (2005)
Choi KM et al., Novel microfluidic reactors for the synthesis and fabrication of bio-materials and bio-sensors.
Abstracts of Papers of the American Chemical Society, 229, (COLL), U662-U663, (2005)
Conrad PGI et al., Book chapter, The use of metal coordination for controlling the microenvironment of imprinted polymers,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 6, 123-180, (2005)
Nishino H et al., Fabrication of novel molecularly imprinted polymer film for specific protein recognition.
Abstracts of Papers of the American Chemical Society, 229, U1139-U1140, (2005)
Nishino H et al., Selective protein capture by epitope imprinting.
Angewandte Chemie International Edition, 45, (15), 2392-2396, (2006)
O’Connor NA et al., Screening of 5-HT1A Receptor Antagonists using Molecularly Imprinted Polymers.
Journal of the American Chemical Society, 129, (6), 1680-1689, (2007)
Hoshino Y et al., Peptide Imprinted Polymer Nanoparticles: A Plastic Antibody.
Journal of the American Chemical Society, 130, (46), 15242-15243, (2008)
Zeng ZY et al., Synthetic Polymer Nanoparticles with Antibody-like Affinity for a Hydrophilic Peptide.
ACS Nano, 4, (1), 199-204, (2009)
Hoshino Y et al., Recognition, Neutralization, and Clearance of Target Peptides in the Bloodstream of Living Mice by Molecularly Imprinted Polymer Nanoparticles: A Plastic Antibody.
Journal of the American Chemical Society, 132, (19), 6644-6645, (2010)
Hoshino Y et al., The evolution of plastic antibodies.
Journal of Materials Chemistry, 21, (11), 3517-3521, (2011)
Spivak DA et al., MIP2010: The Future of Molecular Imprinting.
Journal of Molecular Recognition, 25, (6), 319-319, (2012)
Yonamine Y et al., ELISA-Mimic Screen for Synthetic Polymer Nanoparticles with High Affinity to Target Proteins.
Biomacromolecules, 13, (9), 2952-2957, (2012)
Chen W et al., Protein recognition by a surface imprinted colloidal array.
Journal of Materials Chemistry A, 2, (20), 7165-7169, (2014)
Chen W et al., Molecularly imprinted hollow sphere array for the sensing of proteins.
Journal of Biophotonics, 8, (10), 838-845, (2015)
Chen W et al., Molecularly imprinted hollow spheres for the solid phase extraction of estrogens.
Talanta, 140, 68-72, (2015)
Weisman A et al., Polymer antidotes for toxin sequestration.
Advanced Drug Delivery Reviews, 90, 81-100, (2015)
Yoshimatsu K et al., Preparation of abiotic polymer nanoparticles for sequestration and neutralization of a target peptide toxin.
Nature Protocols, 10, (4), 595-604, (2015)
Chen W et al., Molecular imprinted photonic crystal for sensing of biomolecules.
Molecular Imprinting, 4, (1), 1-12, (2016)
Liu MM et al., A sol-gel derived pH-responsive bovine serum albumin molecularly imprinted poly(ionic liquids) on the surface of multiwall carbon nanotubes.
Analytica Chimica Acta, 932, 29-40, (2016)
Sheardown H
Hui A et al., Acetic and Acrylic Acid Molecular Imprinted Model Silicone Hydrogel Materials for Ciprofloxacin-HCl Delivery.Materials, 5, (1), 85-107, (2012)
Guidi G et al., Modification of Timolol Release From Silicone Hydrogel Model Contact Lens Materials Using Hyaluronic Acid.
Eye & Contact Lens: Science & Clinical Practice, 40, (5), 269-276, (2014)
Sheardy RD
Fish WP et al., Rational design of an imprinted polymer: Maximizing selectivity by optimizing the monomer-template ratio for a cinchonidine MIP, prior to polymerization, using microcalorimetry.Journal of Liquid Chromatography & Related Technologies, 28, (1), 1-15, (2005)
Shehab OR
Hasseb AA et al., Application of molecularly imprinted polymers for electrochemical detection of some important biomedical markers and pathogens.Current Opinion in Electrochemistry, 31, Article100848-(2022)
Shehzad K
Hussain T et al., Molecular Imprinted Titania Sol-Gel Layer for Conductometric Sensing of p-Nitrophenol.Sensor Letters, 12, (11), 1682-1687, (2014)
Haq I et al., Developing imprinted polymer nanoparticles for the selective separation of antidiabetic drugs.
Journal of Separation Science, 38, (19), 3469-3476, (2015)
Sheikh-Mohseni MA
Mazloum-Ardakani M et al., Preparation of Cu (II) imprinted polymer electrode and its application for potentiometric and voltammetric determination of Cu (II).Journal of the Iranian Chemical Society, 11, (1), 257-262, (2014)
Shekarchi M
Ramezany F et al., Application of Molecularly Imprinted Polymers in Analysis and Detoxification of Colocynth: Resurgence of an Obscure Ancient Botanical.Planta Medica, 79, (5), 67-(2013)
Shekarchi M et al., Selective extraction of lamivudine in human serum and urine using molecularly imprinted polymer technique.
Journal of Chromatography B, 931, 50-55, (2013)
Ashouri N et al., Synthesis of a new ion-imprinted polymer and its characterization for the selective extraction and determination of nickel ions in aqueous solutions.
Desalination and Water Treatment, 56, (8), 2135-2144, (2015)
Pourfarzib M et al., Molecularly imprinted nanoparticles prepared by miniemulsion polymerization as a sorbent for selective extraction and purification of efavirenz from human serum and urine.
Journal of Chromatography B, 974, 1-8, (2015)
Pourfarzib M et al., Water-compatible molecularly imprinted polymer as a sorbent for the selective extraction and purification of adefovir from human serum and urine.
Journal of Separation Science, 38, (10), 1755-1762, (2015)
Ashouri N et al., A nanostructure ion-imprinted polymer for the selective separation and determination of copper ions in aqueous solutions.
Desalination and Water Treatment, 57, (44), 20867-20876, (2016)
Ashouri N et al., Preparation of a new nanoparticle Cd(II)-imprinted polymer and its application for selective separation of cadmium(II) ions from aqueous solutions and determination via inductively coupled plasma optical emission spectrometry.
Desalination and Water Treatment, 57, (30), 14280-14289, (2016)
Salehi S et al., Synthesis of molecular imprinted polymers for selective extraction of domperidone from human serum using high performance liquid chromatography with fluorescence detection.
Journal of Chromatography B, 1027, 165-173, (2016)
Ramezani F et al., Molecularly Imprinted Polymer of Colocynthin, An Effective Tool for Quality Control of Citrullus colocynthis Extracts.
Current Drug Discovery Technologies, 14, (3), 169-180, (2017)
Shekarchizadeh H
Shekarchizadeh H et al., Selective determination of sucrose based on electropolymerized molecularly imprinted polymer modified multiwall carbon nanotubes/glassy carbon electrode.Materials Science and Engineering: C, 33, (6), 3553-3561, (2013)
Sistani S et al., Fabrication of fluorescence sensor based on molecularly imprinted polymer on amine-modified carbon quantum dots for fast and highly sensitive and selective detection of tannic acid in food samples.
Analytica Chimica Acta, 1186, Article339122-(2021)
Shekari N
Ebrahimzadeh H et al., Molecularly imprinted nano particles combined with miniaturized homogenous liquid-liquid extraction for the selective extraction of loratadine in plasma and urine samples followed by high performance liquid chromatography-photo diode array detection.Analytica Chimica Acta, 767, 155-162, (2013)
Ebrahimzadeh H et al., Determination of haloperidol in biological samples using molecular imprinted polymer nanoparticles followed by HPLC-DAD detection.
International Journal of Pharmaceutics, 453, (2), 601-609, (2013)
Shekhovtsova TN
Borzenkova NV et al., Opportunities to improve selectivity of determining oxidoreductase substrate using artificial receptors.Moscow University Chemistry Bulletin, 67, (5), 211-228, (2012)
Eremina OE et al., Optically transparent chitosan hydrogels for selective sorption and fluorometric determination of dibenzothiophenes.
Carbohydrate Polymers, 216, 260-269, (2019)
Sheldon RA
Cabirol FL et al., Linum usitatissimum Hydroxynitrile Lyase Cross-Linked Enzyme Aggregates: A Recyclable Enantioselective Catalyst.Advanced Synthesis & Catalysis, 350, (14-15), 2329-2338, (2008)
Shelke CR
Shelke CR et al., Synthesis and characterization of MIPs - a viable commercial venture.Pharmaceutical Reviews, 6, (5), (2008)
Shelley T
Shelley T, Technical report: Medical design: Pushing the frontiers.Eureka, 26, (12), 38-(2006)
Shemirani F
Hossein Beyki M et al., Aqueous Co(II) adsorption using 8-hydroxyquinoline anchored [gamma]-Fe2O3@chitosan with Co(II) as imprinted ions.International Journal of Biological Macromolecules, 87, 375-384, (2016)
Khoddami N et al., A new magnetic ion-imprinted polymer as a highly selective sorbent for determination of cobalt in biological and environmental samples.
Talanta, 146, 244-252, (2016)
Shen AJ
Sun GY et al., Two-dimensionalShen B
Cui CF et al., Carbon-dot-encapsulated molecularly imprinted mesoporous organosilica for fluorescent sensing of rhodamine 6G.Research on Chemical Intermediates, 44, (8), 4633-4640, (2018)
Shen BX
Tang XJ et al., Hg2+ Adsorption from a Low-Concentration Aqueous Solution on Chitosan Beads Modified by Combining Polyamination with Hg2+-Imprinted Technologies.Industrial & Engineering Chemistry Research, 52, (36), 13120-13127, (2013)
Shen CH
Hou CJ et al., Preparation and properties of molecularly imprinted polymeric microspheres for recognition of omethoate.Journal of Functional Materials, 42, (12), 2233-2236+2240, (2011)
Shen D
Wu Z et al., Direct and label-free detection of cholic acid based on molecularly imprinted photonic hydrogels.Journal of Materials Chemistry, 18, (45), 5452-5458, (2008)
Shen DH
Li JH et al., One-pot synthesis of magnetic molecularly imprinted microspheres by RAFT precipitation polymerization for the fast and selective removal of 17[beta]-estradiol.RSC Advances, 5, (14), 10611-10618, (2015)
Shen DZ
Wu Z et al., Label-Free Colorimetric Detection of Trace Atrazine in Aqueous Solution by Using Molecularly Imprinted Photonic Polymers.Chemistry - A European Journal, 14, (36), 11358-11368, (2008)
Wang XY et al., Novel monodisperse molecularly imprinted shell for estradiol based on surface imprinted hollow vinyl-SiO2 particles.
Talanta, 124, 7-13, (2014)
Zhang Z et al., Quantum Dots Based Mesoporous Structured Imprinting Microspheres for the Sensitive Fluorescent Detection of Phycocyanin.
ACS Applied Materials & Interfaces, 7, (17), 9118-9127, (2015)
Wang XY et al., A molecular imprinting-based turn-on Ratiometric fluorescence sensor for highly selective and sensitive detection of 2, 4-dichlorophenoxyacetic acid (2, 4-D).
Biosensors and Bioelectronics, 81, 438-444, (2016)
Wang XY et al., Molecular imprinting ratiometric fluorescence sensor for highly selective and sensitive detection of phycocyanin.
Biosensors and Bioelectronics, 77, 624-630, (2016)
Yu JL et al., One-pot synthesis of a quantum dot-based molecular imprinting nanosensor for highly selective and sensitive fluorescence detection of 4-nitrophenol in environmental waters.
Environmental Science: Nano, 4, (2), 493-502, (2017)
Wang XY et al., Quantum dots based imprinting fluorescent nanosensor for the selective and sensitive detection of phycocyanin: A general imprinting strategy toward proteins.
Sensors and Actuators B: Chemical, 255, (Part 1), 268-274, (2018)
Kang Q et al., Enhancement anti-interference ability of photoelectrochemical sensor via differential molecularly imprinting technique demonstrated by dopamine determination.
Analytica Chimica Acta, 1125, 201-209, (2020)
Wang JR et al., Enhancing anti-interference ability of molecularly imprinted ratiometric fluorescence sensor via differential strategy demonstrated by the detection of bovine hemoglobin.
Sensors and Actuators B: Chemical, 322, Article128581-(2020)
Shen F
Li QS et al., One-pot synthesis of phenylphosphonic acid imprinted polymers for tyrosine phosphopeptides recognition in aqueous phase.Analytica Chimica Acta, 795, 82-87, (2013)
Xu L et al., Specific recognition of tyrosine-phosphorylated peptides by epitope imprinting of phenylphosphonic acid.
Journal of Chromatography A, 1293, 85-91, (2013)
Shen F et al., Covalent molecular imprinting made easy: a case study of mannose imprinted polymer.
RSC Advances, 4, (25), 13123-13125, (2014)
Zhang X et al., Synthesis of a novel cross-linker doubles as a functional monomer for preparing a water compatible molecularly imprinted polymer.
Analytical Methods, 6, (23), 9483-9489, (2014)
Shen F et al., A triple-function zwitterion for preparing water compatible diclofenac imprinted polymers.
Chemical Communications, 51, (1), 183-186, (2015)
Zhang Z et al., Direct fluorescence quantification of sulfadiazine from quenching of novel functional monomer based molecularly imprinted polymers.
Analytical Methods, 7, (14), 5794-5800, (2015)
Li M et al., A Novel 2-Acrylamide-6-Methoxybenzothiazole Fabricated Molecularly Imprinted Polymers for Direct Fluorescent Sensing of Alachlor.
Chromatographia, 79, (1), 71-78, (2016)
Shen FF
Han XY et al., Recent Progress of Imprinted Polymer Photonic Waveguide Devices and Applications.Polymers, 10, (6), ArticleNo603-(2018)
Shen FX
Zhao WR et al., A novel electrochemical sensor based on gold nanoparticles and molecularly imprinted polymer with binary functional monomers for sensitive detection of bisphenol A.Journal of Electroanalytical Chemistry, 786, 102-111, (2017)
Shen GH
Li SS et al., Surface Molecularly Imprinted Polymer Film with Poly(p-aminothiophenol) Outer Layer Coated on Gold Nanoparticles Inner Layer for Highly Sensitive and Selective Sensing Paraoxon.Polymers, 9, (8), ArticleNo359-(2017)
Li SS et al., A gold nanoparticles-based molecularly imprinted electrochemical sensor for histamine specific-recognition and determination.
Microchemical Journal, 171, Article106844-(2021)
Shen GJ
Pei HY et al., Proceeding, The Application of Molecularly Imprinted Polymers to Solid-Phase Extraction,Kida K (Ed.), 238-286, (2014)
Shen GJ et al., Preparation and characteristics of a molecularly imprinted electrode for terbutaline sulfate.
Chinese Journal of Analysis Laboratory, 33, (6), 733-736, (2014)
Shen GJ, Proceeding, Recent Developments in Molecularly Imprinted Solid Phase Extraction Technology,
Matsuda K, Pa PS, Yun W (Eds.), 131-134, (2014)
Gu LY et al., Preparation and Characteristics of a Molecularly Imprinted Electrode for L-Aspartic Acid.
Journal of Analytical Science, 31, (6), 758-762, (2015)
Zhao M et al., The Application of Molecularly Imprinted Polymers.
Journal of Materials Science and Chemical Engineering, 3, 87-89, (2015)
Zhao ZW et al., Preparation and characteristics of a molecularly imprinted electrode for dioxopromethazine hydrochloride.
Chinese Journal of Analysis Laboratory, 34, (2), 178-181, (2015)
Shen GL
Gong JL et al., A novel electrosynthesized polymer applied to molecular imprinting technology.Talanta, 61, (4), 447-453, (2003)
Huan SY et al., An microelectrode based on molecularly imprinted oligomer film for rapid electrochemical sensing.
Analytical Letters, 36, (11), 2401-2416, (2003)
Gong JL et al., Capacitive chemical sensor for fenvalerate assay based on electropolymerized molecularly imprinted polymer as the sensitive layer.
Analytical and Bioanalytical Chemistry, 379, (2), 302-307, (2004)
Huan SY et al., Selective electrochemical molecular recognition of benzenediol isomers using molecularly imprinted TiO2 film electrodes.
Analytica Chimica Acta, 506, (1), 31-39, (2004)
Huan SY et al., Determination of heavy metal ions in mixed solution by imprinted SAMs.
Electrochimica Acta, 49, (25), 4273-4280, (2004)
Huan SY et al., Enantioselective recognition of amino acid by differential pulse voltammetry in molecularly imprinted monolayers assembled on Au electrodes.
Electroanalysis, 16, (12), 1019-1023, (2004)
Liu ZH et al., Detection of cinchohine using molecularly imprinted electrosynthesized polymer as biomimetic receptor layers.
Chemical Journal of Chinese Universities, 26, (6), 1049-1051, (2005)
Liu ZH et al., Progress of electrochemical sensor based on molecular imprinting.
Chemical Sensors (China), 25, (4), 1-8, (2005)
Wu ZY et al., Sensitive nicotine sensor based on molecularly imprinted electropolymer of o-aminophenol.
Journal of Hunan University Natural Sciences, 32, (3), 10-14, (2005)
Liu ZH et al., Molecularly imprinted TiO2 thin film using stable ground-state complex as template as applied to selective electrochemical determination of mercury.
Talanta, 68, (4), 1120-1125, (2006)
Liu ZH et al., Progress in the Application of MIPs.
Science and Technology Review, 24, (1), 51-54, (2006)
Wu ZY et al., A sensitive nicotine sensor based on molecularly imprinted electropolymer of o-aminophenol.
Frontiers of Chemistry in China, 1, (2), 183-187, (2006)
Shen GP
Du B et al., A novel restricted access material combined to molecularly imprinted polymers for selective solid-phase extraction and high performance liquid chromatography determination of 2-methoxyestradiol in plasma samples.Talanta, 129, 465-472, (2014)
Huang Q et al., Chiral separation of (d, l)-lactic acid through molecularly imprinted cellulose acetate composite membrane.
Cellulose, 25, (6), 3435-3448, (2018)
Shen GX
Feng LM et al., Selective fluorescent sensing of [alpha]-amanitin in serum using carbon quantum dots-embedded specificity determinant imprinted polymers.Biosensors and Bioelectronics, 69, 265-271, (2015)
Shen H
Yin YF et al., Synthesis and Characterization of Emodin Molecularly Imprinted Monolithic Column.Journal of Instrumental Analysis, 27, (7), 758-761, (2008)
Yin YF et al., The Synthesis and Characterization of Metsulforon Methyl Imprinted Polymers with High Binding Capacity.
Journal of Analytical Science, 25, (4), 414-418, (2009)
Fan HT et al., A method for measurement of free cadmium species in waters using diffusive gradients in thin films technique with an ion-imprinted sorbent.
Analytica Chimica Acta, 897, 24-33, (2015)
Shen HQ
Wang JX et al., Molecularly imprinted fluorescent hollow nanoparticles as sensors for rapid and efficient detection [lambda]-cyhalothrin in environmental water.Biosensors and Bioelectronics, 85, 387-394, (2016)
Shen HX
Liu YQ et al., Research and progress of mimetic enzymes.Progress In Chemistry, 17, (6), 1067-1073, (2005)
Shen HX et al., Proceeding, Preparation and Recognition Performance of Chloramphenicol Molecularly Imprinted Polymer,
Sun MJ, Zhang YJ (Eds.), 192-196, (2013)
Shen HY
Zhao YG et al., Self-assembly of a surface bisphenol A-imprinted core-shell nanoring amino-functionalized superparamagnetic polymer.Journal of Materials Chemistry A, 1, (38), 11648-11658, (2013)
Lan HZ et al., Development of a novel magnetic molecularly imprinted polymer coating using porous zeolite imidazolate framework-8 coated magnetic iron oxide as carrier for automated solid phase microextraction of estrogens in fish and pork samples.
Journal of Chromatography A, 1365, 35-44, (2014)
Pan SD et al., Controlled synthesis of pentachlorophenol-imprinted polymers on the surface of magnetic graphene oxide for highly selective adsorption.
Journal of Materials Chemistry A, 2, (37), 15345-15356, (2014)
Chen XH et al., Ethylenediamine-functionalized superparamagnetic carbon nanotubes for magnetic molecularly imprinted polymer matrix solid-phase dispersion extraction of 12 fluoroquinolones in river water.
Analytical Methods, 7, (14), 5838-5846, (2015)
Pan SD et al., In situ controllable synthesis of graphene oxide-based ternary magnetic molecularly imprinted polymer hybrid for efficient enrichment and detection of eight microcystins.
Journal of Materials Chemistry A, 3, (45), 23042-23052, (2015)
Pan SD et al., Double-sided magnetic molecularly imprinted polymer modified graphene oxide for highly efficient enrichment and fast detection of trace-level microcystins from large-volume water samples combined with liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1422, 1-12, (2015)
Shen HY et al., Controlled synthesis of 2, 4, 6-trichlorophenol-imprinted amino-functionalized nano-Fe3O4-polymer magnetic composite for highly selective adsorption.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 481, 439-450, (2015)
Wang XX et al., Analysis of Chlorophenols in Seawater Samples by Molecular Imprinted Magnetic Composite-based Dispersive Solid Phase Extraction Coupled with Liquid Chromatography.
Journal of Instrumental Analysis, 34, (11), 1213-1219, (2015)
Shen HY et al., Highly selective amino-functionalized magnetic molecularly imprinted polymers: absorbents for dispersive solid phase extraction and trace level analysis of chlorophenols in seawater.
RSC Advances, 6, (84), 81330-81340, (2016)
Shen HY et al., Design and controllable synthesis of ethylenediamine-grafted ion imprinted magnetic polymers for highly selective adsorption to perchlorate.
RSC Advances, 8, (52), 29928-29938, (2018)
Pan SD et al., Correction: In situ controllable synthesis of graphene oxide-based ternary magnetic molecularly imprinted polymer hybrid for efficient enrichment and detection of eight microcystins.
Journal of Materials Chemistry A, 7, (25), 15453-15455, (2019)
Shen J
Liu PY et al., Determination of Fluoroquinolones in Milk by High-Performance Liquid Chromatography Using Mixed-Templates Imprinted Polymer Extraction.Asian Journal of Chemistry, 22, (8), 6275-6288, (2010)
Liu PY et al., Determination of Fluoroquinolones in Grass Carp by High Performance Liquid Chromatography-Ion Trap Mass Spectrometry Using Mixed-templates Imprinted Polymer Extraction.
Chinese Journal of Analytical Chemistry, 40, (5), 693-698, (2012)
Wu WT et al., Specific glucose-to-SPR signal transduction at physiological pH by molecularly imprinted responsive hybrid microgels.
Biomaterials, 33, (29), 7115-7125, (2012)
Qian T et al., Ultrasensitive dopamine sensor based on novel molecularly imprinted polypyrrole coated carbon nanotubes.
Biosensors and Bioelectronics, 58, 237-241, (2014)
Zhou X et al., Facile Synthesis of Molecularly Imprinted Graphene Quantum Dots for the Determination of Dopamine with Affinity-Adjustable.
ACS Applied Materials & Interfaces, 7, (22), 11741-11747, (2015)
Shen J et al., Efficient Separation of Enantiomers Using Stereoregular Chiral Polymers.
Chemical Reviews, 116, (3), 1094-1138, (2016)
Chen GS et al., Allochroic-Graphene Oxide Linked 3D Oriented Surface Imprinting Strategy for Glycoproteins Assays.
Advanced Functional Materials, 28, (40), ArticleNo1804129-(2018)
Shen J et al., Electrochemical sensor based on electropolymerized dopamine molecularly imprinted film for tetrabromobisphenol A.
Journal of Electroanalytical Chemistry, 826, 10-15, (2018)
Shi W et al., Adsorption-selectivity customization and competitive adsorption of tryptamine-based mixed-mode chromatography.
Biochemical Engineering Journal, 150, Article107267-(2019)
Shen JC
Liu JQ et al., Generation of a glutathione peroxidase-like mimic using bioimprinting and chemical mutation.Chemical Communications, (2), 199-200, (1999)
Luo GM et al., Towards more efficient glutathione peroxidase mimics: Substrate recognition and catalytic group assembly.
Current Medicinal Chemistry, 10, (13), 1151-1183, (2003)
Liu JQ et al., Bioimprinted protein exhibits glutathione peroxidase activity.
Analytica Chimica Acta, 504, (1), 185-189, (2004)
Liu L et al., Functional Mimicry of the Active Site of Glutathione Peroxidase by Glutathione Imprinted Selenium-Containing Protein.
Biomacromolecules, 9, (1), 363-368, (2008)
Huang X et al., Incorporation of glutathione peroxidase active site into polymer based on imprinting strategy.
Biosensors and Bioelectronics, 25, (3), 657-660, (2009)
Tang Y et al., Giant Nanotubes Loaded with Artificial Peroxidase Centers: Self-Assembly of Supramolecular Amphiphiles as a Tool To Functionalize Nanotubes.
Angewandte Chemie International Edition, 49, (23), 3920-3924, (2010)
Huang X et al., Artificial selenoenzymes: Designed and redesigned.
Chemical Society Reviews, 40, (3), 1171-1184, (2011)
Shen JC et al., Synthesis and Performance of Isocarbophos Molecular Imprinted Sillica Surface.
Chinese Journal of Applied Chemistry, 31, (1), 84-88, (2014)
Shen JG
Fan ZL et al., Synthesis and Adsorption Behavior of Surface Cu(II) Ion-Imprinted Poly(allylamine)-Silica Gel Material.Polymer-Plastics Technology and Engineering, 51, (13), 1289-1295, (2012)
Fan ZL et al., Adsorption of Cu(II) on Surface Ion-Imprinted Poly(Allylamine)-Silica Material from Aqueous Solution.
Polymer-Plastics Technology and Engineering, 53, (1), 30-37, (2014)
Shen JN
Liu QQ et al., A novel chitosan base molecularly imprinted membrane for selective separation of chlorogenic acid.Separation and Purification Technology, 164, 70-80, (2016)
Shen JX
Lin ZZ et al., Extraction and determination of malachite green from aquatic products based on molecularly imprinted polymers.Separation Science and Technology, 51, (10), 1684-1689, (2016)
Shen JY
Xue M et al., Determination of trichlorfon in samples of spicy vegetables using a molecularly imprinted solid-phase extraction technique.Analytical Methods, 7, (6), 2420-2424, (2015)
Shen JZ
Liu JQ et al., Molecular Imprinting Polymer and its Application.Journal of Functional Polymers, 11, (4), 561-565, (1998)
Chen CC et al., Molecularly Imprinted Polymer as an Antibody Substitution in Pseudo-immunoassays for Chemical Contaminants in Food and Environmental Samples.
Journal of Agricultural and Food Chemistry, 66, (11), 2561-2571, (2018)
Shen KY
Chen MP et al., Facile lotus-leaf-templated synthesis and enhanced xylene gas sensing properties of Ag-LaFeO3 nanoparticles.Journal of Materials Chemistry C, 6, (23), 6138-6145, (2018)
Rong Q et al., Highly selective and sensitive methanol gas sensor based on molecular imprinted silver-doped LaFeO3 core-shell and cage structures.
Nanotechnology, 29, (14), ArticleNo145503-(2018)
Shen L
Shen L et al., Preparation of protein molecular imprinted polymer hydrogel by radiation grafting of polypropylene.Journal of Tianjin Polytechnic University, 28, (1), 19-22, (2009)
Shu XW et al., Synthesis of surface ion-imprinted magnetic microsphere for efficient sorption of perrhenate: A structural surrogate for pertechnetate.
Journal of Molecular Liquids, 211, 621-627, (2015)
Lian WJ et al., Enzymatic logic calculation systems based on solid-state electrochemiluminescence and molecularly imprinted polymer film electrodes.
Biosensors and Bioelectronics, 100, 326-332, (2018)
Shen LH
Du JX et al., Flow injection chemiluminescence determination of epinephrine using epinephrine-imprinted polymer as recognition material.Analytica Chimica Acta, 489, (2), 183-189, (2003)
Shen LQ
Li PF et al., Rosin-based molecularly imprinted polymers as the stationary phase in high-performance liquid chromatography for selective separation of berberine hydrochloride.Polymer International, 63, (9), 1699-1706, (2014)
Shen LS
Fang SY et al., Determination of carbonyls in ambient PM2.5 by coupling dummy template imprinting technology and high performance liquid chromatography.Chinese Journal of Chromatography, 37, (6), 634-643, (2019)
Shen M
Bhakta S et al., Albumin removal from human serum using surface nanopockets on silica-coated magnetic nanoparticles.Chemical Communications, 53, (66), 9254-9257, (2017)
Shen M et al., Site-selective orientated immobilization of antibodies and conjugates for immunodiagnostics development.
Methods, 116, 95-111, (2017)
Shen MJ
Cao HB et al., Determination of Paracetamol on Molecular Imprinted-Carbon Nanotubes Modified Electrode.Chinese Journal of Spectroscopy Laboratory, 29, (2), 1241-1244, (2012)
Shen MM
Shen MM et al., Dual-recognition colorimetric sensing of thrombin based on surface-imprinted aptamer-Fe3O4.Journal of Materials Chemistry B, 9, (20), 4249-4256, (2021)
Shen MM et al., Aptamer and molecularly imprinted polymer: Synergistic recognition and sensing of dopamine.
Electrochimica Acta, 367, Article137433-(2021)
Shen N
Shen N et al., Imprinted Human Serum Albumin with Antioxidant Activity.Chemical Research in Chinese Universities, 27, (2), 258-263, (2011)
Shen Q
Huan SY et al., Determination of heavy metal ions in mixed solution by imprinted SAMs.Electrochimica Acta, 49, (25), 4273-4280, (2004)
Zhao S et al., Determination of melamine in liquid milk based on molecularly imprinted electrochemical sensors.
Journal of Beijing Technology and Business University (Natural Science Edition), 28, (6), 23-27, (2010)
Shen Q et al., Preparation and Application of Microcystins Sensor Based on Molecular Imprinting.
Chinese Journal of Analytical Chemistry, 40, (3), 442-446, (2012)
Shen R
Shen R et al., Progress in Application of Dual/Multi-Template Molecularly Imprinted Polymers.Chinese Journal of Analytical Chemistry, 49, (10), e21205-e21215, (2021)
Shen RF
Wang S et al., Selective photodegradation of malachite green in water by Bi2O3-doped TiO2 supported on molecularly imprinted powdered activated carbon.Materials Letters, 304, Article130692-(2021)
Shen RL
Shen RL et al., Study on the Recognition Property of Molecularly Imprinted Polymers with Methyltestosterone as Template.Modern Scientific Instruments, (6), 76-(2008)
Shen RQ
Xu XR et al., Film-like bacterial cellulose based molecularly imprinted materials for highly efficient recognition and adsorption of cresol isomers.Chemical Engineering Journal, 382, Article123007-(2020)
Shen SG
Cao JK et al., Hydrophilic molecularly imprinted melamine-urea-formaldehyde monolithic resin prepared in water for selective recognition of plant growth regulators.Analytica Chimica Acta, 943, 136-145, (2016)
Liang SR et al., Molecularly imprinted phloroglucinol-formaldehyde-melamine resin prepared in a deep eutectic solvent for selective recognition of clorprenaline and bambuterol in urine.
Analytica Chimica Acta, 951, 68-77, (2017)
Han YH et al., Newly designed molecularly imprinted 3-aminophenol-glyoxal-urea resin as hydrophilic solid-phase extraction sorbent for specific simultaneous determination of three plant growth regulators in green bell peppers.
Food Chemistry, 311, Article125999-(2020)
Chen X et al., Selective, sensitive, and miniaturized analytical method based on molecularly imprinted graphene oxide composites for the determination of naphthalene-derived plant growth regulators in apples.
Food Chemistry, 349, Article128982-(2021)
Wu XQ et al., Efficient enrichment and analysis of atrazine and its degradation products in Chinese Yam using accelerated solvent extraction and pipette tip solid-phase extraction followed by UPLC-DAD.
Food Chemistry, 337, Article127752-(2021)
Shen SH
Liu X et al., One-step facile synthesis of shell-pearl structured photocatalysts for efficient removal of selected PPCPs from wastewater.Journal of Environmental Chemical Engineering, 9, (6), Article106758-(2021)
Shen SL
Long ZR et al., Monodisperse core-shell-structured SiO2@Gd2O3:Eu3+@SiO2@MIP nanospheres for specific identification and fluorescent determination of carbaryl in green tea.Analytical and Bioanalytical Chemistry, 411, (18), 4221-4229, (2019)
Shen SR
Wang ZC et al., Preparation of Capsaicin Molecular Imprinting Polymers and Application to Solid Phase Extraction.Food Science, 34, (12), 45-50, (2013)
Lay S et al., Molecularly imprinted polymers as the extracted sorbents of clenbuterol ahead of liquid chromatographic determination.
Journal of Zhejiang University SCIENCE B, 17, (6), 465-475, (2016)
Lay S et al., State-of-the-art applications of cyclodextrins as functional monomers in molecular imprinting techniques: a review.
Journal of Separation Science, 39, (12), 2321-2331, (2016)
He CZJ et al., Synthesis and application of selective adsorbent for pirimicarb pesticides in aqueous media using allyl-[beta]-cyclodextrin based binary functional monomers.
Journal of the Science of Food and Agriculture, 98, (6), 2089-2097, (2017)
Yu HN et al., Development of a novel assay of molecularly imprinted membrane by design-based gaussian pattern for vancomycin determination.
Journal of Pharmaceutical and Biomedical Analysis, 175, Article112789-(2019)
Shen T
Liu Y et al., Development of a thermosensitive molecularly imprinted polymer resonance light scattering sensor for rapid and highly selective detection of hepatitis A virus in vitro.Sensors and Actuators B: Chemical, 253, 1188-1193, (2017)
Shen W
Shen W et al., Preparation and application of imprinted polymer for tetrabromobisphenol A using tetrachlorobisphenol A as the dummy template.Analytical Methods, 5, (19), 5208-5214, (2013)
Shen W et al., Combining mussel and seaweed hydrogel-inspired strategies to design novel ion-imprinted sorbents for ultra-efficient lead removal from water.
New Journal of Chemistry, 43, (14), 5495-5502, (2019)
Shen X
Dong H et al., Preparation of molecularly imprinted polymer for chiral recognition of racemic 1, 1'-binaphthalene-2, 2'-diamine by HPLC.Acta Chromatographica, 26, (4), 683-693, (2014)
Li K et al., Selective Adsorption of Gd3+ on a Magnetically Retrievable Imprinted Chitosan/Carbon Nanotube Composite with High Capacity.
ACS Applied Materials & Interfaces, 7, (38), 21047-21055, (2015)
Han Q et al., Magnetic sensing film based on Fe3O4@Au-GSH molecularly imprinted polymers for the electrochemical detection of estradiol.
Biosensors and Bioelectronics, 79, 180-186, (2016)
Li XX et al., Development and application of novel clonazepam molecularly imprinted coatings for stir bar sorptive extraction.
Journal of Colloid and Interface Science, 468, 183-191, (2016)
He HB et al., Boronate affinity directing adenosine imprinted nanomagnetic polyhedral oligomeric silsesquioxanes for selective extraction of nucleosides in urine sample.
Microchemical Journal, 169, Article106575-(2021)
Shen XD
Chen YQ et al., Ultrasensitive Detection of Testosterone Using Microring Resonator with Molecularly Imprinted Polymers.Sensors, 15, (12), 31558-31565, (2015)
Shen XG
He LM et al., Solid-phase extraction of melamine from aqueous samples using water-compatible molecularly imprinted polymers.Journal of Separation Science, 32, (19), 3310-3318, (2009)
Zhang JJ et al., Separation Processes in the Presence of Cyclodextrins Using Molecular Imprinting Technology and Ionic Liquid Cooperating Approach.
Current Organic Chemistry, 15, (1), 74-85, (2011)
Zhang QJ et al., Molecularly imprinted solid-phase extraction for the selective HPLC determination of ractopamine in pig urine.
Journal of Separation Science, 34, (23), 3399-3409, (2011)
Shen XH
Shen XH et al., Applications of Typical Supramolecular Systems in the Field of Radiochemistry.Progress In Chemistry, 23, (7), 1386-1399, (2011)
Zhang HJ et al., Synthesis of a new ionic imprinted polymer for the extraction of uranium from seawater.
Journal of Radioanalytical and Nuclear Chemistry, 298, (3), 1705-1712, (2013)
Zhang HJ et al., Synthesis of a New Ionic Imprinted Polymer for the Adsorption of Uranium from (NH4)4[UO2(CO3)3] Solution.
Acta Scientiarum Naturalium Universitatis Pekinensis, 50, (5), 960-964, (2014)
Liang HL et al., Application of Ion-Imprinting Technology in the Field of Radiochemistry.
Journal of Nuclear and Radiochemistry, 38, (3), 129-144, (2016)
Liang HL et al., Synthesis and characterization of a new ion-imprinted polymer for the selective separation of thorium(IV) ions at high acidity.
RSC Advances, 7, (56), 35394-35402, (2017)
Shen XJ
Wang J et al., A Cascade-Reaction Nanoreactor Composed of a Bifunctional Molecularly Imprinted Polymer that Contains Pt Nanoparticles.Chemistry - A European Journal, 21, (20), 7532-7539, (2015)
Wang SS et al., Targeting and Imaging of Cancer Cells via Monosaccharide-Imprinted Fluorescent Nanoparticles.
Scientific Reports, 6, ArticleNo22757-(2016)
Wei WJ et al., An enzyme-like imprinted-polymer reactor with segregated quantum confinements for a tandem catalyst.
RSC Advances, 8, (3), 1610-1620, (2018)
Shen XL
Shen XL et al., Molecularly imprinted electrochemical sensor for advanced diagnosis of alpha-fetoprotein.Analytical Methods, 8, (40), 7361-7368, (2016)
Zhou TT et al., Selective and sensitive detection of tetrabromobisphenol-A in water samples by molecularly imprinted electrochemical sensor.
Sensors and Actuators B: Chemical, 236, 153-162, (2016)
Ma Y et al., A multi-walled carbon nanotubes based molecularly imprinted polymers electrochemical sensor for the sensitive determination of HIV-p24.
Talanta, 164, 121-127, (2017)
Ma Y et al., MIPs-graphene nanoplatelets-MWCNTs modified glassy carbon electrode for the determination of cardiac troponin I.
Analytical Biochemistry, 520, 9-15, (2017)
Ma Y et al., A glassy carbon electrode modified with graphene nanoplatelets, gold nanoparticles and chitosan, and coated with a molecularly imprinted polymer for highly sensitive determination of prostate specific antigen.
Microchimica Acta, 184, (11), 4469-4476, (2017)
Shen XL et al., Ultrasensitive Determination of Human Chorionic Gonadotropin using a Molecularly Imprinted Electrochemical Sensor.
ChemistrySelect, 2, (22), 6549-6555, (2017)
Feng JW et al., Highly sensitive and selective fluorescent sensor for tetrabromobisphenol-A in electronic waste samples using molecularly imprinted polymer coated quantum dots.
Microchemical Journal, 144, 93-101, (2019)
Shen XT
Shen XT et al., Synthesis of molecular imprinted polymer coated photocatalysts with high selectivity.Chemical Communications, (11), 1163-1165, (2007)
Shen XT et al., Enhanced Photocatalytic Degradation and Selective Removal of Nitrophenols by Using Surface Molecular Imprinted Titania.
Environmental Science & Technology, 42, (5), 1687-1692, (2008)
Shen XT et al., Inorganic molecular imprinted titanium dioxide photocatalyst: synthesis, characterization and its application for efficient and selective degradation of phthalate esters.
Journal of Materials Chemistry, 19, (27), 4843-4851, (2009)
Shen XT et al., Photocatalytic removal of pentachlorophenol by means of an enzyme-like molecular imprinted photocatalyst and inhibition of the generation of highly toxic intermediates.
New Journal of Chemistry, 33, (11), 2278-2285, (2009)
Shen XT et al., Selective photocatalysis on molecular imprinted TiO2 thin films prepared via an improved liquid phase deposition method.
New Journal of Chemistry, 33, (8), 1673-1679, (2009)
Shen XT et al., Molecular imprinting in Pickering emulsions: a new insight into molecular recognition in water.
Chemical Communications, 47, (37), 10359-10361, (2011)
Shen XT et al., Interfacial Molecular Imprinting in Nanoparticle-Stabilized Emulsions.
Macromolecules, 44, (14), 5631-5637, (2011)
Shen XT et al., Imprinted polymer beads enabling direct and selective molecular separation in water.
Soft Matter, 8, (27), 7169-7176, (2012)
Shen XT et al., Molecular imprinting of protein in Pickering emulsion.
Chemical Communications, 48, (66), 8198-8200, (2012)
Shen XT et al., Molecular imprinting for removing highly toxic organic pollutants.
Chemical Communications, 48, (6), 788-798, (2012)
Tang HQ et al., Selective photocatalysis mediated by magnetic molecularly imprinted polymers.
Separation and Purification Technology, 95, (1), 165-171, (2012)
Xu CG et al., Molecularly imprinted magnetic materials prepared from modular and clickable nanoparticles.
Journal of Materials Chemistry, 22, (15), 7427-7433, (2012)
Huang CX et al., Molecularly imprinted photocatalyst with a structural analogue of template and its application.
Journal of Hazardous Materials, 248 - 249, 379-386, (2013)
Shen XT et al., Molecularly Imprinted Polymers for Clean Water: Analysis and Purification.
Industrial & Engineering Chemistry Research, 52, (39), 13890-13899, (2013)
Shen XT et al., Molecular recognition with colloidosomes enabled by imprinted polymer nanoparticles and fluorogenic boronic acid.
Journal of Materials Chemistry B, 1, (36), 4612-4618, (2013)
Xu CG et al., Photoconjugation of Molecularly Imprinted Polymer with Magnetic Nanoparticles.
ACS Applied Materials & Interfaces, 5, (11), 5208-5213, (2013)
Huang CX et al., Janus molecularly imprinted polymer particles.
Chemical Communications, 50, (20), 2646-2649, (2014)
Shen XT et al., Bacterial Imprinting at Pickering Emulsion Interfaces.
Angewandte Chemie International Edition, 53, (40), 10687-10690, (2014)
Shen XT et al., Selective photocatalytic degradation of nitrobenzene facilitated by molecular imprinting with a transition state analog.
Catalysis Today, 225, 164-170, (2014)
Tu ZK et al., Particle-Assisted Semidirect Breath Figure Method: A Facile Way to Endow the Honeycomb-Structured Petri Dish with Molecular Recognition Capability.
ACS Applied Materials & Interfaces, 6, (15), 12931-12938, (2014)
Zhou TC et al., Molecularly imprinted polymer beads prepared by Pickering emulsion polymerization for steroid recognition.
Journal of Applied Polymer Science, 131, (1), Art No 39606-(2014)
Shen XT, Book chapter, Molecularly Imprinted Photocatalysts,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 10, 211-228, (2016)
Shen XT et al., Reflux precipitation polymerization: a new synthetic insight in molecular imprinting at high temperature.
RSC Advances, 6, (85), 81491-81499, (2016)
Shen XT et al., Catalytic Formation of Disulfide Bonds in Peptides by Molecularly Imprinted Microgels at Oil/Water Interfaces.
ACS Applied Materials & Interfaces, 8, (44), 30484-30491, (2016)
Ye L et al., Molecular imprinting in particle-stabilized emulsions: enlarging template size from small molecules to proteins and cells.
Molecular Imprinting, 3, (1), 8-16, (2016)
Chen ZL et al., Synergistic Catalysis by "Polymeric Microzymes and Inorganic Nanozymes": The 1+1>2 Effect for Intramolecular Cyclization of Peptides.
Frontiers in Chemistry, 5, ArticleNo60-(2017)
Shen XT et al., Book chapter, Generation of Janus Molecularly Imprinted Polymer Particles,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 353-362, (2017)
Wan LB et al., Core-shell molecularly imprinted particles.
TrAC Trends in Analytical Chemistry, 95, 110-121, (2017)
Lin B et al., Electromembrane extraction of high level substances: A novel approach for selective recovery of templates in molecular imprinting.
Journal of Membrane Science, 568, 30-39, (2018)
Chen ZL et al., Artificial Cytochrome c Mimics: Graphene Oxide-Fe(III) Complex-Coated Molecularly Imprinted Colloidosomes for Selective Photoreduction of Highly Toxic Pollutants.
ACS Applied Materials & Interfaces, 12, (5), 6615-6626, (2020)
Shen XW
Li P et al., Synthesis of a molecularly imprinted polymer and its application in chiral separation for phenylalanine ethyl esters.Chinese Journal of Analysis Laboratory, 21, (2), 12-14, (2002)
Shen XY
Sui HY et al., Molecular Imprinting Technique - A New Affinity Separation Method.Chemical Industry and Engineering Progress, 19, (5), 43-46, (2000)
Shen Y
Quan Y et al., Study on Preparation and Performances of Acrylamide Molecularly Imprinted Polymers.Food and Fermentation Industries, 36, (12), 177-180, (2010)
Li N et al., Novel Oligo(ethylene glycol)-Based Molecularly Imprinted Magnetic Nanoparticles for Thermally Modulated Capture and Release of Lysozyme.
ACS Applied Materials & Interfaces, 6, (19), 17289-17295, (2014)
Ji SL et al., Poly(amino acid)-based thermoresponsive molecularly imprinted magnetic nanoparticles for specific recognition and release of lysozyme.
Analytica Chimica Acta, 909, 60-66, (2016)
Xing JY et al., Fabrication of a photoelectric-sensitive imprinting polymer by PPy-cross-linked Gel/CS complex and its comprehensive treatment of Cr(VI).
Polymer Bulletin, 77, (2), 869-882, (2020)
Hu JF et al., Chemiresistor sensor based on ion-imprinted polymer (IIP)-functionalized rGO for Cd(II) ions in water.
Sensors and Actuators B: Chemical, 346, Article130474-(2021)
Shen YF
Orozco J et al., Molecularly Imprinted Polymer-Based Catalytic Micromotors for Selective Protein Transport.Journal of the American Chemical Society, 135, (14), 5336-5339, (2013)
Shen YH
Wang LP et al., Molecularly Imprinted Polymers for Selective Extraction of Oblongifolin C from Garcinia yunnanensis Hu.Molecules, 22, (4), ArticleNo508-(2017)
Shen YM
Zhao Y et al., Synthesis and CO2 Adsorption Properties of Molecularly Imprinted Adsorbents.Environmental Science & Technology, 46, (3), 1789-1795, (2012)
Zhao Y et al., Adsorption Separation of Carbon Dioxide from Flue Gas by a Molecularly Imprinted Adsorbent.
Environmental Science & Technology, 48, (3), 1601-1608, (2014)
Shen YY
Shen YY et al., Study on Synthesis and Properties of Cu(II) Ion-Imprinted Polymer by Silica Gels.Journal of Anqing Teachers College (Natural Science Edition), 15, (1), 75-77, (2009)
Wang ZQ et al., Synthesis and Properties Study of Mercury Ion Imprinted Polymer.
Chinese Journal of Analytical Chemistry, 37, (3), 449-453, (2009)
Wang ZQ et al., Ion imprinted sol-gel nanotubes membrane for selective separation of copper ion from aqueous solution.
Microchimica Acta, 169, (1), 195-200, (2010)
Wu GH et al., Synthesis of ion-imprinted mesoporous silica gel sorbent for selective adsorption of copper ions in aqueous media.
Microchimica Acta, 171, (1), 203-209, (2010)
Shen YZ
He J et al., Preparation and evaluation of molecularly imprinted microspheres for solid-phase extraction of 1, 4-hydroxybenzoic acid esters in soy.Journal of Separation Science, 34, (19), 2739-2744, (2011)
He J et al., Preparation and selective recognition of a novel solid-phase microextraction fiber combined with molecularly imprinted polymers for the extraction of parabens in soy sample.
Journal of Separation Science, 35, (2), 308-314, (2012)
Shen YZ et al., Synthesis and optimization of molecularly imprinted microspheres for ethyl paraben.
Chemical Reagents, 34, (6), 501-504, 518, (2012)
Zhang M et al., Application of pseudo-template molecularly imprinted polymers by atom transfer radical polymerization to the solid-phase extraction of pyrethroids.
Talanta, 178, 1011-1016, (2018)
Gao PW et al., High-sensitivity photo-electrochemical heterostructure of the cuprous oxide-metal organic framework for a dioctyl phthalate molecularly imprinted sensor.
Analyst, 146, (20), 6178-6186, (2021)
Shen ZG
Shen ZG et al., Preparation and Application of Lincomycin Hydrochloride Electrode Based on Film of Molecularly Imprinted Polymer.Journal of Analytical Science, 32, (3), 345-348, (2016)
Shen ZL
Shen ZL et al., Study on the Binding Characteristic of Methamidophos-specific Molecularly Imprinted Polymer and the Interactions between Template and Monomers.Journal of the Chinese Chemical Society, 55, (3), 587-593, (2008)
Shen ZL et al., Spectroscopy Study of Binding Mechanisms and Molecular Recognition of Methamidophos-Specific Moleculary Imprinted Polymer.
Spectroscopy and Spectral Analysis, 29, (1), 78-81, (2009)
Shen ZL et al., Selective Solid-Phase Extraction Using Molecularly Imprinted Polymer for Analysis of Methamidophos in Water and Soil Samples.
Bioscience Biotechnology and Biochemistry, 75, (3), 473-479, (2011)
Shen ZM
Ao JJ et al., Applying molecular modelling and experimental studies to develop molecularly imprinted polymer for domoic acid enrichment from both seawater and shellfish.Chemosphere, 199, 98-106, (2018)
Shen ZY
Luo H et al., Recognition of Biomacromolecule by Molecular Imprinting Technique.China Biotechnology, 21, (5), 63-67, (2001)
Sui HY et al., Chiral separation of amino acid derivatives by molecular imprinting technique (II) - Influence of the components of mobile phase on the chiral separation.
Fine Chemicals, 20, (7), 403-406, (2003)
Sui HY et al., Chiral separation of amino acid derivatives by molecular imprinting technique (I) - Preparation of molecularly imprinted polymers, chromatographical evaluation and physical and chemical character formulation.
Fine Chemicals, 20, (6), 345-348+373, (2003)
Sun RF et al., Construction and application of a stoichiometric displacement model for retention in chiral recognition of molecular imprinting.
Journal of Chromatography A, 1055, (1-2), 1-9, (2004)
Sun RF et al., Thermodynamic study on chiral separation process using molecular imprinting.
Acta Chimica Sinica, 63, (3), 189-195, (2005)
Sun RF et al., Preparation of molecularly imprinted polymers and studies on their pore-structure.
Acta Polymerica Sinica, (2), 248-253, (2005)
Sun RF et al., Preparation and specific molecular recognition properties of human hemoglobin imprinted polymers.
The Chinese Journal of Process Engineering, 5, (3), 341-344, (2005)
Li DM et al., Molecular imprinting sensor based on quantum weak measurement.
Biosensors and Bioelectronics, 94, 328-334, (2017)
Shende P
Deshmukh K et al., Biomimetic estimation of glucose using non-molecular and molecular imprinted polymer nanosponges.International Journal of Pharmaceutics, 494, (1), 244-248, (2015)
Sheng CX
Jiang T et al., Preparation of conductive molecularly imprinted membrane chemically modified electrode and electrochemical detection of Ponceau 4R.Acta Materiae Compositae Sinica, 38, (10), 3208-3216, (2021)
Sheng D
Hua Y et al., Hybrid monolith assisted magnetic ion-imprinted polymer extraction coupled with ICP-MS for determination of trace Au(III) in environmental and mineral samples.Microchemical Journal, 158, Article105210-(2020)
Sheng F
Peng DP et al., Enzyme-linked immunoassay based on imprinted microspheres for the detection of sulfamethazine residue.Journal of Chromatography A, 1506, 9-17, (2017)
Sheng J
Qu P et al., Simultaneous multiple enantioseparation with a one-pot imprinted microfluidic channel by microchip capillary electrochromatography.Analyst, 136, (5), 920-926, (2011)
Qu P et al., Convenient enantioseparation by monolithic imprinted capillary clamped in a chip with electrochemical detection.
Electrophoresis, 32, (12), 1522-1529, (2011)
Chen M et al., Preparation of Magnetic Molecularly Imprinted Polymer for Chlorpyrifos Adsorption and Enrichment.
IOP Conference Series: Materials Science and Engineering, 269, (1), ArticleNo012061-(2017)
Sheng JP
Ouyang J et al., Fabrication of Surface Protein-Imprinted Biofuel Cell for Sensitive Self-Powered Glycoprotein Detection.ACS Applied Materials & Interfaces, 8, (51), 35004-35011, (2016)
Sheng L
Sheng L et al., Well-defined magnetic surface imprinted nanoparticles for selective enrichment of 2, 4-dichlorophenoxyacetic acid in real samples.Talanta, 174, 725-732, (2017)
Hou HQ et al., Selective recognition of a cyclic peptide hormone in human plasma by hydrazone bond-oriented surface imprinted nanoparticles.
Analytica Chimica Acta, 1154, Article338301-(2021)
Sheng LM
Gao YF et al., Research Progress of Molecular Imprinting Technique in Food Safety Detection.Biological Disaster Science, 36, (1), 100-104, (2013)
Sheng N
Zhao WH et al., Preparation of dummy template imprinted polymers at surface of silica microparticles for the selective extraction of trace bisphenol A from water samples.Journal of Hazardous Materials, 179, (1-3), 223-229, (2010)
Zhu R et al., Molecularly imprinted layer-coated silica nanoparticles for selective solid-phase extraction of bisphenol A from chemical cleansing and cosmetics samples.
Analytica Chimica Acta, 658, (2), 209-216, (2010)
Sheng N et al., Dummy molecularly imprinted polymers as the coating of stir bar for sorptive extraction of bisphenol A in tap water.
Journal of Separation Science, 35, (5-6), 707-712, (2012)
Sheng P
Xie L et al., Solid-phase extraction using molecularly imprinted polymer for determination of ochratoxin A in human urine.World Mycotoxin Journal, 8, (1), 37-43, (2015)
Sheng SC
Zhang Z et al., MIL-125(Ti)-derived COOH functionalized TiO2 grafted molecularly imprinted polymers for photoelectrochemical sensing of ofloxacin.Sensors and Actuators B: Chemical, 343, Article130119-(2021)
Sheng W
Qiao D et al., In-situ preparation of molecularly imprinted fluorescent sensing test strips for on-site detection of tyramine in vinegar.Microchemical Journal, 160, Article105638-(2021)
Sheng WC
Cao SS et al., Book chapter, The Fabrication and Development of Molecularly Imprinted Polymer-based Sensors for Environmental Application,In: Molecularly Imprinted Sensors, Li SJ, Ge Y, Piletsky SA, Lunec J (Eds.) Elsevier: Amsterdam, Ch. 3, 57-72, (2012)
Sheng X
Han F et al., Determination of Triazines Residues in Food Samples Using Dummy Molecularly Imprinted Solid Phase Extraction Based on Molecular Simulation.Chinese Journal of Analytical Chemistry, 40, (11), 1648-1653, (2012)
Zhang L et al., Selective trace analysis of chloroacetamide herbicides in food samples using dummy molecularly imprinted solid phase extraction based on chemometrics and quantum chemistry.
Analytica Chimica Acta, 729, (1), 36-44, (2012)
Sheng XX
Ma J et al., Study on the preparation of Gatifloxacin imprinted polymers and its binding properties.Chemistry Bulletin, 73, (5), 455-460, (2010)
Sheng YJ
Chen YF et al., Shape Recognition of Nanoparticle-Imprinting Materials Enhanced by Depletants.The Journal of Physical Chemistry C, 120, (35), 19871-19877, (2016)
Sheng YY
Li WQ et al., A highly-sensitive and selective antibody-like sensor based on molecularly imprinted poly(L-arginine) on COOH-MWCNTs for electrochemical recognition and detection of deoxynivalenol.Food Chemistry, 350, Article129229-(2021)
Shepherd RE
Shepherd RE, Chromatographic and related electrophoretic methods in the separation of transition metal complexes or their ligands.Coordination Chemistry Reviews, 247, (1-2), 147-184, (2003)
Sheridan EM
Sheridan EM et al., Enantioselective detection of D- and L-phenylalanine using optically active polyaniline.Electroanalysis, 17, (5-6), 532-537, (2005)
Sherrington D
Berggren C et al., Use of molecularly imprinted solid-phase extraction for the selective clean-up of clenbuterol from calf urine.Journal of Chromatography A, 889, (1-2), 105-110, (2000)
Ellwanger A et al., Application of molecularly imprinted polymers in supercritical fluid chromatography.
Journal of Chromatography A, 897, (1-2), 317-327, (2000)
Ellwanger A et al., Evaluation of methods aimed at complete removal of template from molecularly imprinted polymers.
Analyst, 126, (6), 784-792, (2001)
Sherrington DC
Dunkin IR et al., Molecular imprinting of flat polycondensed aromatic-molecules in macroporous polymers.Polymer, 34, (1), 77-84, (1993)
Steinke J et al., Imprinting of synthetic polymers using molecular templates.
Advances in Polymer Science, 123, 81-125, (1995)
Steinke JHG et al., Molecularly imprinted anisotropic polymer monoliths.
Macromolecules, 29, (1), 407-415, (1996)
Steinke JHG et al., A simple polymerisable carboxylic acid receptor: 2-acrylamido pyridine.
TrAC Trends in Analytical Chemistry, 18, (3), 159-164, (1999)
Masqué N et al., Synthesis and evaluation of a molecularly imprinted polymer for selective on-line solid-phase extraction of 4-nitrophenol from environmental water.
Analytical Chemistry, 72, (17), 4122-4126, (2000)
Lanza F et al., Development of a semiautomated procedure for the synthesis and evaluation of molecularly imprinted polymers applied to the search for functional monomers for phenytoin and nifedipine.
Analytica Chimica Acta, 435, (1), 91-106, (2001)
Caro E et al., Non-covalent and semi-covalent molecularly imprinted polymers for selective on-line solid-phase extraction of 4-nitrophenol from water samples.
Journal of Chromatography A, 963, (1-2), 169-178, (2002)
de Boer T et al., Spherical molecularly imprinted polymer particles: A promising tool for molecular recognition in capillary electrokinetic separations.
Electrophoresis, 23, (9), 1296-1300, (2002)
Caro E et al., On-line solid-phase extraction with molecularly imprinted polymers to selectively extract substituted 4-chlorophenols and 4-nitrophenol from water.
Journal of Chromatography A, 995, (1-2), 233-238, (2003)
Wang JF et al., Monodisperse, molecularly imprinted polymer microspheres prepared by precipitation polymerization for affinity separation applications.
Angewandte Chemie International Edition, 42, (43), 5336-5338, (2003)
Caro E et al., Molecularly imprinted solid-phase extraction of naphthalene sulfonates from water.
Journal of Chromatography A, 1047, (2), 175-180, (2004)
Caro E et al., A new molecularly imprinted polymer for the selective extraction of naproxen from urine samples by solid-phase extraction.
Journal of Chromatography B, 813, (1-2), 137-143, (2004)
Caro E et al., Synthesis and application of an oxytetracycline imprinted polymer for the solid-phase extraction of tetracycline antibiotics.
Analytica Chimica Acta, 552, (1-2), 81-86, (2005)
Caro E et al., Selective enrichment of anti-inflammatory drugs from river water samples by solid-phase extraction with a molecularly imprinted polymer.
Journal of Separation Science, 28, (16), 2080-2085, (2005)
Zurutuza A et al., Molecularly imprinted solid-phase extraction of cocaine metabolites from aqueous samples.
Analytica Chimica Acta, 542, (1), 14-19, (2005)
Caro E et al., Application of molecularly imprinted polymers to solid-phase extraction of compounds from environmental and biological samples.
TrAC Trends in Analytical Chemistry, 25, (2), 143-154, (2006)
Caro E et al., Novel enrofloxacin imprinted polymer applied to the solid-phase extraction of fluorinated quinolones from urine and tissue samples.
Analytica Chimica Acta, 562, (2), 145-151, (2006)
Caro E et al., Direct determination of ciprofloxacin by mass spectrometry after a two-step solid-phase extraction using a molecularly imprinted polymer.
Journal of Separation Science, 29, (9), 1230-1236, (2006)
Beltran A et al., Synthesis and application of a carbamazepine-imprinted polymer for solid-phase extraction from urine and wastewater.
Analytica Chimica Acta, 597, (1), 6-11, (2007)
Oxelbark J et al., Chromatographic comparison of bupivacaine imprinted polymers prepared in crushed monolith, microsphere, silica-based composite and capillary monolith formats.
Journal of Chromatography A, 1160, (1-2), 215-226, (2007)
Wang JF et al., Synthesis and characterization of micrometer-sized molecularly imprinted spherical polymer particulates prepared via precipitation polymerization.
Pure And Applied Chemistry, 79, (9), 1505-1519, (2007)
Beltran A et al., Selective solid-phase extraction of amoxicillin and cephalexin from urine samples using a molecularly imprinted polymer.
Journal of Separation Science, 31, (15), 2868-2874, (2008)
Besenius P et al., Polymer-supported cationic templates for molecular recognition of anionic hosts in water.
Chemical Communications, (24), 2809-2811, (2008)
Sheshala R
Kole PL et al., Recent advances in sample preparation techniques for effective bioanalytical methods.Biomedical Chromatography, 25, (1-2), 199-217, (2011)
Sheth S
Zhou JY et al., Highly selective detection of l-Phenylalanine by molecularly imprinted polymers coated Au nanoparticles via surface-enhanced Raman scattering.Talanta, 211, Article120745-(2020)
Sheu DC
Wang CY et al., Molecularly imprinted polymers for the recognition of sodium dodecyl sulfate denatured creatine kinase.Journal of the Taiwan Institute of Chemical Engineers, 43, (2), 188-194, (2012)
Shevchenko N
Shevchenko N et al., Core-shell polymer particles containing derivatives of 1, 3-diphenyl-[beta]-diketonate boron difluoride: synthesis and spectroscopic investigation of toluene vapor sorption.Colloids and Surfaces A: Physicochemical and Engineering Aspects, 562, 310-320, (2019)
Shevchenko NN
Men’shikova AYu et al., Sorption of vapors of aromatic compounds by cross-linked polymer particles containing luminophores: A spectroscopic study.Russian Journal of Applied Chemistry, 83, (11), 1997-2005, (2010)
Men’shikova AYu et al., Monodisperse polymer particles with molecular imprints of naphthalene in the shell: Synthesis and adsorption properties.
Russian Journal of Applied Chemistry, 84, (9), 1567-1574, (2011)
Moskalenko Y et al., A 1H NMR study of Nile Red solvation (Original Russian Text Š Yu.E. Moskalenko, A.Yu. Men'shikova, N.N. Shevchenko, V.V. Faraonova, A.V. Gribanov, 2011, published in Khimiya Vysokikh Energii, 2011, Vol. 45, No. 3, pp. 214-218.).
High Energy Chemistry, 45, (3), 183-187, (2011)
Men’shikova AYu et al., Crosslinked monodisperse particles containing luminophore groups in shells for molecular recognition of lower alcohols (Original Russian Text Š A.Yu. Men'shikova, N.N. Shevchenko, T.G. Evseeva, A.V. Koshkin, G.A. Pankova, B.M. Shabsel's, V.V. Faraonova, M.Ya. Goikhman, A.V. Yakimanskii, V.A. Sazhnikov, M.V. Alfimov, 2012, published in Russian in Vysokomolekulyarnye Soedineniya, Ser. B, 2012, Vol. 54, No. 1, pp. 93 - 101.).
Polymer Science Series B, 54, (1), 21-29, (2012)
Sheybani S
Sheybani S et al., Mesoporous molecularly imprinted polymer nanoparticles as a sustained release system of azithromycin.RSC Advances, 5, (120), 98880-98891, (2015)
Sheydaei O
Zarezadeh A et al., Application of a nano-structured molecularly imprinted polymer as an efficient modifier for the design of captopril drug selective sensor: Mechanism study and quantitative determination.Materials Science and Engineering: C, 94, 879-885, (2019)
Sheydaei O et al., Rapid and selective diagnose of Sarcosine in urine samples as prostate cancer biomarker by mesoporous imprinted polymeric nanobeads modified electrode.
Sensors and Actuators B: Chemical, 309, Article127559-(2020)
Sheykhaghaei G
Sheykhaghaei G et al., Magnetic molecularly imprinted polymer nanoparticles for selective solid phase extraction and pre-concentration of Tizanidine in human urine.Journal of Chromatography B, 1011, 1-5, (2016)
Sheykhaghaei G et al., Synthesis of molecularly imprinted polymer nanoparticles for selective extraction and pre-concentration of protriptyline by ultrasound-assisted extraction method in human plasma.
Analytical Methods, 8, (11), 2413-2419, (2016)
Sheykhaghaei G et al., Synthesis and characterization of core-shell magnetic molecularly imprinted polymer nanoparticles for selective extraction of tizanidine in human plasma.
Bulletin of Materials Science, 39, (3), 647-653, (2016)
Shi AH
Li H et al., Preparation of homoharringtonine imprinted polymer by precipitation polymerization.Chemical Industry and Engineering Progress, 28, (10), 1787-1791, (2009)
Shi AJ
Chen ZH et al., Enhanced fluorescence detection of enrofloxacin with curved-surface responsive inverse opal polymers and molecular imprinting.Analytical Methods, 11, (8), 1043-1052, (2019)
Shi B
Chen X et al., Chemiluminescence diminishment on a paper-based analytical device: high throughput determination of [beta]-agonists in swine hair.Analytical Methods, 6, (24), 9684-9690, (2014)
Shi C
Shi C et al., Preparation of an Estriol Surface Imprinted Polymer and its Adsorption Ability Evaluation.Journal of Macromolecular Science, Part B, 53, (4), 662-672, (2014)
Shi C et al., Biomimetic Enzyme-linked Immunosorbent Assay Using a Hydrophilic Molecularly Imprinted Membrane for Recognition and Fast Determination of Trichlorfon and Acephate Residues in Vegetables.
Food Analytical Methods, 8, (10), 2496-2503, (2015)
Shi C et al., Synthesis and evaluation of ion-imprinted sol-gel material of selenite.
Analytical Methods, 9, (10), 1658-1664, (2017)
Shi CC
Zhang D et al., Preparation and Evaluation of a Molecularly Imprinted Sol-Gel Hybrid Material for Selective Solid-Phase Extraction of Sarafloxacin in Milk.Asian Journal of Chemistry, 25, (7), 3922-3926, (2013)
Shi CF
Luo QH et al., Surface plasmon resonance sensor for antibiotics detection based on photo-initiated polymerization molecularly imprinted array.Talanta, 161, 797-803, (2016)
Shi CH
Jiang M et al., Selective molecularly imprinted stationary phases for Bisphenol A analysis prepared by modified precipitation polymerization.Journal of Separation Science, 32, (19), 3265-3273A, (2009)
Shi Y et al., Selective determination of trace 17[beta]-estradiol in dairy and meat samples by molecularly imprinted solid-phase extraction and HPLC.
Food Chemistry, 126, (4), 1916-1925, (2011)
Shi CM
Yi N et al., Research Progress of Sensor Based Molecularly imprinted polymers.Development and Application of Materials, (1), 117-124, (2013)
Shi D
Lv B et al., Selective Solid-phase Extraction of Cholesterol from Different Biological Samples Using Different Molecular Imprinted Polymers.Acta Medicinae Universitatis Scientiae et Technologiae Huazhong, 34, (5), 639-641, (2005)
Shi Y et al., Selective solid-phase extraction of cholesterol using molecularly imprinted polymers and its application in different biological samples.
Journal of Pharmaceutical and Biomedical Analysis, 42, (5), 549-555, (2006)
Zhang JH et al., Selective solid-phase extraction of bisphenol A using molecularly imprinted polymers and its application to biological and environmental samples.
Analytical and Bioanalytical Chemistry, 385, (4), 780-786, (2006)
Shi DD
Li HF et al., Enhanced electrochemiluminescence of luminol at the gold nanoparticle/carbon nanotube/electropolymerised molecular imprinting composite membrane interface for selective recognition of triazophos.International Journal of Environmental Analytical Chemistry, 96, (13), 1300-1311, (2016)
Shi DJ
Yang ZK et al., Free-standing molecularly imprinted photonic hydrogels based on [beta]-cyclodextrin for the visual detection of l-tryptophan.Analytical Methods, 7, (19), 8352-8359, (2015)
Yang ZK et al., Preparation and Characterization of L-Tryptophan Molecularly Imprinted Photonic Hydrogels.
Chemical Journal of Chinese Universities, 37, (1), 37-42, (2016)
Shi DY
Zhu GF et al., Using ionic liquid monomer to improve the selective recognition performance of surface imprinted polymer for sulfamonomethoxine in strong polar medium.Journal of Chromatography A, 1592, 38-46, (2019)
Shi F
Shi F et al., Surface Imprinting in Layer-by-Layer Nanostructured Films.Advanced Functional Materials, 17, (11), 1821-1827, (2007)
Niu J et al., Surface-Imprinted Nanostructured Layer-by-Layer Film for Molecular Recognition of Theophylline Derivatives.
Langmuir, 24, (20), 11988-11994, (2008)
Zhou Y et al., A Facile Method to Prepare Molecularly Imprinted Layer-by-Layer Nanostructured Multilayers Using Postinfiltration and a Subsequent Photo-Cross-Linking Strategy.
ACS Applied Materials & Interfaces, 5, (17), 8308-8313, (2013)
Shi FF
Xu LC et al., Composites of Silica and Molecularly Imprinted Polymers for Degradation of Sulfadiazine.Journal of Physical Chemistry C, 116, (48), 25309-25318, (2012)
Shi FQ
Zhang X et al., A new simple extraction method for the extraction of hesperitin from wastewater.New Journal of Chemistry, 40, (9), 7290-7293, (2016)
Shi GY
Qu YH et al., Electrochemical Sensor Prepared from Molecularly Imprinted Polymer for Recognition of 1, 3-Dinitrobenzene (DNB).Chinese Journal of Chemistry, 27, (10), 2043-2048, (2009)
Yang QY et al., Determination of Parathion in Vegetables by Electrochemical Sensor Based on Molecularly Imprinted Polyethyleneimine/Silica Gel Films.
Journal of Agricultural and Food Chemistry, 57, (15), 6558-6563, (2009)
Liang Y et al., Composites of Polyaniline Nanofibers and Molecularly Imprinted Polymers for Recognition of Nitroaromatic Compounds.
Chemistry - A European Journal, 17, (21), 5989-5997, (2011)
Nie DX et al., Two-dimensional molecular imprinting approach for the electrochemical detection of trinitrotoluene.
Sensors and Actuators B: Chemical, 156, (1), 43-49, (2011)
Sun Q et al., Determination of Parathion-methyl in Vegetables by Fluorescent-Labeled Molecular Imprinted Polymer.
Chinese Journal of Chemistry, 29, (10), 2134-2140, (2011)
Tang XS et al., Fe3O4@Au sphere molecular imprinting with self-assembled monolayer for the recognition of parathion-methyl.
Analytical Methods, 3, (10), 2313-2321, (2011)
Yu DJ et al., A novel electrochemical sensor for determination of dopamine based on AuNPs@SiO2 core-shell imprinted composite.
Biosensors and Bioelectronics, 38, (1), 270-277, (2012)
Zhang D et al., A molecularly imprinted polymer based on functionalized multiwalled carbon nanotubes for the electrochemical detection of parathion-methyl.
Analyst, 137, (11), 2629-2636, (2012)
Gu L et al., Double recognition of dopamine based on a boronic acid functionalized poly(aniline-co-anthranilic acid)-molecularly imprinted polymer composite.
Analyst, 138, (18), 5461-5469, (2013)
Kong L et al., Molecularly imprinted sensor based on electropolmerized poly(o-phenylenediamine) membranes at reduced graphene oxide modified electrode for imidacloprid determination.
Sensors and Actuators B: Chemical, 185, 424-431, (2013)
Zeng YB et al., A novel composite of SiO2-coated graphene oxide and molecularly imprinted polymers for electrochemical sensing dopamine.
Biosensors and Bioelectronics, 45, 25-33, (2013)
Wang ZH et al., An ionic liquid-modified graphene based molecular imprinting electrochemical sensor for sensitive detection of bovine hemoglobin.
Biosensors and Bioelectronics, 61, 391-396, (2014)
Zeng YB et al., A novel composite of reduced graphene oxide and molecularly imprinted polymer for electrochemical sensing 4-nitrophenol.
Electrochimica Acta, 130, 504-511, (2014)
Zhou Y et al., A novel composite of graphene quantum dots and molecularly imprinted polymer for fluorescent detection of paranitrophenol.
Biosensors and Bioelectronics, 52, 317-323, (2014)
Nie DX et al., Composites of multiwalled carbon nanotubes/polyethyleneimine (MWCNTs/PEI) and molecularly imprinted polymers for dinitrotoluene recognition.
Sensors and Actuators B: Chemical, 224, 584-591, (2016)
Liang Y et al., A novel molecularly imprinted polymer composite based on polyaniline nanoparticles as sensitive sensors for parathion detection in the field.
Food Control, 133, Article108638-(2022)
Shi H
Li H et al., Preparation and Behavior Test of Chlorogenic Acid Imprinted Polymer Microspheres by Precipitation Polymerization Technique.Journal of Jishou University (Natural Science Edition), 29, (6), 88-91, (2008)
Li H et al., Application of Molecularly Imprinted Column for Separation and Purification of Bioactive Compound from Cirsium segetum Bunge.
Separation Science and Technology, 44, (2), 370-385, (2009)
Li H et al., Preparation of homoharringtonine imprinted polymer by precipitation polymerization.
Chemical Industry and Engineering Progress, 28, (10), 1787-1791, (2009)
Wang HJ et al., Enantioselective determination of S-ornidazole by using carbon paste electrode modified with boron-embedded conductive copolymer-polysiloxane-based molecularly imprinted hybrid film.
Electrochimica Acta, 246, 338-347, (2017)
Lai WQ et al., Optimization of adsorption configuration by DFT calculation for design of adsorbent: A case study of palladium ion-imprinted polymers.
Journal of Hazardous Materials, 379, Article120791-(2019)
Shi H et al., Molecularly imprinted mesoporous silica incorporating C3N4 dots and CdTe quantum dots as ratiometric fluorescent probe for determination of Malachite Green.
Microchimica Acta, 186, (8), Article556-(2019)
Wang L et al., In-site synthesis of an inorganic-framework molecular imprinted TiO2/CdS heterostructure for the photoelectrochemical sensing of bisphenol A.
Analytical Methods, 13, (25), 2857-2864, (2021)
Shi HG
Chi WH et al., 4-Nitrophenol surface molecularly imprinted polymers based on multiwalled carbon nanotubes for the elimination of paraoxon pollution.Journal of Hazardous Materials, 227-228, (1), 243-249, (2012)
Guo Y et al., One-step synthesis of reactant-product-dual-template imprinted capsules as phosphotriesterase mimetic enzymes for pesticide elimination.
RSC Advances, 4, (16), 7881-7884, (2014)
Zhang L et al., Electrospun nanofibers containing p-nitrophenol imprinted nanoparticles for the hydrolysis of paraoxon.
Chinese Journal of Polymer Science, 32, (11), 1469-1478, (2014)
Shi HG et al., Novel imprinted nanocapsule with highly enhanced hydrolytic activity for organophosphorus pesticide degradation and elimination.
European Polymer Journal, 72, 190-201, (2015)
Shi HJ
Shi HJ et al., A novel photoelectrochemical sensor based on molecularly imprinted polymer modified TiO2 nanotubes and its highly selective detection of 2, 4-dichlorophenoxyacetic acid.Electrochemistry Communications, 13, (12), 1404-1407, (2011)
Chen K et al., Fabrication of a Novel and Simple Microcystin-LR Photoelectrochemical Sensor with High Sensitivity and Selectivity.
Environmental Science & Technology, 46, (21), 11955-11961, (2012)
Kang YF et al., Proceeding, Preparation of Cu2+ Imprinted Polymer Microspheres and its Application for the Determination of Cu2+ in Water,
Jiang LZ (Ed.), 7-11, (2013)
Lu BJ et al., A Novel Photoelectrochemical Sensor for Bisphenol A with High Sensitivity and Selectivity Based on Surface Molecularly Imprinted Polypyrrole Modified TiO2 Nanotubes.
Electroanalysis, 25, (3), 771-779, (2013)
Zhang YN et al., Enhanced selective photoelectrochemical oxidation for small organic molecules derived from molecularly imprinted single crystalline ZnO nanorods electrodes.
Electrochemistry Communications, 33, 5-9, (2013)
Chen C et al., Chiral Recognition and Enantioselective Photoelectrochemical Oxidation toward Amino Acids on Single-Crystalline ZnO.
The Journal of Physical Chemistry C, 118, (22), 12041-12049, (2014)
Shi HJ et al., Photoelectrochemical Enantioselective Recognition of Amino Acid Enantiomers on (001) Facet TiO2 Surface.
Electrochimica Acta, 146, 359-364, (2014)
Sun S et al., Magnetic glass carbon electrode, modified with magnetic ferriferrous oxide nanoparticles coated with molecularly imprinted polymer films for electrochemical determination of bovine hemoglobin.
Journal of Electroanalytical Chemistry, 734, 18-24, (2014)
Kang YF et al., Preparation of Hg(2+)-ion-Imprinted polymer by precipitation method and its characteristics.
Chinese Journal of Analysis Laboratory, 34, (9), 1094-1098, (2015)
Shi HJ et al., A highly selective and picomolar level photoelectrochemical sensor for PCB 101 detection in environmental water samples.
Biosensors and Bioelectronics, 81, 503-509, (2016)
Shi HJ et al., Cathodic photoelectrochemical detection of PCB101 in environmental samples with high sensitivity and selectivity.
Journal of Hazardous Materials, 342, 131-138, (2018)
Tang B et al., Preferential electrocatalytic degradation of 2, 4-dichlorophenoxyacetic acid on molecular imprinted mesoporous SnO2 surface.
Chemical Engineering Journal, 334, 882-890, (2018)
Shi HJ et al., Mechanisim investigation on the enhanced and selective photoelectrochemical oxidation of atrazine on molecular imprinted mesoporous TiO2.
Applied Catalysis B: Environmental, 246, 50-60, (2019)
Shi HL
Fan J et al., Study of molecularly imprinted solid-phase extraction of diphenylguanidine and its structural analogs.Analytica Chimica Acta, 639, (1-2), 42-50, (2009)
Shi HL et al., Preparation and Specific Absorption performance of Molecularly Imprinting Polymers for Phenolphthalein.
Chinese Journal of Applied Chemistry, 26, (8), 971-975, (2009)
Su XF et al., Study on the preparation of lead ion imprinted polymer and its specific adsorption performance.
Metallurgical Analysis, 29, (8), 16-20, (2009)
Shi HM
Zhou J et al., Studies on character of adsorption and recognition of etharidine template polymer.Chemical Journal of Chinese Universities, 19, (9), 1388-1392, (1998)
Zhou J et al., A study of binding action and selectivity of trimethoprim molecular template polymer.
Chemical Journal of Chinese Universities, 20, (2), 204-208, (1999)
Zhou J et al., Study on the characteristics of molecular recognition of metal-complexing template polymers.
Journal of Analytical Science, 15, (2), 89-93, (1999)
Zhou J et al., Selective enrichment and direct determination of trace drug by solid-phase extraction.
Chinese Journal of Analytical Chemistry, 27, (1), 5-9, (1999)
Shi HP
Gu Y et al., Electrochemiluminescence sensor based on upconversion nanoparticles and oligoaniline-crosslinked gold nanoparticles imprinting recognition sites for the determination of dopamine.Biosensors and Bioelectronics, 128, 129-136, (2019)
Shi HQ
Ratner BD et al., Recognition templates for biomaterials with engineered bioreactivity.Current Opinion in Solid State & Materials Science, 4, (4), 395-402, (1999)
Shi HQ et al., Template-imprinted nanostructured surfaces for protein recognition.
Nature, 398, (6728), 593-597, (1999)
Shi HQ et al., Template recognition of protein-imprinted polymer surfaces.
Journal of Biomedical Materials Research, 49, (1), 1-11, (2000)
Shi HW
Wang C et al., DNA based signal amplified molecularly imprinted polymer electrochemical sensor for multiplex detection.RSC Advances, 6, (55), 49597-49603, (2016)
Shi HX
Dong CY et al., Molecularly imprinted polymers by the surface imprinting technique.European Polymer Journal, 145, Article110231-(2021)
Shi HY
Wu Y et al., Sensing epinephrine with an ITO electrode modified with an imprinted chitosan film containing multi-walled carbon nanotubes and a polymerized ionic liquid.Microchimica Acta, 180, (13-14), 1325-1332, (2013)
Shi HZ
Zhang Y et al., Facile Way to Prepare a Porous Molecular Imprinting Lock for Specifically Recognizing Oxytetracyclin Based on Coordination.Analytical Chemistry, 93, (10), 4536-4541, (2021)
Shi J
Tang Y et al., Application of chiral selectors in chromatographic analysis.Journal of Analytical Science, 17, (4), 327-333, (2001)
He GY et al., Preparation and application of magnetic molecularly imprinted nanoparticles for the selective extraction of osthole in Libanotis Buchtomensis herbal extract.
Journal of Separation Science, 39, (12), 2313-2320, (2016)
Huang GL et al., Removal of thorium(IV) from aqueous solution using magnetic ion-imprinted chitosan resin.
Journal of Radioanalytical and Nuclear Chemistry, 310, (3), 1265-1272, (2016)
Shi JF
Huang QZ et al., Imprinted MoS2 achieve highly efficient self-separative molecule extraction.Journal of Materials Chemistry A, 6, (17), 7395-7400, (2018)
Shi JJ
Chen SN et al., High-performance detection of p-nitroaniline on defect-graphene SERS substrate utilizing molecular imprinting technique.Microchemical Journal, 168, Article106536-(2021)
Shi JL
Xia ZS et al., Special influence of molecular imprinting technology on traditional Chinese medicine theories.China Journal of Chinese Materia Medica, 38, (8), 1266-1270, (2013)
He FY et al., Exploration of research approaches of Chinese medicine's pharmacology based on "imprinting templates" (medical element) of supramolecules.
China Journal of Chinese Materia Medica, 40, (21), 4313-4318, (2015)
He FY et al., Dispute for Japanese (wild) honeysuckle flower based on supermolecular imprinting templates.
China Journal of Chinese Materia Medica, 41, (6), 1152-1160, (2016)
Yang YT et al., Chinese medicine preparation supramolecular imprinting templates based on in vitro release characteristics of BYHW sustained-release tablet.
China Journal of Chinese Materia Medica, 41, (6), 1040-1045, (2016)
Zhang ZL et al., Large-pore, silica particles with antibody-like, biorecognition sites for efficient protein separation.
Journal of Materials Chemistry B, 5, (22), 4214-4220, (2017)
Zhang ZL et al., Highly efficient and selective removal of trace lead from aqueous solutions by hollow mesoporous silica loaded with molecularly imprinted polymers.
Journal of Hazardous Materials, 328, 160-169, (2017)
Zhang ZL et al., Magnetic, core-shell structured and surface molecularly imprinted polymers for the rapid and selective recognition of salicylic acid from aqueous solutions.
Applied Surface Science, 435, 178-186, (2018)
Zheng YL et al., Determination of sulfonylurea herbicide residues in tobacco leaves by molecularly imprinted-solid phase extraction-high performance liquid chromatography.
Chinese Journal of Chromatography, 36, (7), 659-664, (2018)
Zhang MX et al., Comparative analysis of atrazine molecularly imprinted polymers using acetonitrile and toluene as solvents.
Journal of Applied Polymer Science, 136, (11), Article47190-(2019)
Tong ZH et al., Preparation and application of simetryn-imprinted nanoparticles in triazine herbicide residue analysis.
Journal of Separation Science, 43, (6), 1107-1118, (2020)
Shi JR
Liu Y et al., Recent developments in the detection of melamine.Journal of Zhejiang University - Science B, 13, (7), 525-532, (2012)
Li GY et al., Rational design, preparation and adsorption study of a magnetic molecularly imprinted polymer using a dummy template and a bifunctional monomer.
New Journal of Chemistry, 41, (15), 7092-7101, (2017)
Niu MC et al., A simple extraction method for norfloxacin from pharmaceutical wastewater with a magnetic core-shell molecularly imprinted polymer with the aid of computer simulation.
New Journal of Chemistry, 41, (7), 2614-2624, (2017)
Du QZ et al., Novel molecularly imprinted polymers on metal-organic frameworks as sensors for the highly selective detection of zearalenone in wheat.
New Journal of Chemistry, 43, (18), 7044-7050, (2019)
Shi JR et al., Surface-imprinted [beta]-cyclodextrin-functionalized carbon nitride nanosheets for fluorometric determination of sterigmatocystin.
Microchimica Acta, 186, (12), Article808-(2019)
Wang RY et al., Selective recognition and enrichment of sterigmatocystin in wheat by thermo-responsive imprinted polymer based on magnetic halloysite nanotubes.
Journal of Chromatography A, 1619, Article460952-(2020)
Shi JR et al., Correction to: Surface-imprinted [beta]-cyclodextrin-functionalized carbon nitride nanosheets for fluorometric determination of sterigmatocystin.
Microchimica Acta, 188, (10), Article332-(2021)
Shi JS
Zhang QZ et al., Molecular Imprinting Polymer.Materials Review, 17, (z1), 194-196, (2003)
Shi JY
Liu EL et al., Preparation of an ion imprinted chitosan-based porous film with an interpenetrating network structure for efficient selective adsorption of Gd(III).New Journal of Chemistry, 45, (2), 725-734, (2021)
Shi KX
Peng J et al., Molecularly imprinted polymeric stir bar: Preparation and application for the determination of naftopidil in plasma and urine samples.Journal of Separation Science, 39, (2), 383-390, (2016)
Shi L
Hao Y et al., Water-compatible magnetic imprinted nanoparticles served as solid-phase extraction sorbents for selective determination of trace 17[beta]-estradiol in environmental water samples by liquid chromatography.Journal of Chromatography A, 1396, 7-16, (2015)
Peng W et al., Amino-functionalized adsorbent prepared by means of Cu(II) imprinted method and its selective removal of copper from aqueous solutions.
Journal of Hazardous Materials, 294, 9-16, (2015)
Shi L et al., Electrochemical sensor prepared from molecularly imprinted polymer for recognition of TNT.
Polymer Composites, 36, (7), 1280-1285, (2015)
Zuo HG et al., Preparation of malathion MIP-SPE and its application in environmental analysis.
Environmental Monitoring and Assessment, 187, (7), ArticleNo394-(2015)
Shi L et al., Selective adsorption of protein by a high-efficiency Cu2+-cooperated magnetic imprinted nanomaterial.
Journal of Separation Science, 39, (14), 2876-2883, (2016)
Wang PL et al., An aptamer based assay for the [beta]-adrenergic agonist ractopamine based on aggregation of gold nanoparticles in combination with a molecularly imprinted polymer.
Microchimica Acta, 183, (11), 2899-2905, (2016)
Zhang CY et al., Molecularly Imprinting Polymer Electrochemical Sensor Based on Structure of Metal Organic Frameworks for Determination of Phenylethanolamine A in Swine Urine.
Chinese Journal of Analytical Chemistry, 44, (12), 1859-1866, (2016)
Zuo HG et al., Synthesis of Molecularly Imprinted Polymer on Surface of TiO2 Nanowires and Assessment of Malathion and its Metabolite in Environmental Water.
Journal of Analytical Chemistry, 74, (10), 1039-1055, (2019)
Shi L et al., One-step Synthesis of Ultrasmall Platinum Nanoparticles Supported on Amino-Functionalized Graphene to Create an Electrochemical Molecularly Imprinted Polymer Sensor for Fluxapyroxad.
International Journal of Electrochemical Science, 16, Article210767-(2021)
Shi LC
Fang L et al., Molecularly imprinted polymer-based optical sensors for pesticides in foods: Recent advances and future trends.Trends In Food Science & Technology, 116, 387-404, (2021)
Shi LL
Guo ZY et al., A highly sensitive electrochemiluminescence method combined with molecularly imprinted solid phase extraction for the determination of phenolphthalein in drug, slimming food and human plasma.Food Chemistry, 132, (2), 1092-1097, (2012)
Song XL et al., Preparation of analog-molecularly imprinted microspheres and their adsorbent performance for microcystin in aqueous solution.
Environmental Chemistry, 35, (3), 451-459, (2016)
Shi LQ
Guo MJ et al., Protein-imprinted polymer with immobilized assistant recognition polymer chains.Biomaterials, 27, (24), 4381-4387, (2006)
Zhao Z et al., Molecular imprinted polymer with cloned bacterial protein template enriches authentic target in cell extract.
FEBS Letters, 580, (11), 2750-2754, (2006)
Shi LY
Ding P et al., Research and Application Progress of Molecular Imprinting Technology in Sensors.Chemical World, 52, (3), 178-183, 189, 168, (2011)
Jia XJ et al., Rational design of core-shell molecularly imprinted polymer based on computational simulation and Doehlert experimental optimization: application to the separation of tanshinone IIA from <i>Salvia miltiorrhiza</i> Bunge.
Analytical and Bioanalytical Chemistry, 403, (9), 2691-2703, (2012)
Ding P et al., Preparation of self-supporting molecularly imprinted films via transition layer construction and RAFT polymerization, and their use in HPLC.
Microchimica Acta, 180, (7-8), 599-605, (2013)
Gu XL et al., Preparation and evaluation of novel mesoporous molecular sieve of baicalin surface molecularly imprinted polymers.
China Journal of Chinese Materia Medica, 40, (9), 1718-1722, (2015)
He HL et al., A Novel Molecularly Imprinted Polymer for the Solid-Phase Extraction of Tanshinones from Serum.
Analytical Letters, 48, (1), 47-60, (2015)
He HL et al., Molecularly imprinted polymers based on SBA-15 for selective solid-phase extraction of baicalein from plasma samples.
Analytical and Bioanalytical Chemistry, 407, (2), 509-519, (2015)
Shi M
Chen SX et al., MXene/carbon nanohorns decorated with conductive molecularly imprinted poly(hydroxymethyl-3, 4-ethylenedioxythiophene) for voltammetric detection of adrenaline.Microchimica Acta, 188, (12), Article420-(2021)
Shi ML
Zhang HW et al., Determination of Trimethoprim with Molecularly Imprinted Monolithic Column by Employing an Analogue Template.Journal of Instrumental Analysis, 30, (11), 1283-1289, (2011)
Xu XM et al., Carbon dots coated with molecularly imprinted polymers: A facile bioprobe for fluorescent determination of caffeic acid.
Journal of Colloid and Interface Science, 529, 568-574, (2018)
Shi MQ
Liu GY et al., Preparation of a magnetic molecularly imprinted polymer using g-C3N4-Fe3O4 for atrazine adsorption.Materials Letters, 160, 472-475, (2015)
Shi N
Shi N et al., Preparation of BSA Molecule Surface-imprinted Material and Study on its Macromolecule Recognition Character.Acta Polymerica Sinica, (12), 1678-1686, (2014)
Hao J et al., Determination of Eleven [beta]-Blocker Residues in Animal Derived Foods by Ultra High Performance Liquid Chromatography-Tandem Mass Spectrometry with Molecularly Imprinted Solid Phase Extraction.
Journal of Instrumental Analysis, 35, (10), 1278-1282, (2016)
Shi P
Lu S et al., Sorption Properties of Ion-imprinted Seaweed-Chitosan Composite Adsorbents for Nickel Ions.IOP Conference Series: Earth and Environmental Science, 295, (3), Article032070-(2019)
Shi Q
Tang XS et al., Preparation and evaluation of polydopamine imprinting layer coated multi-walled carbon nanotubes for the determination of testosterone in prostate cancer LNcap cells.Analytical Methods, 7, (19), 8326-8334, (2015)
Shi QY
Zhao DY et al., A Novel Sorbent for Solid-Phase Extraction Coupling to High Performance Liquid Chromatography for the Determination of Olaquindox in Fish Feed.Czech Journal of Food Science, 32, (5), 449-455, (2014)
Luo X et al., Electrochemical sensor based on lead ion-imprinted polymer particles for ultra-trace determination of lead ions in different real samples.
RSC Advances, 7, (26), 16033-16040, (2017)
Shi R
Zheng XM et al., Preparation of hollow porous molecularly imprinted polymers for N-nitrosamine adsorption.Materials Letters, 211, 21-23, (2018)
Shi RH
Shi W et al., Improvement of Adsorption Selectivity of Ion-Exchange Chromatography through the Double-Recognition Mode.Journal of Chemical & Engineering Data, 64, (12), 5385-5397, (2019)
Shi RX
Shi RX et al., Screening of Molecularly Imprinted Polymer Sensitive Materials with Combinatorial Chemistry.Chemical Sensors (China), 21, (2), 39-43, (2001)
Shi RX et al., Research on Selective Mechanism of Molecularly Imprinted polymer.
Chemical Sensors (China), 22, (3), 49-57, (2002)
Shi RX et al., The development of research in molecular imprinting technique.
Progress In Chemistry, 14, (3), 182-191, (2002)
Shi RX et al., The Way of Screening of Molecularly Imprinted Polymer Based on Semi - Trace in situ Polymerization.
Chemical Sensors (China), 22, (4), 45-52, (2002)
Shi RX et al., The preparation of molecularly imprinted polymer membrane by electrochemical method.
Polymer Materials Science and Engineering, 19, (6), 213-215, (2003)
Shi SQ
Wu SR et al., The ion-imprinted oyster shell material for targeted removal of Cd(II) from aqueous solution.Journal of Environmental Management, 302, Article114031-(2022)
Shi SY
Shi SY et al., Selective and simultaneous extraction and determination of hydroxybenzoic acids in aqueous solution by magnetic molecularly imprinted polymers.Chemical Engineering Journal, 243, 485-493, (2014)
Xie LW et al., Efficient Determination of Protocatechuic Acid in Fruit Juices by Selective and Rapid Magnetic Molecular Imprinted Solid Phase Extraction Coupled with HPLC.
Journal of Agricultural and Food Chemistry, 62, (32), 8221-8228, (2014)
You QP et al., Preparation of magnetic dummy molecularly imprinted polymers for selective extraction and analysis of salicylic acid in Actinidia chinensis.
Analytical and Bioanalytical Chemistry, 406, (3), 831-839, (2014)
You QP et al., High-capacity thermo-responsive magnetic molecularly imprinted polymers for selective extraction of curcuminoids.
Journal of Chromatography A, 1354, 1-8, (2014)
Hu X et al., Hydrophilic gallic acid-imprinted polymers over magnetic mesoporous silica microspheres with excellent molecular recognition ability in aqueous fruit juices.
Food Chemistry, 179, 206-212, (2015)
Li H et al., High-capacity magnetic hollow porous molecularly imprinted polymers for specific extraction of protocatechuic acid.
Journal of Chromatography A, 1404, 21-27, (2015)
Xie LW et al., Novel molecular imprinted polymers over magnetic mesoporous silica microspheres for selective and efficient determination of protocatechuic acid in Syzygium aromaticum.
Food Chemistry, 178, 18-25, (2015)
Fan DX et al., Hollow molecular imprinted polymers towards rapid, effective and selective extraction of caffeic acid from fruits.
Journal of Chromatography A, 1470, 27-32, (2016)
Peng MJ et al., Boronate affinity-based surface molecularly imprinted polymers using glucose as fragment template for excellent recognition of glucosides.
Journal of Chromatography A, 1474, 8-13, (2016)
Fan DX et al., Synthesis and characterization of hollow porous molecular imprinted polymers for the selective extraction and determination of caffeic acid in fruit samples.
Food Chemistry, 224, 32-36, (2017)
Shi SY et al., Effective synthesis of magnetic porous molecularly imprinted polymers for efficient and selective extraction of cinnamic acid from apple juices.
Food Chemistry, 237, 198-204, (2017)
Xiang HY et al., Hollow porous molecularly imprinted polymers for rapid and selective extraction of cinnamic acid from juices.
Journal of Chromatography B, 1049-1050, 1-7, (2017)
Xiang HY et al., High-capacity hollow porous dummy molecular imprinted polymers using ionic liquid as functional monomer for selective recognition of salicylic acid.
Journal of Pharmaceutical and Biomedical Analysis, 133, 75-81, (2017)
Peng MJ et al., Magnetic Porous Molecularly Imprinted Polymers Based on Surface Precipitation Polymerization and Mesoporous SiO2 Layer as Sacrificial Support for Efficient and Selective Extraction and Determination of Chlorogenic Acid in Duzhong Brick Tea.
Molecules, 23, (7), ArticleNo1554-(2018)
Tang JW et al., Determination of [beta]-Agonist Residues in Animal-Derived Food by a Liquid Chromatography-Tandem Mass Spectrometric Method Combined with Molecularly Imprinted Stir Bar Sorptive Extraction.
Journal of Analytical Methods in Chemistry, 2018, ArticleID9053561-(2018)
Wang B et al., Magnetic surface molecularly imprinted polymeric microspheres using gallic acid as a segment template for excellent recognition of ester catechins.
Analytical Methods, 10, (27), 3317-3324, (2018)
Li H et al., Shell thickness controlled hydrophilic magnetic molecularly imprinted resins for high-efficient extraction of benzoic acids in aqueous samples.
Talanta, 194, 969-976, (2019)
Long RQ et al., Molecularly imprinted polymers coated CdTe quantum dots with controllable particle size for fluorescent determination of p-coumaric acid.
Talanta, 196, 579-584, (2019)
Peng S et al., Preparation of hydrophilic, magnetic molecularly imprinted resins of chlorogenic acid and evaluation of its solid-phase extraction performance.
Chinese Journal of Chromatography, 37, (3), 293-298, (2019)
Wang ZH et al., Molecularly Imprinted Polymers-Coated CdTe Quantum Dots for Highly Sensitive and Selective Fluorescent Determination of Ferulic Acid.
Journal of Analytical Methods in Chemistry, 2019, Article1505878-(2019)
Shi T
Peng J et al., Molecularly imprinted polymeric stir bar: Preparation and application for the determination of naftopidil in plasma and urine samples.Journal of Separation Science, 39, (2), 383-390, (2016)
Peng J et al., Molecularly imprinted polymers based stir bar sorptive extraction for determination of cefaclor and cefalexin in environmental water.
Analytical and Bioanalytical Chemistry, 409, (17), 4157-4166, (2017)
Shi T et al., Application of molecular imprinting polymer anchored on CdTe quantum dots for the detection of sulfadiazine in seawater.
Marine Pollution Bulletin, 146, 591-597, (2019)
Shi T et al., CdTe quantum dots coated with a molecularly imprinted polymer for fluorometric determination of norfloxacin in seawater.
Microchimica Acta, 186, (6), Article362-(2019)
Shi T et al., Application of up-conversion molecularly imprinted nanoprobe for selective recognition and straightforward detection of 4-aminobiphenyl.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 265, Article120405-(2022)
Shi TT
Jia M et al., Competitive plasmonic biomimetic enzyme-linked immunosorbent assay for sensitive detection of bisphenol A.Food Chemistry, 344, Article128602-(2021)
Shi W
Chi WH et al., 4-Nitrophenol surface molecularly imprinted polymers based on multiwalled carbon nanotubes for the elimination of paraoxon pollution.Journal of Hazardous Materials, 227-228, (1), 243-249, (2012)
Shi W et al., Proceeding, Preparation and Characterization of Bisphenol A Molecularly Imprinted Silica Nanospheres,
Wang YD (Ed.), 703-706, (2012)
Shi W et al., Molecularly imprinted silica nanospheres for solid-phase extraction of bisphenol A in canned food.
Chinese Journal of Analysis Laboratory, 31, (6), 78-80, (2012)
Shi W et al., Integration of mixed-mode chromatography and molecular imprinting technology for double recognition and selective separation of proteins.
Separation and Purification Technology, 202, 165-173, (2018)
Shi W et al., Improvement of Adsorption Selectivity of Ion-Exchange Chromatography through the Double-Recognition Mode.
Journal of Chemical & Engineering Data, 64, (12), 5385-5397, (2019)
Shi W et al., Adsorption-selectivity customization and competitive adsorption of tryptamine-based mixed-mode chromatography.
Biochemical Engineering Journal, 150, Article107267-(2019)
Shi WB
Wang DS et al., Designing a Photoresponsive Molecularly Imprinted System on a Silicon Wafer Substrate Surface.Langmuir, 29, (26), 8311-8319, (2013)
Shi WD
Lu ZY et al., Preparation and performance of a novel magnetic conductive imprinted photocatalyst for selective photodegradation of antibiotic solution.RSC Advances, 3, (40), 18373-18382, (2013)
Pan JM et al., Fabrication and Evaluation of Magnetic/Hollow Double-Shelled Imprinted Sorbents Formed by Pickering Emulsion Polymerization.
Langmuir, 29, (25), 8170-8178, (2013)
Pan JM et al., Study on the nonylphenol removal from aqueous solution using magnetic molecularly imprinted polymers based on fly-ash-cenospheres.
Chemical Engineering Journal, 223, 824-832, (2013)
Liu XL et al., Selective degradation of ciprofloxacin with modified NaCl/TiO2 photocatalyst by surface molecular imprinted technology.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 441, 420-426, (2014)
Lu ZY et al., Microwave synthesis of a novel magnetic imprinted TiO2 photocatalyst with excellent transparency for selective photodegradation of enrofloxacin hydrochloride residues solution.
Chemical Engineering Journal, 249, 15-26, (2014)
Wu YL et al., Fabrication and evaluation of molecularly imprinted regenerated cellulose composite membranes via atom transfer radical polymerization.
Chinese Chemical Letters, 25, (2), 273-278, (2014)
Lu ZY et al., Selective photodegradation of 2-mercaptobenzothiazole by a novel imprinted CoFe2O4/MWCNTs photocatalyst.
RSC Advances, 5, (59), 47820-47829, (2015)
Pan JM et al., Fabrication and evaluation of molecularly imprinted multi-hollow microspheres adsorbents with tunable inner pore structures derived from templating Pickering double emulsions.
Chemical Engineering Journal, 266, 299-308, (2015)
Zheng XD et al., Silica nanoparticles doped with a europium(III) complex and coated with an ion imprinted polymer for rapid determination of copper(II).
Microchimica Acta, 182, (3-4), 753-761, (2015)
Zhu Z et al., Surface imprinting of a g-C3N4 photocatalyst for enhanced photocatalytic activity and selectivity towards photodegradation of 2-mercaptobenzothiazole.
RSC Advances, 5, (51), 40726-40736, (2015)
Lu ZY et al., Specific oriented recognition of a new stable ICTX@Mfa with retrievability for selective photocatalytic degrading of ciprofloxacin.
Catalysis Science & Technology, 6, (5), 1367-1377, (2016)
Lu ZY et al., A novel hollow capsule-like recyclable functional ZnO/C/Fe3O4 endowed with three-dimensional oriented recognition ability for selectively photodegrading danofloxacin mesylate.
Catalysis Science & Technology, 6, (17), 6513-6524, (2016)
Zheng XD et al., A lanthanide complex-based molecularly imprinted luminescence probe for rapid and selective determination of [lambda]-cyhalothrin in the environment.
New Journal of Chemistry, 40, (7), 6141-6147, (2016)
Wang JX et al., Molecularly Imprinted Fluorescent Test Strip for Direct, Rapid, and Visual Dopamine Detection in Tiny Amount of Biofluid.
Small, 15, (1), Article1803913-(2019)
Shi WH
Chen QS et al., Molecularly imprinted photonic hydrogel sensor for optical detection of L-histidine.Microchimica Acta, 185, (12), ArticleNo557-(2018)
Shi WP
Liu WF et al., Molecularly imprinted polymers on the surface of porous carbon microspheres for capturing dibenzothiophene.Microchimica Acta, 183, (3), 1153-1160, (2016)
Qin L et al., Surface molecularly imprinted polymers grafted on ordered mesoporous carbon nanospheres for fuel desulfurization.
RSC Advances, 6, (15), 12504-12513, (2016)
Shi WY
Shi WY et al., Proceeding, Research on Purifying Hypocrellin by Molecularly Imprinted Solid Phase Extraction (MISPE),Choi SB, Kim YH (Eds.), 621-624, (2015)
Shi XB
Liu X et al., Electrochemical Sensor based on Imprinted Sol-Gel Polymer on Au NPs-MWCNTs-CS Modified Electrode for the Determination of Acrylamide.Food Analytical Methods, 9, (1), 114-121, (2016)
Shi XH
Wang RX et al., Novel Silica Sorbents Surface-Functionalized with a Salicylhydroxamic Acid-Based Ion-Imprinting Polymer for the Selective Removal of Pb(II) from Aqueous Solution.Journal of Chemical & Engineering Data, 60, (5), 1454-1463, (2015)
Shi XH et al., A novel Molecularly Imprinted Sensor based on Gold Nanoparticles/Reduced Graphene Oxide/Single-Walled Carbon Nanotubes Nanocomposite for the Detection of pefloxacin.
International Journal of Electrochemical Science, 15, 9683-9697, (2020)
Tu XZ et al., Molecularly imprinted dispersive solid-phase microextraction sorbents for direct and selective drug capture from the undiluted bovine serum.
Talanta, 226, Article122142-(2021)
Shi XJ
Cheng W et al., Preparing Surface Molecularly imprinted Material of Pirimicarb Based on Surface-initiated Graft-polymerization and Studies on its Molecular Recognition Character.Acta Polymerica Sinica, (7), 934-942, (2013)
Shi XJ et al., Preparation of Molecularly Surface-Imprinted Material of Caffeine Substitution (Theophylline) and its Molecule Recognition Character.
Acta Polymerica Sinica, (8), 1047-1057, (2013)
Tang QH et al., Development of molecularly imprinted electrochemical sensors based on Fe3O4@MWNT-COOH/CS nanocomposite layers for detecting traces of acephate and trichlorfon.
Analyst, 139, (24), 6406-6413, (2014)
Shi XJ et al., A Biomimetic Sensor with Signal Enhancement of Ferriferrous Oxide-Reduced Graphene Oxide Nanocomposites for Ultratrace Levels Quantification of Methamidophos or Omethoate in Vegetables.
Food Analytical Methods, 10, (4), 910-920, (2017)
Shi XM
She YX et al., Class-specific molecularly imprinted polymers for the selective extraction and determination of sulfonylurea herbicides in maize samples by high-performance liquid chromatography-tandem mass spectrometry.Journal of Chromatography B, 878, (23), 2047-2053, (2010)
She YX et al., Spectroscopy study of binding mechanisms and molecular recognition of class-specific molecularly imprinted polymer beads.
Spectroscopy and Spectral Analysis, 30, (11), 3052-3055, (2010)
Wang M et al., Determination of Melamine Using Magnetic Molecular Imprinted Polymers and High Performance Liquid Chromatography.
Analytical Letters, 46, (1), 120-130, (2013)
Zhang C et al., Development of a biomimetic enzyme-linked immunosorbent assay based on molecularly imprinted polymers on paper for the detection of carbaryl.
Food Chemistry, 240, 893-897, (2018)
Zhang C et al., Preparation of dummy molecularly imprinted polymers based on dextran-modified magnetic nanoparticles Fe3O4 for the selective detection of acrylamide in potato chips.
Food Chemistry, 317, Article126431-(2020)
Shi XN
Guo XX et al., Multi-functional magnetic molecular imprinting probe for visual detection of IgY antibodies.Microchimica Acta, 188, (11), Article378-(2021)
Shi XT
Su K et al., Selectively encapsulating Ag nanoparticles on the surface of two-dimensional graphene for surface-enhanced Raman scattering.Applied Surface Science, 492, 108-115, (2019)
Shi XW
Feng T et al., Removal of copper(II) from an aqueous solution with copper(II)-imprinted chitosan microspheres.Journal of Applied Polymer Science, 128, (6), 3631-3638, (2013)
Shi XX
Shi XX et al., CEC separation of ofloxacin enantiomers using imprinted microparticles prepared in molecular crowding conditions.Electrophoresis, 32, (11), 1348-1356, (2011)
Shi XZ
Shi XZ et al., Corrigendum to "Development and characterisation of molecularly imprinted polymers based on methacrylic acid for selective recognition of drugs": [Biomaterials 28 (2007) 3741-3749].Biomaterials, 28, (29), 4330-4330, (2007)
Shi XZ et al., Development and characterisation of molecularly imprinted polymers based on methacrylic acid for selective recognition of drugs.
Biomaterials, 28, (25), 3741-3749, (2007)
Shi XZ et al., Molecularly imprinted polymer microspheres for solid-phase extraction of chloramphenicol residues in foods.
Journal of Chromatography B, 850, (1-2), 24-30, (2007)
Qu GR et al., Improvement on Analyte Extraction by Molecularly Imprinted Polymer Microspheres toward Enrofloxacin.
Analytical Letters, 41, (8), 1443-1458, (2008)
Song SQ et al., Extraction of chlorpromazine with a new molecularly imprinted polymer from pig urine.
Process Biochemistry, 43, (11), 1209-1214, (2008)
Song SQ et al., Development and application of molecularly imprinted polymers as solid-phase sorbents for erythromycin extraction.
Analytical and Bioanalytical Chemistry, 390, (8), 2141-2150, (2008)
Shi XZ et al., Determination of Chloramphenicol Residues in Foods by ELISA and LC-MS/MS Coupled with Molecularly Imprinted Solid Phase Extraction.
Analytical Letters, 43, (17), 2798-2807, (2010)
Shi XZ et al., Water Compatible Molecularly Imprinted Polymer Microspheres for Extraction of Ampicillin in Foods.
Analytical Letters, 43, (5), 757-767, (2010)
Shi XZ et al., Preparation and Chromatographic Evaluation of Molecularly Imprinted Polymer Microspheres for Chloramphenicol.
Food Science, 31, (18), 95-98, (2010)
Shi XZ et al., Group-selective molecularly imprinted polymer solid-phase extraction for the simultaneous determination of six sulfonamides in aquaculture products.
Journal of Chromatography B, 879, (15-16), 1071-1076, (2011)
Shi XZ et al., Group-selective enrichment and determination of pyrethroid insecticides in aquaculture seawater via molecularly imprinted solid phase extraction coupled with gas chromatography-electron capture detection.
Journal of Chromatography A, 1227, (1), 60-66, (2012)
Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
Zhang RR et al., Highly Permselective Membrane Surface Modification by Cold Plasma-Induced Grafting Polymerization of Molecularly Imprinted Polymer for Recognition of Pyrethroid Insecticides in Fish.
Analytical Chemistry, 86, (23), 11705-11713, (2014)
Xiao TT et al., Selective and sensitive determination of cypermethrin in fish via enzyme-linked immunosorbent assay-like method based on molecularly imprinted artificial antibody-quantum dot optosensing materials.
Biosensors and Bioelectronics, 75, 34-40, (2016)
Ding H et al., Molecularly imprinted optosensing sensor for highly selective and sensitive recognition of sulfadiazine in seawater and shrimp samples.
Sensors and Actuators B: Chemical, 246, 510-517, (2017)
Li XJ et al., Development and application of a novel fluorescent nanosensor based on FeSe quantum dots embedded silica molecularly imprinted polymer for the rapid optosensing of cyfluthrin.
Biosensors and Bioelectronics, 99, 268-273, (2018)
Sun AL et al., Development of a selective fluorescence nanosensor based on molecularly imprinted-quantum dot optosensing materials for saxitoxin detection in shellfish samples.
Sensors and Actuators B: Chemical, 258, 408-414, (2018)
Wang XJ et al., Characterization and application of molecularly imprinted polymer-coated quantum dots for sensitive fluorescent determination of diethylstilbestrol in water samples.
Talanta, 197, 98-104, (2019)
Yu XR et al., Development and Application of the Dispersive Solid-Phase Extraction Method Based on Molecular Imprinted Polymers for Removal of Matrix Components of Bivalve Shellfish Extracts in the GC-MS/MS Analysis of Amide/Dinitroaniline/Substituted Urea Herbicides.
Chromatographia, 82, (6), 961-970, (2019)
Li W et al., Effective removal matrix interferences by a modified QuEChERS based on the molecularly imprinted polymers for determination of 84 polychlorinated biphenyls and organochlorine pesticides in shellfish samples.
Journal of Hazardous Materials, 384, Article121241-(2020)
Zhang RR et al., Application of a novel electrochemiluminescence sensor based on magnetic glassy carbon electrode modified with molecularly imprinted polymers for sensitive monitoring of bisphenol A in seawater and fish samples.
Sensors and Actuators B: Chemical, 317, Article128237-(2020)
Li T et al., Advances in application of molecularly imprinted polymers to the detection of polar pesticide residues.
Chinese Journal of Chromatography, 39, (9), 930-940, (2021)
Zhang RR et al., Ultrasensitive electrochemiluminescence sensor based on perovskite quantum dots coated with molecularly imprinted polymer for prometryn determination.
Food Chemistry, 370, Article131353-(2022)
Shi Y
Lv B et al., Selective Solid-phase Extraction of Cholesterol from Different Biological Samples Using Different Molecular Imprinted Polymers.Acta Medicinae Universitatis Scientiae et Technologiae Huazhong, 34, (5), 639-641, (2005)
Jiang M et al., Direct enrichment and high performance liquid chromatography analysis of ultra-trace Bisphenol A in water samples with narrowly dispersible Bisphenol A imprinted polymeric microspheres column.
Journal of Chromatography A, 1110, (1-2), 27-34, (2006)
Shi Y et al., Selective solid-phase extraction of cholesterol using molecularly imprinted polymers and its application in different biological samples.
Journal of Pharmaceutical and Biomedical Analysis, 42, (5), 549-555, (2006)
Zhang JH et al., Selective solid-phase extraction of bisphenol A using molecularly imprinted polymers and its application to biological and environmental samples.
Analytical and Bioanalytical Chemistry, 385, (4), 780-786, (2006)
Hu ML et al., Selective solid-phase extraction of tebuconazole in biological and environmental samples using molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 387, (3), 1007-1016, (2007)
Huo SX et al., Synthesis and Characterization of p-Hydroxyacetophenone Molecularly Imprinted Polymer.
Journal of Instrumental Analysis, 27, (8), 866-869, (2008)
Jin Y et al., Narrowly dispersed molecularly imprinted microspheres prepared by a modified precipitation polymerization method.
Analytica Chimica Acta, 612, (1), 105-113, (2008)
Lin Y et al., Removal of phenolic estrogen pollutants from different sources of water using molecularly imprinted polymeric microspheres.
Environmental Pollution, 153, (2), 483-491, (2008)
Jiang M et al., Selective molecularly imprinted stationary phases for Bisphenol A analysis prepared by modified precipitation polymerization.
Journal of Separation Science, 32, (19), 3265-3273A, (2009)
Kryscio DR et al., Molecular Docking Simulations for Macromolecularly Imprinted Polymers.
Industrial & Engineering Chemistry Research, 50, (24), 13877-13884, (2011)
Shi Y et al., Selective determination of trace 17[beta]-estradiol in dairy and meat samples by molecularly imprinted solid-phase extraction and HPLC.
Food Chemistry, 126, (4), 1916-1925, (2011)
Wei KB et al., Detection of Trace 17[beta]-estradiol in Food Samples Using Molecularly Imprinted Solid-phase Extraction.
Acta Medicinae Universitatis Scientiae et Technologiae Huazhong, 40, (3), 326-328, 336, (2011)
Xie YT et al., Molecularly imprinted polymer microspheres enhanced biodegradation of bisphenol A by acclimated activated sludge.
Water Research, 45, (3), 1189-1198, (2011)
Zhang X et al., Preparation of molecularly imprinted microspheres and their recognition properties for punicalagin.
Journal of Beijing University of Chemical Technology (Natural Science Edition), 38, (1), 72-76, (2011)
Liu JB et al., A Theoretical Study on the Interaction between Melamine and Acrylamide Functional Monomer in Molecularly Imprinted Polymers.
Food Science, 34, (17), 96-101, (2013)
Wu YT et al., Selective and simultaneous determination of trace bisphenol A and tebuconazole in vegetable and juice samples by membrane-based molecularly imprinted solid-phase extraction and HPLC.
Food Chemistry, 164, 527-535, (2014)
Zhao GC et al., Study on bisphenol A imprinted sensor based on the film of gold nanoparticles.
Journal of Functional Materials, 45, (1), 1099-1103, (2014)
Liu F et al., Molecularly imprinted nanofiber membranes enhanced biodegradation of trace bisphenol A by Pseudomonas aeruginosa.
Chemical Engineering Journal, 262, 989-998, (2015)
Liu JB et al., Theoretical and experimental research on the self-assembled system of molecularly imprinted polymers formed by salbutamol and methacrylic acid.
Journal of Separation Science, 38, (6), 1065-1071, (2015)
Wu YT et al., Monitoring bisphenol A and its biodegradation in water using a fluorescent molecularly imprinted chemosensor.
Chemosphere, 119, 515-523, (2015)
Tao QL et al., Application of Molecular Imprinted Magnetic Fe3O4@SiO2 Nanoparticles for Selective Immobilization of Cellulase.
Journal of Nanoscience and Nanotechnology, 16, (6), 6055-6060, (2016)
Li N et al., Bio-inspired virus imprinted polymer for prevention of viral infections.
Acta Biomaterialia, 51, 175-183, (2017)
Shi Y et al., Enhanced photodegradation of di(2-ethyl)hexyl phthalate by Molecularly Imprinted titanium dioxide.
E3S Web of Conferences, 53, ArticleNo04001-(2018)
Shi JR et al., Surface-imprinted [beta]-cyclodextrin-functionalized carbon nitride nanosheets for fluorometric determination of sterigmatocystin.
Microchimica Acta, 186, (12), Article808-(2019)
Zhang Y et al., Magnetic hyperbranched molecularly imprinted polymers for selective enrichment and determination of zearalenone in wheat proceeded by HPLC-DAD analysis.
Talanta, 209, Article120555-(2020)
Shi JR et al., Correction to: Surface-imprinted [beta]-cyclodextrin-functionalized carbon nitride nanosheets for fluorometric determination of sterigmatocystin.
Microchimica Acta, 188, (10), Article332-(2021)
Shi YF
Shi YF et al., Uniform molecularly imprinted poly(methacrylic acid) nanospheres prepared by precipitation polymerization: the control of particle features suitable for sustained release of gatifloxacin.Journal of Materials Chemistry, 22, (9), 3889-3898, (2012)
Lu XF et al., Preparation and characterization of molecularly imprinted poly(hydroxyethyl methacrylate) microspheres for sustained release of gatifloxacin.
Journal of Materials Science: Materials in Medicine, 25, (6), 1461-1469, (2014)
Shi YH
Li XT et al., Non-covalently molecularly imprinted polymer as a chiral stationary phase to resolve the enantiomers of carnitine hydrochloride.Chinese Journal of Analytical Chemistry, 30, (4), 388-391, (2002)
Li XT et al., Enantiomeric resolution on L-carnitine selective polymers prepared by molecular imprinting.
Chinese Chemical Letters, 13, (2), 157-158, (2002)
Shi YJ
Zhou JR et al., ZnSe quantum dot based ion imprinting technology for fluorescence detecting cadmium and lead ions on a three-dimensional rotary paper-based microfluidic chip.Sensors and Actuators B: Chemical, 305, Article127462-(2020)
Shi YL
Zhu GJ et al., A novel ion-imprinted polymer for selective removal of trace Fe(III) from Cr(III)-containing solutions.Hydrometallurgy, 186, 105-114, (2019)
Shi YM
Tian L et al., A novel GO/PNIPAm hybrid with two functional domains can simultaneously effectively adsorb and recover valuable organic and inorganic resources.Chemical Engineering Journal, 343, 607-618, (2018)
Shi YP
Chen FF et al., Molecularly imprinted polymer microspheres for solid-phase extraction of protocatechuic acid in Rhizoma homalomenae.Journal of Separation Science, 34, (19), 2602-2610, (2011)
Chen FF et al., Magnetic molecularly imprinted polymer for the detection of rhaponticin in Chinese patent medicines.
Journal of Chromatography A, 1252, 8-14, (2012)
Chen FF et al., Molecularly imprinted polymer for the specific solid-phase extraction of kirenol from Siegesbeckia pubescens herbal extract.
Talanta, 89, (1), 505-512, (2012)
Chen FF et al., Application of molecularly imprinted solid phase extraction in the separation and determination of active constituents from natural compounds.
Chinese Journal of Chromatography, 31, (7), 626-633, (2013)
Chen FF et al., Preparation of magnetic molecularly imprinted polymer for selective recognition of resveratrol in wine.
Journal of Chromatography A, 1300, 112-118, (2013)
Chen FF et al., Magnetic molecularly imprinted polymer for the selective extraction of sildenafil, vardenafil and their analogs from herbal medicines.
Talanta, 115, 482-489, (2013)
Ma RT et al., Magnetic molecularly imprinted polymer for the selective extraction of quercetagetin from Calendula officinalis extract.
Talanta, 134, 650-656, (2015)
Ma RT et al., Highly dispersed magnetic molecularly imprinted nanoparticles with well-defined thin film for the selective extraction of glycoprotein.
Journal of Materials Chemistry B, 4, (15), 2620-2627, (2016)
Ma RT et al., Improved surface imprinting based on a simplified mass-transfer process for the selective extraction of IgG.
Journal of Materials Chemistry B, 5, (36), 7512-7518, (2017)
Sun XY et al., Erratum to: Boronate-affinity based magnetic molecularly imprinted nanoparticles for the efficient extraction of the model glycoprotein horseradish peroxidase.
Microchimica Acta, 184, (9), 3637-3637, (2017)
Sun XY et al., Boronate-affinity based magnetic molecularly imprinted nanoparticles for the efficient extraction of the model glycoprotein horseradish peroxidase.
Microchimica Acta, 184, (10), 3729-3737, (2017)
Sun XY et al., Magnetic boronate modified molecularly imprinted polymers on magnetite microspheres modified with porous TiO2 (Fe3O4@pTiO2@MIP) with enhanced adsorption capacity for glycoproteins and with wide operational pH range.
Microchimica Acta, 185, (12), Article565-(2018)
Sun XY et al., Synthesis of magnetic molecularly imprinted nanoparticles with multiple recognition sites for the simultaneous and selective capture of two glycoproteins.
Journal of Materials Chemistry B, 6, (4), 688-696, (2018)
Ma RT et al., A fluorescent molecularly imprinted device for the on-line analysis of AFP in human serum.
Journal of Materials Chemistry B, 7, (40), 6187-6194, (2019)
Ye HP et al., Magnetic molecularly imprinted polymers for extraction of S-phenylmercapturic acid from urine samples followed by high-performance liquid chromatography.
Journal of Molecular Recognition, 34, (11), Article_e2930-(2021)
Zhang YD et al., Colorimetric detection of human alpha-2-macroglobulin by janus imprinted nanoparticles constructed dual molecular imprinting immunosandwich strategy.
Analytica Chimica Acta, 1184, Article339039-(2021)
Shi YQ
Shi YQ et al., Molecular Template-Directed Synthesis of Microporous Polymer Networks for Highly Selective CO2 Capture.ACS Applied Materials & Interfaces, 6, (22), 20340-20349, (2014)
Shi YX
Yang SF et al., Proceeding, The Latest Applications of Chitin and Chitosan in Wastewater Treatment,Shi YX, Wan AJ (Eds.), 151-157, (2013)
Shi YY
Shi YY et al., The determination of a trace amount of Cd in water by FAAS after separation and preconcentration with imprinting of chitosan/attapulgite.Chinese Journal of Analysis Laboratory, 30, (11), 56-59, (2011)
Zhang QH et al., The Determination of Trace Amount of Pb by Flame Atomic Absorption Spectrometry after Separation and Preconcentration with Molecular Imprinting of Chitosan/Attapulgite.
Chinese Journal of Applied Chemistry, 28, (9), 1073-1081, (2011)
Shi YY et al., Proceeding, Studies on Preparation and Adsorption Behavior of Cd2+ Ions-Imprinted Polymer,
Li B (Ed.), 419-422, (2012)
Shi YY et al., Proceeding, Preparation and its Adsorption Characters of Pb2+ Ions-Imprinted Chitosan/Palygorskite Hybrid Materials,
Zhang HM, Wu B (Eds.), 1324-1329, (2012)
Shi YY et al., Determination of Trace Cd(II) in Traditional Chinese Medicine by Flame Atomic Absorption Spectrometry after Separation and Preconcentration with Ions Imprinting of Chitosan/Attapulgite.
Journal of Analytical Science, 28, (3), 348-352, (2012)
Shi YY et al., Preparation and adsorption characters of Cu(II)-imprinted chitosan/attapulgite polymer.
Korean Journal of Chemical Engineering, 31, (5), 821-827, (2014)
Shi Z
Li N et al., Separation and purification of the antioxidant compound hispidin from mushrooms by molecularly imprinted polymer.Applied Microbiology and Biotechnology, 99, (18), 7569-7577, (2015)
Tan YB et al., Electrochemical Determination of Bisphenol A Using a Molecularly Imprinted Chitosan-acetylene Black Composite Film Modified Glassy Carbon Electrode.
Electroanalysis, 28, (1), 189-196, (2016)
Yang YK et al., Surface molecularly imprinted magnetic MOFs: A novel platform coupled with magneto electrode for high throughput electrochemical sensing analysis of oxytetracycline in foods.
Food Chemistry, 363, Article130337-(2021)
Shi ZH
Li GF et al., Efficient synthesis of boronate affinity-based chlorogenic acid-imprinted magnetic nanomaterials for the selective recognition of chlorogenic acid in fruit juices.New Journal of Chemistry, 44, (26), 11013-11021, (2020)
Shi ZL
Shi ZL et al., Molecular imprinted polymer-based chemiluminescence for the determination of Sudan I.Journal of Instrumental Analysis, 27, (10), 1071-1074, (2008)
Shi ZL et al., Molecularly imprinted on-line solid-phase extraction combined with chemiluminescence for the determination of resveratrol.
Chinese Journal of Analysis Laboratory, 30, (3), 5-8, (2011)
Shi ZL et al., A high sensitive and fully reversible chemiluminescence sensor based on molecularly imprinted polymers for determination of sulfadiazine in cattle and chicken tissues.
Chinese Journal of Analysis Laboratory, 31, (4), 110-114, (2012)
Chang ZQ et al., Synthesis and study on adsorption property of congo red molecularly imprinted polymer nanospheres.
Environmental Science, 36, (7), 2564-2572, (2015)
Shi ZQ
Li HT et al., MOLECULAR IMPRINTED POLYMERS--Novel Polymer Adsorbents.Chinese Journal of Reactive Polymers, 10, (1), 84-94, (2001)
Liu GD et al., Utilization of synergetic effect of weak interactions in the design of polymeric sorbents with high sorption selectivity.
Journal of Chromatography A, 952, (1-2), 71-78, (2002)
Shi ZW
Su XM et al., Synthesis and characterization of core-shell magnetic molecularly imprinted polymers for solid-phase extraction of Rhodamine 6G.Journal of Functional Materials, 45, (23), 23080-23085+23090, (2014)
Su XM et al., Preparation and Adsorption Performance of Core-Shell Magnetic Molecularly Imprinted Polymer Microspheres for Solid Phase Extraction and Detection of Rhodamine 6G in Foods.
Food Science, 35, (24), 9-14, (2014)
Liu M et al., Synthesis of magnetic molecularly imprinted polymers for the selective separation and determination of metronidazole in cosmetic samples.
Analytical and Bioanalytical Chemistry, 407, (13), 3875-3880, (2015)
Shi ZX
Gan T et al., Highly sensitive and molecular selective electrochemical sensing of 6-benzylaminopurine with multiwall carbon nanotube@SnS2-assisted signal amplification.Journal of Applied Electrochemistry, 46, (3), 389-401, (2016)
Shiang YC
Liao YJ et al., Molecularly Imprinted Aptamers of Gold Nanoparticles for the Enzymatic Inhibition and Detection of Thrombin.Langmuir, 28, (24), 8944-8951, (2012)
Shibata K
Araki K et al., Effect of the Functional Molecule on Adsorption Characteristics of Lithium-selective Surface Imprinted Polymer.Journal of Ion Exchange, 14, (Supplement), 2-7, (2003)
Shibata M
Asanuma H et al., Molecularly imprinted polymer of b-cyclodextrin for the efficient recognition of cholesterol.Chemical Communications, (20), 1971-1972, (1997)
Asanuma H et al., Synthesis of molecularly imprinted polymer of b-cyclodextrin for the efficient recognition of cholesterol.
Supramolecular Science, 5, (3-4), 417-421, (1998)
Asanuma H et al., Book chapter, Molecularly imprinted cyclodextrin polymers as artificial receptors - The requisites for remarkable imprinting,
In: Proceedings of the 9th International Symposium on Cyclodextrins, Labandeira JJT, Vila-Jato JL (Eds.) Kluwer Academic Publishers: Dordrecht, 235-238, (1999)
Hishiya T et al., Molecularly imprinted cyclodextrins as selective receptors for steroids.
Macromolecules, 32, (7), 2265-2269, (1999)
Shibukawa A
Shibukawa A, Separation of optical isomers by capillary electrochromatography using the molecular imprint method.Bunseki, (2), 131-(1998)
Shido T
Suzuki A et al., Preparation of shape selective acid catalysts by a surface molecular imprinting method.unknown source, (2000)
Suzuki A et al., Design of catalytic sites at oxide surfaces by metal-complex attaching and molecular imprinting techniques.
Journal of Molecular Catalysis A: Chemical, 182-183, (1), 125-136, (2002)
Tada M et al., Design, characterization and performance of a molecular imprinting Rh-dimer hydrogenation catalyst on a SiO2 surface.
Physical Chemistry Chemical Physics, 4, (23), 5899-5909, (2002)
Shiesh SC
Syu MJ et al., Ionic effect on the binding of bilirubin to the imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate).Journal of Chromatography A, 1122, (1-2), 54-62, (2006)
Chen CY et al., Diagnostic role of biliary pancreatic elastase for cholangiocarcinoma in patients with cholestasis.
Clinica Chimica Acta, 390, (1-2), 82-89, (2008)
Shigeyasu A
Matsui J et al., Molecular Imprinting under Molecular Crowding Conditions: An Aid to the Synthesis of a High-Capacity Polymeric Sorbent for Triazine Herbicides.Analytical Chemistry, 79, (4), 1749-1757, (2007)
Shigi H
Tokonami S et al., Detection of Biomaterials and Bacteria Using Functionalized Nano- and Micro-spaces.Bunseki Kagaku, 64, (10), 727-736, (2015)
Shih CP
Lee MH et al., Microcontact Imprinting of Algae for Biofuel Systems: The Effects of the Polymer Concentration.Langmuir, 30, (46), 14014-14020, (2014)
Hsu CY et al., Optical sensing of phenylalanine in urine via extraction with magnetic molecularly imprinted poly(ethylene-co-vinyl alcohol) nanoparticles.
Nanotechnology, 26, (30), ArticleNo305502-(2015)
Lee MH et al., Fabrication of Bacteria-imprinted Polymer Coated Electrodes for Microbial Fuel Cells.
ACS Sustainable Chemistry & Engineering, 3, (6), 1190-1196, (2015)
Lee MH et al., Recognition of Rhodobacter sphaeroides by microcontact-imprinted poly(ethylene-co-vinyl alcohol).
Colloids and Surfaces B: Biointerfaces, 135, 394-399, (2015)
Lee MH et al., The potential use of glucose oxidase-imprinted polymer-coated electrodes for biofuel cells.
New Journal of Chemistry, 41, (23), 14646-14651, (2017)
Shiigi H
Deore B et al., Enantioselective uptake of amino acids using an electromodulated column packed with carbon fibres modified with overoxidised polypyrrole.Analyst, 127, (7), 935-939, (2002)
Shiigi H et al., Highly selective molecularly imprinted overoxidized polypyrrole colloids: One-step preparation technique.
Analytical Sciences, 18, (1), 41-44, (2002)
Shiigi H et al., Fabrication process and characterization of a novel structural isomer sensor - Molecularly imprinted overoxidized polypyrrole film.
Electrochemical and Solid State Letters, 6, (1), H1-H3, (2003)
Shiigi H et al., Molecularly imprinted overoxidized polypyrrole colloids: Promising materials for molecular recognition.
Microchimica Acta, 143, (2-3), 155-162, (2003)
Shiigi H et al., Development of a Skin Cholesterol Sensing Method Using a Molecularly Imprinted Self-assembled Monolayer Electrode.
Transactions of Japanese Society for Medical and Biological Engineering, 42, (3), 181-186, (2004)
Shiigi H et al., Molecular recognition for bile acids using a molecularly imprinted overoxidized polypyrrole film.
Journal of The Electrochemical Society, 152, (8), H129-H134, (2005)
Shiigi H et al., Development of the Skin Cholesterol Sensing Method Using a Molecularly Imprinted Electrode.
ECS Meeting Abstracts, MA2006-02, (47), 2084-2084, (2006)
Shiigi H et al., Development of Molecularly Imprinted Sterol Sensor and Non-invasive Detection.
Chem Sens, 22, (Supplement A), 145-147, (2006)
Tokonami S et al., Review: Micro- and nanosized molecularly imprinted polymers for high-throughput analytical applications.
Analytica Chimica Acta, 641, (1-2), 7-13, (2009)
Nagaoka T et al., Entrapment of Whole Cell Bacteria into Conducting Polymers.
Journal of Flow Injection Analysis, 29, (1), 7-10, (2012)
Shiigi H et al., Placement of Nanospace on an Electrode for Biosensing.
Analytical Sciences, 28, (11), 1037-1048, (2012)
Tokonami S et al., Book chapter, Molecularly Imprinted Overoxidized Polypyrrole Films for Sensor Applications from Enantiorecognition to Trace Analysis,
In: Molecularly Imprinted Sensors, Li SJ, Ge Y, Piletsky SA, Lunec J (Eds.) Elsevier: Amsterdam, Ch. 4, 73-89, (2012)
Tokonami S et al., Label-Free and Selective Bacteria Detection Using a Film with Transferred Bacterial Configuration.
Analytical Chemistry, 85, (10), 4925-4929, (2013)
Tokonami S et al., Recognition of gram-negative and gram-positive bacteria with a functionalized conducting polymer film.
Research on Chemical Intermediates, 40, (6), 2327-2335, (2014)
Shiigi H, Application of a Functional Nanospace to Molecular Recognition.
Review of Polarography, 62, (1), 17-24, (2016)
Kinoshita T et al., Shape Memory Characteristics of O157-Antigenic Cavities Generated on Nanocomposites Consisting of Copolymer-Encapsulated Gold Nanoparticles.
Analytical Chemistry, 89, (8), 4680-4684, (2017)
Shan XL et al., Spontaneous and specific binding of enterohemorrhagic Escherichia coli to overoxidized polypyrrole-coated microspheres.
Chemical Communications, 53, (27), 3890-3893, (2017)
Shan XL et al., Binding Constant of the Cell-shaped Cavity Formed on a Polymer for Escherichia coli O157.
Analytical Sciences, 34, (4), 483-486, (2018)
Shan XL et al., A rapid and specific bacterial detection method based on cell-imprinted microplates.
Analyst, 143, (7), 1568-1574, (2018)
Shiju NR
Shiju NR et al., Recent developments in catalysis using nanostructured materials.Applied Catalysis A: General, 356, (1), 1-17, (2009)
Shilpa N
Manna J et al., Oxyanion-Binding in a Bioinspired Nanoparticle-Assembled Hybrid Microsphere Structure: Effective Removal of Arsenate/Chromate From Water.ACS Applied Nano Materials, 2, (3), 1525-1532, (2019)
Shim A
Hua F et al., Polymer imprint lithography with molecular-scale resolution.Nano Letters, 4, (12), 2467-2471, (2004)
Shim DY
Shim DY et al., Development of fast resettable gravimetric aromatic gas sensors using quartz crystal microbalance.Sensors and Actuators B: Chemical, 329, Article129143-(2021)
Shim JJ
Kumar DR et al., Molecularly imprinted hornlike polymer@electrochemically reduced graphene oxide electrode for the highly selective determination of an antiemetic drug.Analytica Chimica Acta, 1141, 71-82, (2021)
Shim M
Hua F et al., Polymer imprint lithography with molecular-scale resolution.Nano Letters, 4, (12), 2467-2471, (2004)
Shim WG
Hwang MJ et al., Preparation of Molecularly Imprinted Polymers for the Detection of Aromatic Hydrocarbons.Journal of Nanoscience and Nanotechnology, 11, (8), 7206-7209, (2011)
Hwang MJ et al., Adsorption of toxic gases on molecularly imprinted polymer coated QCM: measurements and modeling for partial pressure in gas mixture.
Adsorption, 25, (4), 825-832, (2019)
Kim HS et al., Preparation and release properties of arbutin imprinted inulin/polyvinyl alcohol biomaterials.
International Journal of Biological Macromolecules, 161, 763-770, (2020)
Kim HS et al., Preparation and evaluation of functional allopurinol imprinted starch based biomaterials for transdermal drug delivery.
International Journal of Biological Macromolecules, 175, 217-228, (2021)
Shim YB
Yadav SK et al., A review on determination of steroids in biological samples exploiting nanobio-electroanalytical methods.Analytica Chimica Acta, 762, 14-24, (2013)
Hussain KK et al., Electrochemical Detection of Hemoglobin: A Review.
Electroanalysis, 29, (10), 2190-2199, (2017)
Kim DM et al., A potentiometric non-enzymatic glucose sensor using a molecularly imprinted layer bonded on a conducting polymer.
Biosensors and Bioelectronics, 91, 276-283, (2017)
Cho SJ et al., A selective glucose sensor based on direct oxidation on a bimetal catalyst with a molecular imprinted polymer.
Biosensors and Bioelectronics, 99, 471-478, (2018)
Shim YH
Shim YH et al., Chiral recognition and separation of b2-amino acids using noncovalently molecularly imprinted polymers.Analyst, 129, (12), 1211-1215, (2004)
Shimada A
Yoshikawa M et al., Novel polymeric membranes having chiral recognition sites converted from tripeptide derivatives.Analyst, 126, (6), 775-780, (2001)
Haruki M et al., Molecularly Imprinted Polymer-Assisted Refolding of Lysozyme.
Biotechnology Progress, 23, (5), 1254-1257, (2007)
Shimada T
Morihara K et al., Footprint catalysis .3. Inducible alteration of substrate specificities of silica(alumina) gel catalysts for 2, 4-dinitrophenolysis of toluic anhydrides by footprint imprinting.Bulletin of the Chemical Society of Japan, 62, (2), 499-505, (1989)
Matsuishi T et al., Definitive evidence for enantioselective catalysis over molecular footprint catalytic cavities chirally imprinted on a silica(alumina) gel surface.
Chemistry Letters, 21, (10), 1921-1924, (1992)
Morihara K et al., Enzyme-like enantioselective catalysis over chiral molecular footprint cavities on a silica (alumina) gel surface.
Journal of the Chemical Society-Chemical Communications, (4), 358-360, (1992)
Shimada T et al., Footprint catalysis .4. Structural effects of templates on catalytic behavior of imprinted footprint cavities.
Bulletin of the Chemical Society of Japan, 65, (4), 954-958, (1992)
Morihara K et al., Footprint catalysis .6. Chiral molecular footprint catalytic cavities imprinted by a chiral template, bis(N-benzyloxycarbonyl-L-alanyl)Amine, and their stereoselective catalyses.
Bulletin of the Chemical Society of Japan, 66, (3), 906-913, (1993)
Morihara K et al., Footprint catalysis .7. Reinvestigation of the imprinting procedures for molecular footprint catalytic cavities - the effects of imprinting procedure temperature on the catalytic characteristics.
Bulletin of the Chemical Society of Japan, 66, (10), 2977-2982, (1993)
Morihara K et al., Footprint catalysis .8. Molecular imprinting for footprint cavities on an active clay surface.
Bulletin of the Chemical Society of Japan, 66, (10), 3047-3052, (1993)
Shimada T et al., Footprint catalysis .5. Substituent effects of template molecules on the catalytic behavior of imprinted molecular footprint cavities.
Bulletin of the Chemical Society of Japan, 66, (3), 836-840, (1993)
Matsuishi T et al., Footprint catalysis 9. Molecular footprint catalytic cavities imprinted with chiral hydantoins - enantioselective hydantoinase mimics.
Bulletin of the Chemical Society of Japan, 67, (3), 748-756, (1994)
Morihara K et al., Footprint catalysis .11. Molecular footprint cavities imprinted with chiral amines and their chiral molecular recognition.
Bulletin of the Chemical Society of Japan, 67, (4), 1078-1084, (1994)
Shimada T et al., Footprint catalysis .10. Surface modification of molecular footprint catalysts and its effects on their molecular recognition and catalysis.
Bulletin of the Chemical Society of Japan, 67, (1), 227-235, (1994)
Shimelis O
Boyd B et al., Development of an improved method for trace analysis of chloramphenicol using molecularly imprinted polymers.Journal of Chromatography A, 1174, (1-2), 63-71, (2007)
Shimelis O et al., Selective Extraction of Chloramphenicol Using SupelMIP SPE.
The Reporter Europe, 26, 11-13, (2007)
Shimelis O et al., The Selective Extraction of Chloramphenicol using Molecular Imprinted Polymer SPE.
US Supelco Reporter, 25, (1), 9-11, (2007)
Shimelis O et al., Molecular imprinted polymer SPE increases sensitivity for the extraction and analysis of clenbuterol from urine.
US Supelco Reporter, 25, (2), 10-12, (2007)
Shimelis O et al., Molecularly Imprinted Polymer SPE Increases Sensitivity for the Extraction and Analysis of Clenbuterol from Urine.
The Reporter Europe, 27, 10-12, (2007)
Shimelis O et al., The selective extraction of clenbuterol using molecularly imprinted polymer SPE.
Lc Gc North America, 25, (6 SUPPL.), 19-(2007)
Shimelis O et al., Trace level analysis of NNAL in urine using SupelMIP SPE-NNAL and LC-MS-MS.
US Supelco Reporter, 25, (3), 3-5, (2007)
Widstrand C et al., Highly selectve trace level extraction using molecularly imprinted polymer solid-phase extraction.
The Column, 3, (11), 28-34, (2007)
Martínez Bueno MJ et al., Determination of malachite green residues in fish using molecularly imprinted solid-phase extraction followed by liquid chromatography-linear ion trap mass spectrometry.
Analytica Chimica Acta, 665, (1), 47-54, (2010)
Shimelis O et al., Extraction of Nitroimidazoles from Milk and Eggs using Molecularly Imprinted Polymers.
The Reporter, 27, (4), 15-17, (2010)
Shimelis O et al., Extraction and Analysis of PAHs in Olive Oil using Molecularly Imprinted Polymer SPE and GC-MS.
The Reporter, 27, (5), 12-13, (2010)
Wihlborg A-K et al., Molecularly Imprinted Polymer SPE for the Highly Selective Extraction of Fluoroquinolones from Bovine Kidney.
The Reporter, 27, (1), 18-20, (2010)
Shimizu A
Fuchiwaki Y et al., 6-chloro-N, N-diethyl-1, 3, 5-triazine-2, 4-diamine (CAT) sensor based on biomimetic recognition utilizing a molecularly imprinted artificial receptor.Analytical Sciences, 23, (1), 49-53, (2007)
Shimizu E
Tokonami S et al., Mechanism in External Field-mediated Trapping of Bacteria Sensitive to Nanoscale Surface Chemical Structure.Scientific Reports, 7, (1), AriticleNo16651-(2017)
Shimizu KD
Shimizu KD et al., Coupling the affinity spectrum method with selective chemical post-modification for the improvement of imprinted polymers.Abstracts of Papers of the American Chemical Society, 220, (OLY), 361-361, (2000)
Umpleby RJ et al., Measurement of the continuous distribution of binding sites in molecularly imprinted polymers.
Analyst, 125, (7), 1261-1265, (2000)
Shimizu KD et al., Selective chemical modification of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 221, (MSE), 469-469, (2001)
Takeuchi T et al., Molecularly imprinted polymers with metalloporphyrin-based molecular recognition sites coassembled with methacrylic acid.
Analytical Chemistry, 73, (16), 3869-3874, (2001)
Umpleby RJ et al., Application of the Freundlich adsorption isotherm in the characterization of molecularly imprinted polymers.
Analytica Chimica Acta, 435, (1), 35-42, (2001)
Umpleby RJ et al., Toward a standard method for calculating the binding parameters of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 221, (OLY), 340-340, (2001)
Umpleby RJ et al., Recognition directed site-selective chemical modification of molecularly imprinted polymers.
Macromolecules, 34, (24), 8446-8452, (2001)
Umpleby RJ et al., Characterization of molecularly imprinted polymers with the Langmuir-Freundlich isotherm.
Analytical Chemistry, 73, (19), 4584-4591, (2001)
Chen YZ et al., Monodisperse core-shell molecularly imprinted polymer microspheres.
Abstracts of Papers of the American Chemical Society, 223, (OLY), 086-086, (2002)
Chen YZ et al., Measurement of enantiomeric excess using molecularly imprinted polymers.
Organic Letters, 4, (17), 2937-2940, (2002)
Shimizu KD, Understanding the fundamental recognition behavior of molecularly imprinted polymers.
Polymer Preprints, 44, (2), 481-482, (2003)
Shimizu KD, Understanding the fundamental recognition behavior of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 226, (POLY), 519-519, (2003)
Shimizu KD, New methods of synthesizing and characterizing molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 710-710, (2003)
Lavin JM et al., Reprogrammable imprinted polymers.
Abstracts of Papers of the American Chemical Society, 227, (POLY), 122-122, (2004)
Rampey AM et al., Characterization of the imprint effect and the influence of imprinting conditions on affinity, capacity, and heterogeneity in molecularly imprinted polymers using the Freundlich isotherm-affinity distribution analysis.
Analytical Chemistry, 76, (4), 1123-1133, (2004)
Umpleby RJ et al., Characterization of the heterogeneous binding site affinity distributions in molecularly imprinted polymers.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 141-149, (2004)
Degenhardt CF et al., Conformationally imprinted receptors: Atropisomers with "write", save, and "erase" recognition properties.
Organic Letters, 7, (19), 4079-4081, (2005)
Greene NT et al., Molecularly imprinted arrays implemented for analyte identification.
Abstracts of Papers of the American Chemical Society, 229, (POLY), U941-U941, (2005)
Greene NT et al., Molecular imprinted array for carbohydrate discrimination.
Abstracts of Papers of the American Chemical Society, 229, (ANYL), 392-392, (2005)
Greene NT et al., Colorimetric molecularly imprinted polymer sensor array using dye displacement.
Journal of the American Chemical Society, 127, (15), 5695-5700, (2005)
Lee JD et al., Carbohydrate recognition by porphyrin-based molecularly imprinted polymers.
Organic Letters, 7, (6), 963-966, (2005)
Rushton GT et al., A critical examination of the use of the Freundlich isotherm in characterizing molecularly imprinted polymers (MIPs).
Analytica Chimica Acta, 528, (1), 107-113, (2005)
Rushton GT et al., Plastic antibodies: Molecular recognition with imprinted polymers - An introductory polymer chemistry laboratory investigation.
Journal of Chemical Education, 82, (9), 1374-1377, (2005)
Shimizu KD, Molecularly imprinted polymer sensors and sensor arrays.
Polymer Preprints, 46, (2), 1132-1132, (2005)
Shimizu KD, Book chapter, Post modification of imprinted polymers,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 12, 329-345, (2005)
Shimizu KD, Book chapter, Binding isotherms,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 16, 419-434, (2005)
Shimizu KD, Molecularly imprinted polymer sensors and sensor arrays.
Abstracts of Papers of the American Chemical Society, 230, 296-POLY, (2005)
Stephenson CJ et al., Virus imprinting and reuptake in polymer films.
Polymer Preprints, 47, (2), 463-463, (2006)
Stephenson CJ et al., Colormetric imprinted polymers as sensors.
Polymer Preprints, 47, (1), 7-7, (2006)
Stephenson CJ et al., Formation of multi-channel colorimetric polymers as a sensor for biogenic amines.
Polymer Preprints, 47, (2), 1084-1084, (2006)
Stephenson CJ et al., Online method for dye displacement MIP array analysis.
Abstracts of Papers of the American Chemical Society, 231, (ANYL), 208-208, (2006)
Stephenson CJ et al., Colorimetric imprinted polymers as sensors.
Abstracts of Papers of the American Chemical Society, 231, (POLY), 191-191, (2006)
Wu XY et al., A molecularly imprinted polymer fiber-optic sensor for the detection of nonfluorescent analytes in aqueous media.
Abstracts of Papers of the American Chemical Society, (ANYL), 109-109, (2006)
Wu XY et al., Affinity distributions and selectivities of molecularly imprinted polymers simulated by a probability-based computer model.
Abstracts of Papers of the American Chemical Society, 231, (POLY), 85-85, (2006)
Wu XY et al., Affinity distributions and selectivities of molecularly imprinted polymers simulated by a probabilty-based computer model.
Polymer Preprints, 47, (1), 61-61, (2006)
Wu XY et al., Molecularly imprinted polymer fiber-optic chemical sensor based on dye displacement.
Abstracts of Papers of the American Chemical Society, 231, (ANYL), 203-203, (2006)
Wu XY et al., Development of molecularly imprinted polymers as catalysts in selective solid-state [2+2] photodimerization.
Polymer Preprints, 47, (2), 328-328, (2006)
Shimizu KD et al., Book chapter, Molecularly Imprinted Polymers,
In: Encyclopedia of Chemical Processing, Lee SG (Ed.) Taylor & Francis: 1737-1746, (2007)
Stephenson CJ et al., In focus: Colorimetric and fluorometric molecularly imprinted polymer sensors and binding assays.
Polymer International, 56, (4), 482-488, (2007)
Wu XY et al., Selective phosphate recognition by triurea-based molecularly imprinted polymers.
Polymer Preprints, 48, (1), 254-255, (2007)
Zhang YZ et al., Urea and thiourea based multi-armed functional monomers for molecular recognition and imprinting.
Polymer Preprints, 48, (1), 543-544, (2007)
Wu XY et al., Stochastic Lattice Model Simulations of Molecularly Imprinted Polymers.
Chemistry of Materials, 20, (13), 4335-4346, (2008)
Wu XY et al., Book chapter, Molecular Imprinting for Sensor Applications,
In: Molecular Recognition and Polymers, Rotello VM, Thayumanavan S (Eds.) Wiley: Hoboken, NJ, Ch. 15, 395-429, (2008)
Wu XY et al., Comparison of monofunctional and multifunctional monomers in phosphate binding molecularly imprinted polymers.
Journal of Molecular Recognition, 21, (6), 410-418, (2008)
Wu XY et al., Development of molecularly imprinted polymers as tailored templates for the solid-state [2+2] photodimerization.
Biosensors and Bioelectronics, 25, (3), 640-646, (2009)
Shimizu KD et al., Molecularly imprinted polymer sensor arrays.
Current Opinion in Chemical Biology, 14, (6), 743-750, (2010)
Zhang YG et al., Importance of Functional Monomer Dimerization in the Molecular Imprinting Process.
Macromolecules, 43, (15), 6284-6294, (2010)
Song D et al., Finding the importance of flexibility of the recognition sites in molecular imprinting.
Abstracts of Papers of the American Chemical Society, 241, (POLY), 177-(2011)
Zhang YG et al., Suppression of background sites in molecularly imprinted polymers via urea-urea monomer aggregation.
Organic & Biomolecular Chemistry, 9, (1), 120-126, (2011)
Zhang YG et al., Book chapter, Molecular Imprinting and Sensor Development,
In: Chemosensors, Wang B, Anslyn EV (Eds.) John Wiley & Sons, Inc.: Hoboken, N.J., Ch. 7, 107-120, (2011)
Song D et al., Characterization of molecularly imprinted polymers using a new polar solvent titration method.
Journal of Molecular Recognition, 27, (7), 448-457, (2014)
Li P et al., Book chapter, Molecularly Imprinted Polymer Sensor Arrays,
In: Molecularly Imprinted Polymers for Analytical Chemistry Applications, Kutner W, Sharma PS (Eds.) Royal Society of Chemistry: Ch. 14, 447-474, (2018)
Shimizu KE
Greene NT et al., Molecularly imprinted polymer sensor arrays.Chemical Communications, (10), 1172-1173, (2004)
Shimizu KS
Greene NT et al., Molecular imprinted sensor arrays coupled with PCA and LDA in the identification of unknowns.Abstracts of Papers of the American Chemical Society, 227, (POLY), 505-505, (2004)
Rushton GT et al., Selective byproduct removal via molecular imprinting.
Abstracts of Papers of the American Chemical Society, 227, (POLY), 83-83, (2004)
Shimizu T
Rachkov A et al., Peptide separation using molecularly imprinted polymer prepared by epitope approach.Analytical Sciences, 17, (Supplement (Proceedings of IUPAC International Congress on Analytical Sciences 2001 (ICAS 2001))), i609-i612, (2001)
Minoura N et al., Study of the factors influencing peak asymmetry on chromatography using a molecularly imprinted polymer prepared by the epitope approach.
Bioseparation, 10, (6), 399-407, (2002)
Minoura N et al., Detection of target dsDNA by electrophoresis through a molecularly imprinted gel matrix.
Polymer Preprints, Japan, 55, (1), 1671-(2006)
Ogiso M et al., Detection of a specific DNA sequence by electrophoresis through a molecularly imprinted polymer.
Biomaterials, 27, (22), 4177-4182, (2006)
Ogiso M et al., DNA detection system using molecularly imprinted polymer as the gel matrix in electrophoresis.
Biosensors and Bioelectronics, 22, (9-10), 1974-1981, (2007)
Shimokado T
Takagishi T et al., Binding of anthraquinone sulfonate by crosslinked vinylpyrrolidone divinylbenzene copolymers - template effect.Journal of Polymer Science, Polymer Letters Edition, 23, (10), 545-548, (1985)
Shimoyama H
Ikawa T et al., Virus-Templated Photoimprint on the Surface of an Azobenzene-Containing Polymer.Langmuir, 26, (15), 12673-12679, (2010)
Shimura Y
Egawa Y et al., Preparation of molecularly imprinted cyclodextrin microspheres.International Journal of Pharmaceutics, 293, (1-2), 165-170, (2005)
Shin CH
Lee HI et al., Rational design of ordered mesoporous carbon with controlled bimodal porosity via dual silica templating route.Chemical Communications, (48), 6035-6037, (2005)
Shin CS
Vulfson EN et al., Book chapter, New imprinting strategies,In: Drug-development assay approaches including molecular imprinting and biomarkers, Reid E, Hill HM, Wilson ID (Eds.) Royal Society of Chemistry: Ch. A-6, 44-48, (1998)
Ju JY et al., Imprinted polymers as tools for the recovery of secondary metabolites produced by fermentation.
Biotechnology and Bioengineering, 64, (2), 232-239, (1999)
Ju JY et al., Binding properties of an aminostyrene-based polymer imprinted with glutamylated monascus pigments.
Biotechnology Techniques, 13, (10), 665-669, (1999)
Shin HD
Han RZ et al., Recent advances in discovery, heterologous expression, and molecular engineering of cyclodextrin glycosyltransferase for versatile applications.Biotechnology Advances, 32, (2), 415-428, (2014)
Shin HK
Yang JC et al., Lithographically patterned molecularly imprinted polymer for gravimetric detection of trace atrazine.Sensors and Actuators B: Chemical, 216, 476-481, (2015)
Shin IS
Kim Y et al., Advanced method for fabrication of molecularly imprinted mesoporous organosilica with highly sensitive and selective recognition of glyphosate.Scientific Reports, 9, (1), Article10293-(2019)
Shin JH
Zaidi SA et al., Molecularly Imprinted Polymer Electrochemical Sensors Based on Synergistic Effect of Composites Synthesized from Graphene and Other Nanosystems.International Journal of Electrochemical Science, 9, (8), 4598-4616, (2014)
Chung JH et al., Inter-Laboratory Validation of Method to Determine Residual Enrofloxacin in Chicken Meat.
International Journal of Analytical Chemistry, 2018, ArticleNo6019549-(2018)
Shin JS
Yang DH et al., Simple method for the fabrication of 1-hydroxypyrene-imprinted TiO2 gel nanofilms.Current Applied Physics, 9, (2, Supplement 1), e136-e139, (2009)
Shin MJ et al., Sensing Capability of Molecularly Imprinted Self-Assembled Monolayer Using Terphenylpropanethiol.
Particulate Science and Technology, 30, (6), 543-552, (2012)
Shin MJ et al., Inorganic Molecularly Imprinted Polymer by Sol-Gel Process for Recognition of Caffeine.
Open Journal of Organic Polymer Materials, 3, 1-5, (2013)
Shin MJ et al., Recognizing Amino Acid Chirality with Surface-Imprinted Polymers Prepared in W/O Emulsions.
International Journal of Polymer Science, 2013, Article ID 290187, 5 pages-(2013)
Shin MJ et al., Recognizing Amino Acid Chirality with Surface-Imprinted Polymers Prepared in W/O Emulsions.
International Journal of Polymer Science, 2013, Article ID 290187, 5 pages-(2013)
Shin MJ et al., Sensing capability of molecularly imprinted self-assembled monolayer fabricated using dithiol compound.
Journal of Industrial and Engineering Chemistry, 20, (1), 91-95, (2014)
Yang DH et al., Molecularly imprinted titania microbeads for extraction of the metabolite 1-hydroxypyrene from urine prior to its determination by HPLC.
Microchimica Acta, 183, (5), 1601-1609, (2016)
Yang DH et al., An electrochemical nanofilm sensor for determination of 1-hydroxypyrene using molecularly imprinted receptors.
Journal of Industrial and Engineering Chemistry, 51, 106-112, (2017)
Shin MJ et al., Cholesterol recognition system by molecular imprinting on self-assembled monolayer.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 559, 365-371, (2018)
Shin MJ et al., A molecularly imprinted polymer undergoing a color change depending on the concentration of bisphenol A.
Microchimica Acta, 187, (1), Article44-(2019)
Shin MJ et al., Switchable cholesterol recognition system with Diels-Alder reaction using molecular imprinting technique on self-assembled monolayer.
Polymer International, 68, (10), 1722-1728, (2019)
Shin MJ
Shin MJ et al., Sensing capability of molecularly imprinted self-assembled monolayer.Biochemical Engineering Journal, 54, (1), 57-61, (2011)
Shin MJ et al., Sensing Capability of Molecularly Imprinted Self-Assembled Monolayer Using Terphenylpropanethiol.
Particulate Science and Technology, 30, (6), 543-552, (2012)
Shin MJ et al., Inorganic Molecularly Imprinted Polymer by Sol-Gel Process for Recognition of Caffeine.
Open Journal of Organic Polymer Materials, 3, 1-5, (2013)
Shin MJ et al., Recognizing Amino Acid Chirality with Surface-Imprinted Polymers Prepared in W/O Emulsions.
International Journal of Polymer Science, 2013, Article ID 290187, 5 pages-(2013)
Shin MJ et al., Sensing capability of molecularly imprinted self-assembled monolayer fabricated using dithiol compound.
Journal of Industrial and Engineering Chemistry, 20, (1), 91-95, (2014)
Yang DH et al., Molecularly imprinted titania microbeads for extraction of the metabolite 1-hydroxypyrene from urine prior to its determination by HPLC.
Microchimica Acta, 183, (5), 1601-1609, (2016)
Shin MJ et al., Cholesterol recognition system by molecular imprinting on self-assembled monolayer.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 559, 365-371, (2018)
Shin MJ et al., A molecularly imprinted polymer undergoing a color change depending on the concentration of bisphenol A.
Microchimica Acta, 187, (1), Article44-(2019)
Shin MJ et al., Switchable cholesterol recognition system with Diels-Alder reaction using molecular imprinting technique on self-assembled monolayer.
Polymer International, 68, (10), 1722-1728, (2019)
Shin Y
Shin Y et al., Enhancement of uranyl adsorption capacity on silica sol-gel glasses via molecular imprinting.Abstracts of Papers of the American Chemical Society, 214, (INOR), 251-251, (1997)
Dai S et al., Imprint coating: A novel synthesis of selective functionalized ordered mesoporous sorbents.
Angewandte Chemie International Edition, 38, (9), 1235-1239, (1999)
Shin YJ
Shin MJ et al., Inorganic Molecularly Imprinted Polymer by Sol-Gel Process for Recognition of Caffeine.Open Journal of Organic Polymer Materials, 3, 1-5, (2013)
Shin MJ et al., Cholesterol recognition system by molecular imprinting on self-assembled monolayer.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 559, 365-371, (2018)
Shin YS
Dai S et al., Enhancement of uranyl adsorption capacity and selectivity on silica sol-gel glasses via molecular imprinting.Chemistry of Materials, 9, (11), 2521-2525, (1997)
Dai S et al., Spectroscopic probing of adsorption of uranyl to uranyl-imprinted silica sol-gel glass via steady-state and time-resolved fluorescence measurement.
Journal of Physical Chemistry B, 101, (28), 5521-5524, (1997)
Dai S et al., Imprint coating: Novel synthesis of selective functionalized ordered mesoporous sorbents.
Abstracts of Papers of the American Chemical Society, 217, (IEC), 234-234, (1999)
Shin YS et al., Ordered Hierarchical Porous Materials: Towards Tunable Size- and Shape-Selective Microcavities in Nanoporous Channels.
Angewandte Chemie International Edition, 39, (15), 2702-2707, (2000)
Shin YY
Shin MJ et al., Sensing capability of molecularly imprinted self-assembled monolayer fabricated using dithiol compound.Journal of Industrial and Engineering Chemistry, 20, (1), 91-95, (2014)
Shinbo T
Minoura N et al., Detection of target dsDNA by electrophoresis through a molecularly imprinted gel matrix.Polymer Preprints, Japan, 55, (1), 1671-(2006)
Ogiso M et al., Detection of a specific DNA sequence by electrophoresis through a molecularly imprinted polymer.
Biomaterials, 27, (22), 4177-4182, (2006)
Ogiso M et al., DNA detection system using molecularly imprinted polymer as the gel matrix in electrophoresis.
Biosensors and Bioelectronics, 22, (9-10), 1974-1981, (2007)
Shinde S
Emgenbroich M et al., A Phosphotyrosine-Imprinted Polymer Receptor for the Recognition of Tyrosine Phosphorylated Peptides.Chemistry - A European Journal, 14, (31), 9516-9529, (2008)
Ambrosini S et al., Synthesis and chromatographic evaluation of molecularly imprinted polymers prepared by the substructure approach for the class-selective recognition of glucuronides.
Journal of Chromatography A, 1218, (39), 6961-6969, (2011)
Helling S et al., Ultratrace Enrichment of Tyrosine Phosphorylated Peptides on an Imprinted Polymer.
Analytical Chemistry, 83, (5), 1862-1865, (2011)
Ambrosini S et al., Glucuronide directed molecularly imprinted solid-phase extraction: isolation of testosterone glucuronide from its parent drug in urine.
Analyst, 137, (1), 249-254, (2012)
Shinde S et al., Imprinted Polymers Displaying High Affinity for Sulfated Protein Fragments.
Angewandte Chemie International Edition, 51, (33), 8326-8329, (2012)
Kadhirvel P et al., Imidazolium-based functional monomers for the imprinting of the anti-inflammatory drug naproxen: Comparison of acrylic and sol-gel approaches.
Journal of Chromatography A, 1314, 115-123, (2013)
Chen J et al., Low-bias phosphopeptide enrichment from scarce samples using plastic antibodies.
Scientific Reports, 5, ArticleNo11438-(2015)
Shinde S et al., Sialic Acid-Imprinted Fluorescent Core-Shell Particles for Selective Labeling of Cell Surface Glycans.
Journal of the American Chemical Society, 137, (43), 13908-13912, (2015)
Chen J et al., Validation of molecularly imprinted polymers for side chain selective phosphopeptide enrichment.
Journal of Chromatography A, 1471, 45-50, (2016)
El-Schich Z et al., Different expression levels of glycans on leukemic cells - a novel screening method with molecularly imprinted polymers (MIP) targeting sialic acid.
Tumor Biology, 37, (10), 13763-13768, (2016)
Jagadeesan KK et al., Multiplexed MALDI-MS arrays for screening of MIP solid phase extraction materials.
Journal of Chromatography B, 1021, 213-220, (2016)
Shen XT et al., Reflux precipitation polymerization: a new synthetic insight in molecular imprinting at high temperature.
RSC Advances, 6, (85), 81491-81499, (2016)
Shen XT et al., Catalytic Formation of Disulfide Bonds in Peptides by Molecularly Imprinted Microgels at Oil/Water Interfaces.
ACS Applied Materials & Interfaces, 8, (44), 30484-30491, (2016)
Akhoundian M et al., Ultratrace Detection of Histamine Using a Molecularly-Imprinted Polymer-Based Voltammetric Sensor.
Sensors, 17, (3), ArticleNo645-(2017)
Bllaci L et al., Phosphotyrosine Biased Enrichment of Tryptic Peptides from Cancer Cells by Combining pY-MIP and TiO2 Affinity Resins.
Analytical Chemistry, 89, (21), 11332-11340, (2017)
Pan GQ et al., An Epitope-Imprinted Biointerface with Dynamic Bioactivity for Modulating Cell-Biomaterial Interactions.
Angewandte Chemie International Edition, 56, (50), 15959-15963, (2017)
Sulc R et al., Phospholipid imprinted polymers as selective endotoxin scavengers.
Scientific Reports, 7, ArticleNo44299-(2017)
Wan W et al., Ratiometric Fluorescence Detection of Phosphorylated Amino Acids Through Excited-State Proton Transfer by Using Molecularly Imprinted Polymer (MIP) Recognition Nanolayers.
Chemistry - A European Journal, 23, (63), 15974-15983, (2017)
Wierzbicka C et al., Hierarchically templated beads with tailored pore structure for phosphopeptide capture and phosphoproteomics.
RSC Advances, 7, (28), 17154-17163, (2017)
Ertürk G et al., Bisphosphonate ligand mediated ultrasensitive capacitive protein sensor: complementary match of supramolecular and dynamic chemistry.
New Journal of Chemistry, 43, (2), 847-852, (2019)
Mahajan R et al., Highly Efficient Synthesis and Assay of Protein-Imprinted Nanogels by Using Magnetic Templates.
Angewandte Chemie International Edition, 58, (3), 727-730, (2019)
Zhang YC et al., Determination of cytokine regulated glycan expression by using molecularly imprinted polymers targeting sialic acid.
Journal of Cancer Metastasis and Treatment, 5, Article56-(2019)
Ambaw YA et al., Tailored Polymer-Based Selective Extraction of Lipid Mediators from Biological Samples.
Metabolites, 11, (8), ArticleNo539-(2021)
Rouhi M et al., Role of Comonomers in the Recognition of Anionic Biomolecules in Water: Hydrogen-Bonded Imprinted Polymeric Receptor.
ACS Applied Polymer Materials, 3, (10), 4904-4912, (2021)
Shinkai S
Shinkai S et al., Template synthesis from starch as an approach to tailor-made cyclodextrin.Tetrahedron Letters, 24, (33), 3501-3504, (1983)
Shiomi Y et al., Specific complexation of glucose with a diphenylmethane-3, 3'-diboronic acid-derivative - correlation between the absolute configuration of monosaccharide and disaccharide and the circular dichroic activity of the complex.
Journal of the Chemical Society-Perkin Transactions 1, (17), 2111-2117, (1993)
Inoue K et al., Chiroselective re-binding of saccharides to the fibrous aggregates prepared from organic gels of cholesterylphenylboronic acid.
Tetrahedron Letters, 39, (19), 2981-2984, (1998)
Ishii T et al., Regioselective introduction of two boronic acid groups into [60]fullerene using saccharides as imprinting templates.
Chemical Communications, 1047-1048, (1998)
Kanekiyo Y et al., Facile construction of a novel metal-imprinted polymer surface without a polymerisation process.
Journal of the Chemical Society-Perkin Transactions 2, (9), 2005-2008, (1998)
Kanekiyo Y et al., Facile design of a metal-imprinted surface from a poly(vinyl chloride-co-acrylic acid) poly(propylene glycol) blend.
Tetrahedron Letters, 39, (42), 7721-7724, (1998)
Ishii T et al., D/L selective re-binding of saccharide-imprinted [60]fullerene-bisadducts based on a saccharide-boronic acid interaction: Development of a molecular imprinting technique useful in a homogeneous system.
Tetrahedron, 55, 3883-3892, (1999)
Kanekiyo Y et al., Molecular-imprinting Kanekiyo Y et al., Molecular-imprinting Nakashima K et al., Saccharide libraries as potential templates for regio- and chiroselective introduction of two functional groups into [60]fullerene.
Journal of Organic Chemistry, 64, (3), 984-990, (1999)
Kanekiyo Y et al., Novel nucleotide-responsive hydrogels designed from copolymers of boronic acid and cationic units and their applications as a QCM resonator system to nucleotide sensing.
Journal of Polymer Science Part A: Polymer Chemistry, 38, (8), 1302-1310, (2000)
Friggeri A et al., From solutions to surfaces: A novel molecular imprinting method based on the conformational changes of boronic-acid-appended poly(L-lysine).
Angewandte Chemie International Edition, 40, (24), 4729-4731, (2001)
Shinkai S et al., Molecular design of synthetic receptors with dynamic, imprinting, and allosteric functions.
Biosensors and Bioelectronics, 20, (6), 1250-1259, (2004)
Shinkai S et al., Molecular design of synthetic receptors with dynamic, imprinting, and allosteric functions.
Bulletin of the Chemical Society of Japan, 78, (1), 40-51, (2005)
Kanekiyo Y et al., Book chapter, Supramolecular Chemistry of Boronic Acids,
In: Boron: Sensing, Synthesis and Supramolecular Self-Assembly, Li M, Fossey JS, James TD (Eds.) The Royal Society of Chemistry: Cambridge, Ch. 1, 1-43, (2015)
Shinkawa K
Kodakari N et al., Molecular-sieving gas sensor prepared by chemical vapor deposition of silica on tin oxide using an organic template.Bulletin of the Chemical Society of Japan, 71, (2), 513-519, (1998)
Shinmori H
Takeuchi T et al., Corrigendum to 'Signaling molecularly imprinted polymers: Molecular recognition-based sensing materials'.Chemical Record, 5, (6), 410-411, (2005)
Takeuchi T et al., Molecularly imprinted polymers with halogen bonding-based molecular recognition sites.
Tetrahedron Letters, 46, (52), 9025-9027, (2005)
Takeuchi T et al., Signaling molecularly imprinted polymers: Molecular recognition-based sensing materials.
Chemical Record, 5, (5), 263-275, (2005)
Akeda K et al., Photoresponsive imprinted polymers with azobenzene moieties.
Polymer Preprints, Japan, 55, (2), 4969-4970, (2006)
Kubo A et al., Atrazine-imprinted microspheres prepared using a microfluidic device.
Chemistry Letters, 35, (6), 588-589, (2006)
Murakami S et al., Amino acid-imprinted polymers with reconstitutable binding sites.
Polymer Preprints, Japan, 55, (2), 5241-5242, (2006)
Takeuchi T et al., Dopamine selective molecularly imprinted polymers via post-imprinting modification.
Organic & Biomolecular Chemistry, 4, (3), 565-568, (2006)
Yane T et al., Atrazine transforming polymer prepared by molecular imprinting with post-imprinting process.
Organic & Biomolecular Chemistry, 4, (24), 4469-4473, (2006)
Yane T et al., Artificial enzyme for atrazine decomposition prepared by molecular imprinting.
Polymer Preprints, Japan, 55, (2), 4806-(2006)
Takeuchi T et al., Protein profiling by protein imprinted polymer array.
Analyst, 132, (2), 101-103, (2007)
Takeuchi T et al., Photoresponsive porphyrin-imprinted polymers prepared using a novel functional monomer having diaminopyridine and azobenzene moieties.
Organic & Biomolecular Chemistry, 5, (15), 2368-2374, (2007)
Murakami S et al., A molecularly imprinted polymer for the reconstruction of a molecular recognition region.
Chemistry Letters, 37, (10), 1028-1029, (2008)
Taguchi Y et al., Formation of molecular recognition sites with urea moieties utilizing molecular imprinting.
Nippon Kagakkai Koen Yokoshu, 86, (2), 1416-(2009)
Shinoda S
Kubo H et al., Chiral recognition of octadentate Na+ complex with tetra-armed cyclen by molecularly imprinted polymers.Analytica Chimica Acta, 504, (1), 137-140, (2004)
Shinohara H
Shinohara H et al., Ion-sieving of electrosynthesized polypyrrole films.Journal of the Chemical Society-Chemical Communications, (1), 87-88, (1986)
Anraku Y et al., Molecular recognition at the surface of polymer brush as observed by localized surface plasmon resonance technique.
Polymer Preprints, Japan, 55, (2), 5107-5108, (2006)
Shinohara S
Shinohara S et al., Molecularly Imprinted Filtering Adsorbents for Odor Sensing.Sensors, 16, (11), ArticleNo1974-(2016)
Shinohara S et al., Proceeding, Gas selective chemiresistor composed of molecularly imprinted polymer composite ink,
1-3, (2016)
Shintu L
Chandran J et al., Molecular signal suppression by in situ microextraction in nuclear magnetic resonance spectroscopy.Magnetic Resonance in Chemistry, 52, (11), 694-698, (2014)
Shiokawa K
Fujiwara M et al., Bisphenol A imprinted SiO2-ZrO2 mixed oxide materials prepared by acetic anhydride sol-gel method.Synthesis and Reactivity in Inorganic, Metal-Organic and Nano-Metal Chemistry, 37, (10), 771-777, (2007)
Shiomi K
Shiomi K et al., Molecularly Imprinted Chitin Nanofiber Membranes: Multi-Stage Cascade Membrane Separation within the Membrane.Journal of Membrane and Separation Technology, 5, (3), 103-114, (2016)
Shiomi T
Shiomi T et al., A method for the molecular imprinting of hemoglobin on silica surfaces using silanes.Biomaterials, 26, (27), 5564-5571, (2005)
Shiomi Y
Shiomi Y et al., Specific complexation of glucose with a diphenylmethane-3, 3'-diboronic acid-derivative - correlation between the absolute configuration of monosaccharide and disaccharide and the circular dichroic activity of the complex.Journal of the Chemical Society-Perkin Transactions 1, (17), 2111-2117, (1993)
Shionoya M
Takeuchi T et al., Synthetic receptors prepared by organized assembly of organic molecules.IEEE Engineering in Medicine and Biology Magazine, 21, (6), 144-150, (2002)
Shiozawa M
Ikawa T et al., Virus-Templated Photoimprint on the Surface of an Azobenzene-Containing Polymer.Langmuir, 26, (15), 12673-12679, (2010)
Shipulo EV
Petrukhin OM et al., Molecularly selective field-effect transistors for determining nicotinamide adenine dinucleotide and its phosphates.Journal of Analytical Chemistry, 62, (9), 894-902, (2007)
Shirai H
Suzuki M et al., Preparation of porous polymers by "in situ precipitation" using low molecular weight gelators.Polymer Journal, 34, (6), 474-(2002)
Shirai M
Shirai M et al., Synthesis and cation binding-properties of a photosensitive polymer with crown ether groups.Makromolekulare Chemie-Rapid Communications, 4, (2), 65-69, (1983)
Shirai M et al., Cation binding-properties of poly(crown ether)s with photodimerizable groups - Enhanced cation binding ability via a photochemical template effect.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 186, (3), 493-500, (1985)
Shirai M et al., Cation binding-properties of polyesters with photodimerizable groups and oxyethylene units - Effect of photo-cross-linking with template cations.
European Polymer Journal, 21, (12), 999-1003, (1985)
Shiraishi F
Kubo T et al., Selective Separation of Hydroxy Poly-Chlorinated Biphenyls (Hydroxy PCBs).Chromatography, 27, (Supplement 1), 45-46, (2006)
Kubo T et al., Selective separation of hydroxy polychlorinated biphenyls (HO-PCBs) by the structural recognition on the molecularly imprinted polymers: Direct separation of the thyroid hormone active analogues from mixtures.
Analytica Chimica Acta, 589, (2), 180-185, (2007)
Yagishita M et al., Efficient extraction of estrogen receptor-active compounds from environmental surface water via a receptor-mimic adsorbent, a hydrophilic PEG-based molecularly imprinted polymer.
Chemosphere, 217, 204-212, (2019)
Shiraishi Y
Shiraishi Y et al., Selective photooxidation of chlorophenols with molecularly imprinted polymers containing a photosensitizer.New Journal of Chemistry, 34, (4), 714-717, (2010)
Shirakawa H
Shinohara H et al., Ion-sieving of electrosynthesized polypyrrole films.Journal of the Chemical Society-Chemical Communications, (1), 87-88, (1986)
Shiraki Y
Shiraki Y et al., Preparation of Molecule-Responsive Microsized Hydrogels via Photopolymerization for Smart Microchannel Microvalves.Macromolecular Rapid Communications, 36, (6), 515-519, (2015)
Shirangi M
Shirangi M et al., Methyleneation of Peptides by N, N, N, N-Tetramethylethylenediamine (TEMED) under Conditions Used for Free Radical Polymerization: A Mechanistic Study.Bioconjugate Chemistry, 26, (1), 90-100, (2015)
Shirani MP
Shirani MP et al., Development of an eco-friendly fluorescence nanosensor based on molecularly imprinted polymer on silica-carbon quantum dot for the rapid indoxacarb detection.Food Chemistry, 339, Article127920-(2021)
Shirasaka K
Katayama M et al., Synthesis of imprinted cyclodextrin polymer by use of two functional monomers.Polymer Preprints, Japan, 54, (1), 2117-(2005)
Matsui T et al., Improved Method of Molecular Imprinting of Cyclodextrin on Silica-gel Surface for the Preparation of Stable Stationary HPLC Phase.
Journal of Inclusion Phenomena and Macrocyclic Chemistry, 56, (1-2), 39-44, (2006)
Osawa T et al., Importance of the position of vinyl group on [beta]-cyclodextrin for the effective imprinting of amino acid derivatives and oligopeptides in water.
Macromolecules, 39, (7), 2460-2466, (2006)
Sumaoka J et al., Recognition of bioactive oligopeptide by imprinted cyclodextrin polymer in water.
Polymer Preprints, Japan, 55, (1), 1668-(2006)
Song SH et al., Recognition of Solution Structures of Peptides by Molecularly Imprinted Cyclodextrin Polymers.
Macromolecules, 40, (10), 3530-3532, (2007)
Song SH et al., Molecular imprinting of cyclodextrin to physiologically active oligopeptides in water.
Supramolecular Chemistry, 22, (3), 149-155, (2010)
Shirasu Y
Hosoya K et al., Molecularly imprinted uniform-size polymer-based stationary phase for high-performance liquid chromatography - Structural contribution of cross-linked polymer network on specific molecular recognition.Journal of Chromatography A, 728, (1-2), 139-147, (1996)
Yoshizako K et al., Uniformly sized polymer based stationary phase having multi-chiral selectors.
Chemistry Letters, 25, (8), 717-718, (1996)
Hosoya K et al., Study on molecular recognition by molecular imprinting.
Kuromatogurafi, 18, (2), 104-105, (1997)
Hosoya K et al., Molecularly imprinted chiral stationary phase prepared with racemic template.
Analytical Chemistry, 70, (5), 943-945, (1998)
Shiratori S
Tsuru N et al., The application of molecular imprinted polymer for bisphenol A to quartz crystal microbalance.Polymer Preprints, Japan, 54, (1), 1894-(2005)
Kikuchi M et al., Recognition of terpenes using molecular imprinted polymer coated quartz crystal microbalance in air phase.
Science and Technology of Advanced Materials, 7, (2), 156-161, (2006)
Tsuru N et al., A quartz crystal microbalance sensor coated with MIP for "Bisphenol A" and its properties.
Thin Solid Films, 499, (1-2), 380-385, (2006)
Tsuru N et al., Proceeding, QCM sensor covered with Molecular Imprinted polymer for Bisphenol A-The influence of sensor characteristics by polymer network structure-,
23-26, (2006)
Shirazifard P
Shirazifard P et al., Selective solid-phase extraction of trace Pb(II) from aqueous solution using Pb(II)-ion imprinted polymer.Separation Science and Technology, 51, (2), 248-254, (2016)
Shirkhodaie M
Hossein Beyki M et al., Aqueous Co(II) adsorption using 8-hydroxyquinoline anchored [gamma]-Fe2O3@chitosan with Co(II) as imprinted ions.International Journal of Biological Macromolecules, 87, 375-384, (2016)
Shirvani-Arani S
Shirvani-Arani S et al., Synthesis of nano-pore samarium (III)-imprinted polymer for preconcentrative separation of samarium ions from other lanthanide ions via solid phase extraction.Analytica Chimica Acta, 623, (1), 82-88, (2008)
Ahmadi SJ et al., Synthesis and characterization of new ion-imprinted polymer for separation and preconcentration of uranyl (UO22+) ions.
Journal of Hazardous Materials, 175, (1-3), 193-197, (2010)
Abedi M et al., Synthesis and characterization of a novel acryl amide-based yttrium imprinted sorbent via the ATRP approach for the preparation of medical-grade 90Y.
Radiochimica Acta, 104, (2), 117-129, (2016)
Shirzadmehr A
Bagheri H et al., Designing and fabrication of new molecularly imprinted polymer-based potentiometric nano-graphene/ionic liquid/carbon paste electrode for the determination of losartan.Journal of Molecular Liquids, 212, 96-102, (2015)
Shirzadmehr A et al., A new nano-composite potentiometric sensor containing an Hg2+ ion imprinted polymer for the trace determination of mercury ions in different matrices.
Journal of Molecular Liquids, 204, 227-235, (2015)
Khoshsafar H et al., Magnetic Carbon Paste Electrode Modified with a High Performance Composite Based on Molecularly Imprinted Carbon Nanotubes for Sensitive Determination of Levofloxacin.
Journal of The Electrochemical Society, 163, (8), B422-B427, (2016)
Shirzadmehr A et al., Novel potentiometric sensor for the trace-level determination of Zn2+ based on a new nanographene/ion imprinted polymer composite.
International Journal of Environmental Analytical Chemistry, 96, (10), 929-944, (2016)
Bagheri H et al., Determination of tramadol in pharmaceutical products and biological samples using a new nanocomposite carbon paste sensor based on decorated nanographene/tramadol-imprinted polymer nanoparticles/ionic liquid.
Ionics, 24, (3), 833-843, (2018)
Shishkina S
Muzyka K et al., Theoretical quantum mechanical based studies of melamine - monomers interaction in pre-polymerisation phase.Journal of the Chinese Advanced Materials Society, 4, (1), 24-35, (2016)
Shiu E
Zhou YX et al., Surface imprinted polymer for development of a sensor for methylphosphonic acid: A degradation product of chemical warfare agents.Abstracts of Papers of the American Chemical Society, 227, (COLL), 531-531, (2004)
Zhou YX et al., Potentiometric sensing of chemical warfare agents: Surface imprinted polymer integrated with an indium tin oxide electrode.
Analytical Chemistry, 76, (10), 2689-2693, (2004)
Shivhare UD
Barde LN et al., Development of molecularly imprinted polymer as sustain release drug carrier for propranolol HCL.Drug Development and Industrial Pharmacy, 39, (8), 1247-1253, (2013)
Shkotova LV
Soldatkin AP et al., Biosensors. A quarter of a century of R&D experience.Biopolymers and Cell, 29, (3), 188-206, (2013)
Shkoulev V
Brandis A et al., A two-step strategy to visually identify molecularly imprinted polymers for tagged proteins.Journal of Separation Science, 40, (16), 3358-3367, (2017)
Shlyapnikov YA
Shlyapnikov YA et al., Physical chemistry of topological disorder in polymers: Some remarks on polymer memory.Journal of Applied Polymer Science, 100, (5), 4208-4211, (2006)
Shmizu T
Minoura N et al., Detection of double-stranded DNA by utilizing a recognition cavity in molecular imprinting polymer.Polymer Preprints, Japan, 54, (2), 4749-4750, (2005)
Shnayderman M
Skrdla PJ et al., GC-MS Study of the formation of alkoxysilanes from a sol-gel precursor in a hydrophobic solution: A potential new route to hybrid molecular imprinted polymers.Journal of Non-Crystalline Solids, 352, (30-31), 3302-3309, (2006)
Shnek D
Mallik S et al., Towards materials for the specific recognition and separation of proteins.New Journal of Chemistry, 18, 299-304, (1994)
Shnek DR
Shnek DR et al., Specific protein attachment to artificial membranes via coordination to lipid-bound copper(II).Langmuir, 10, (7), 2382-2388, (1994)
Shockravi A
Hashemi B et al., Synthesis and characterization of ion imprinted polymeric nanoparticles for selective extraction and determination of mercury ions.Analytical Methods, 7, (22), 9641-9648, (2015)
Shoeibi S
Motaharian A et al., Electrochemical determination of atypical antipsychotic drug quetiapine using nano-molecularly imprinted polymer modified carbon paste electrode.Analytica Chimica Acta, 1097, 214-221, (2020)
Shofiyani A
Shofiyani A et al., Book chapter, Enhancement of Cu(II) Adsorption Capacity by Surface-Ionic Imprinted Biosorbent,In: Chemical, Biological and Environmental Engineering, Li K (Ed.) World Scientific: 231-234, (2009)
Shofiyani A et al., Cadmium adsorption on chitosan/chlorella biomass sorbent prepared by ionic-imprinting technique.
Indonesian Journal of Chemistry, 15, (2), 163-171, (2015)
Shoghi E
Shoghi E et al., Nanosized aptameric cavities imprinted on the surface of magnetic nanoparticles for high-throughput protein recognition.Microchimica Acta, 185, (4), ArticleNo241-(2018)
Shoja Y
Shoja Y et al., Electrochemical molecularly bioimprinted siloxane biosensor on the basis of core/shell silver nanoparticles/EGFR exon 21 L858R point mutant gene/siloxane film for ultra-sensing of Gemcitabine as a lung cancer chemotherapy medication.Biosensors and Bioelectronics, 145, Article111611-(2019)
Shojaei A
Nematollahzadeh A et al., High-Capacity Hierarchically Imprinted Polymer Beads for Protein Recognition and Capture.Angewandte Chemie International Edition, 50, (2), 495-498, (2011)
Nematollahzadeh A et al., Submicron nanoporous polyacrylamide beads with tunable size for verapamil imprinting.
Journal of Applied Polymer Science, 125, (1), 189-199, (2012)
Nematollahzadeh A et al., Molecularly imprinted polydopamine nano-layer on the pore surface of porous particles for protein capture in HPLC column.
Journal of Colloid and Interface Science, 404, 117-126, (2013)
Shojaei M
Mirmohseni A et al., Application of a quartz crystal nanobalance to the molecularly imprinted recognition of phenylalanine in solution.Biotechnology and Bioprocess Engineering, 13, (5), 592-597, (2008)
Mirmohseni A et al., Experimental design and multi-objective optimization of molecularly imprinted polymers for monosaccharides.
RSC Advances, 4, (39), 20177-20184, (2014)
Mirmohseni A et al., Application of molecularly imprinted polymer for determination of glucose by quartz crystal nanobalance technique.
IEEE Sensors Journal, 14, (8), 2807-2812, (2014)
Shojaei S
Shojaei S et al., An Electrochemical Nanosensor Based on Molecularly Imprinted Polymer (MIP) for Detection of Gallic Acid in Fruit Juices.Food Analytical Methods, 9, (10), 2721-2731, (2016)
Shojaosadati SA
Panahi R et al., Separation of l-lysine from dilute aqueous solution using molecular imprinting technique.Biochemical Engineering Journal, 35, (3), 352-356, (2007)
Shoji K
Hirayama M et al., Design of protein-responsive micro-sized hydrogels for self-regulating microfluidic systems.Journal of Micromechanics and Microengineering, 28, (3), ArticleNo034002-(2018)
Shoji R
Shoji R et al., Atrazine sensor based on molecularly imprinted polymer-modified gold electrode.Analytical Chemistry, 75, (18), 4882-4886, (2003)
Shoji R et al., Atrazine sensor based on a nano chemical receptor modified electrode.
Bunseki Kagaku, 52, (12), 1141-1146, (2003)
Fuchiwaki Y et al., 6-Chloro-N, N-Diethyl-1, 3, 5-Triazine-2, 4-Diamine (Simazine) Electrochemical Sensing Chip Based on Biomimetic Recognition Utilizing a Molecularly Imprinted Polymer Layer on a Gold Chip.
Analytical Letters, 41, (8), 1398-1407, (2008)
Kubo I et al., Atrazine sensing chip based on molecularly imprinted polymer layer.
Electrochemistry, 76, (8), 541-544, (2008)
Shojosadati SA
Panahi R et al., Determination of Adsorption Isotherm for L-Lysine Imprinted Polymer.Iranian Journal of Chemical Engineering, 5, (4), 49-55, (2008)
Shokoohi R
Ganjali MR et al., A Highly Sensitive and Selective Electrochemical Mercury(II) Sensor Based on Nanoparticles of Hg(II)-imprinted Polymer and Graphitic Carbon Nitride (g-C3N4).International Journal of Electrochemical Science, 14, 6420-6430, (2019)
Shokrgozar MA
Mahmoudi M et al., Cell-Imprinted Substrates Direct the Fate of Stem Cells.ACS Nano, 7, (10), 8379-8384, (2013)
Mahmoudi M et al., Correction to Cell-Imprinted Substrates Direct the Fate of Stem Cells.
ACS Nano, 8, (10), 11023-11023, (2014)
Mashinchian O et al., Cell-Imprinted Substrates Act as an Artificial Niche for Skin Regeneration.
ACS Applied Materials & Interfaces, 6, (15), 13280-13292, (2014)
Bonakdar S et al., Cell-Imprinted Substrates Modulate Differentiation, Redifferentiation, and Transdifferentiation.
ACS Applied Materials & Interfaces, 8, (22), 13777-13784, (2016)
Shokrollahi A
Alipanahpour Dil E et al., Magnetic dual-template molecularly imprinted polymer based on syringe-to-syringe magnetic solid-phase microextraction for selective enrichment of p-Coumaric acid and ferulic acid from pomegranate, grape, and orange samples.Food Chemistry, 325, Article126902-(2020)
Shokry Hassan H
Abdelghani R et al., Nano-architecture of highly sensitive SnO2-based gas sensors for acetone and ammonia using molecular imprinting technique.Sensors and Actuators B: Chemical, 297, Article126668-(2019)
Sholl DS
Lawton TJ et al., Long Range Chiral Imprinting of Cu(110) by Tartaric Acid.The Journal of Physical Chemistry C, 117, (43), 22290-22297, (2013)
Shon HK
Yun YH et al., Preparation and characterization of molecularly imprinted polymers for the selective separation of 2, 4-dichlorophenoxyacetic acid.Journal of Materials Science, 44, (22), 6206-6211, (2009)
Shoparwe NF
Che Lah NF et al., The role of porogen-polymer complexation in atrazine imprinted polymer to work as an electrochemical sensor in water.Journal of Environmental Chemical Engineering, 7, (6), Article103500-(2019)
Shoravi S
Nicholls IA et al., Can we rationally design molecularly imprinted polymers?Analytica Chimica Acta, 435, (1), 9-18, (2001)
Hedin-Dahlström J et al., Stereoselective reduction of menthone by molecularly imprinted polymers.
Tetrahedron: Asymmetry, 15, (15), 2431-2436, (2004)
Nicholls IA et al., Rational design of biomimetic molecularly imprinted materials: theoretical and computational strategies for guiding nanoscale structured polymer development.
Analytical and Bioanalytical Chemistry, 400, (6), 1771-1786, (2011)
Olsson GD et al., Mechanisms underlying molecularly imprinted polymer molecular memory and the role of crosslinker: resolving debate on the nature of template recognition in phenylalanine anilide imprinted polymers.
Journal of Molecular Recognition, 25, (2), 69-73, (2012)
Nicholls IA et al., Book chapter, Rational Molecularly Imprinted Polymer Design: Theoretical and Computational Strategies,
In: Molecular Imprinting: Principles and Applications of Micro- and Nanostructure Polymers, Ye L (Ed.) Taylor and Francis Group, LLC: Boca Raton, Fl, Ch. 3, 71-104, (2013)
Shoravi S et al., On the Influence of Crosslinker on Template Complexation in Molecularly Imprinted Polymers: A Computational Study of Prepolymerization Mixture Events with Correlations to Template-Polymer Recognition Behavior and NMR Spectroscopic Studies.
International Journal of Molecular Sciences, 15, (6), 10622-10634, (2014)
Shoravi S et al., In silico screening of molecular imprinting prepolymerization systems: oseltamivir selective polymers through full-system molecular dynamics-based studies.
Organic & Biomolecular Chemistry, 14, (18), 4210-4219, (2016)
Shosenji H
Koide Y et al., Selective adsorption of metal ions to surface-template resins prepared by emulsion polymerization using 10-(p-vinylphenyl)decanoic acid.Bulletin of the Chemical Society of Japan, 69, (1), 125-130, (1996)
Koide Y et al., Adsorption of metal ions to surface-template resins prepared with amphiphilic styrene monomers bearing amino carboxylic acid.
Bulletin of the Chemical Society of Japan, 71, (4), 789-796, (1998)
Koide Y et al., Book chapter, Selective adsorption of metal ions to surface-templated resins prepared by emulsion polymerization using a functional surfactant,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 18, 264-277, (1998)
Shou D
Li WX et al., A nanocomposite consisting of an amorphous seed and a molecularly imprinted covalent organic framework shell for extraction and HPLC determination of nonsteroidal anti-inflammatory drugs.Microchimica Acta, 186, (2), Article76-(2019)
Shrivastav A
Shrivastav A et al., Surface Plasmon Resonance-Based Fiber Optic Sensor for the Detection of Ascorbic Acid Utilizing Molecularly Imprinted Polyaniline Film.Plasmonics, 10, (6), 1853-1861, (2015)
Shrivastav AM
Shrivastav AM et al., Fiber optic SPR sensor for the detection of melamine using molecular imprinting.Sensors and Actuators B: Chemical, 212, 404-410, (2015)
Shrivastav AM et al., Localized and propagating surface plasmon resonance based fiber optic sensor for the detection of tetracycline using molecular imprinting.
Materials Research Express, 2, (3), 035007-(2015)
Shrivastav AM, Proceeding, Molecularly Imprinted Fiber Optic SPR Sensor for Parathion Methyl Detection,
Article:JW2A, (2015)
Agrawal H et al., Surface plasmon resonance based optical fiber sensor for atrazine detection using molecular imprinting technique.
Sensors and Actuators B: Chemical, 227, 204-211, (2016)
Gupta BD et al., Proceeding, Fiber optic SPR nanosensor for erythromycin detection using molecularly imprinted nanoparticles,
1-2, (2016)
Gupta BD et al., Surface Plasmon Resonance-Based Fiber Optic Sensors Utilizing Molecular Imprinting.
Sensors, 16, (9), ArticleNo1381-(2016)
Shrivastav AM et al., Fiber optic profenofos sensor based on surface plasmon resonance technique and molecular imprinting.
Biosensors and Bioelectronics, 79, 150-157, (2016)
Shrivastav AM et al., A localized and propagating SPR, and molecular imprinting based fiber-optic ascorbic acid sensor using an in situ polymerized polyaniline-Ag nanocomposite.
Nanotechnology, 27, (34), ArticleNo345501-(2016)
Shrivastav AM et al., SPR and Molecular Imprinting-Based Fiber-Optic Melamine Sensor With High Sensitivity and Low Limit of Detection.
IEEE Journal on Selected Topics in Quantum Electronics, 22, (4), ArticleNo6900207-(2016)
Gupta BD et al., Book chapter, Molecular-Imprinting-Based Sensors,
In: Optical Sensors for Biomedical Diagnostics and Environmental Monitoring, Gupta BD, Shrivastav AM, Usha SP (Eds.) CRC Press: Boca Raton, Ch. 6, (2017)
Shrivastav AM et al., Highly sensitive and selective erythromycin nanosensor employing fiber optic SPR/ERY imprinted nanostructure: Application in milk and honey.
Biosensors and Bioelectronics, 90, 516-524, (2017)
Usha SP et al., A contemporary approach for design and characterization of fiber-optic-cortisol sensor tailoring LMR and ZnO/PPY molecularly imprinted film.
Biosensors and Bioelectronics, 87, 178-186, (2017)
Shrivastav AM et al., Ion-imprinted nanoparticles for the concurrent estimation of Pb(II) and Cu(II) ions over a two channel surface plasmon resonance-based fiber optic platform.
Journal of Biomedical Optics, 23, (1), ArticleNo017001-(2018)
Shrivastav AM et al., Hypersensitive and selective biosensing based on microfiber interferometry and molecular imprinted nanoparticles.
Biosensors and Bioelectronics, 141, Article111347-(2019)
Shrivastava A
Saksena K et al., Chiral analysis of ascorbic acid in bovine serum using ultrathin molecular imprinted polyaniline/graphite electrode.Journal of Electroanalytical Chemistry, 795, 103-109, (2017)
Shriwastav A
Sharma D et al., Studies on Bacterial Proteins Corona Interaction with Saponin Imprinted ZnO Nanohoneycombs and Their Toxic Responses.ACS Applied Materials & Interfaces, 7, (43), 23848-23856, (2015)
Shu C
Ji SL et al., A hollow porous molecularly imprinted polymer as a sorbent for the extraction of 7 macrolide antibiotics prior to their determination by HPLC-MS/MS.Microchimica Acta, 185, (3), ArticleNo203-(2018)
Shu D
Yang JN et al., Preferential catalytic ozonation of p-nitrophenol by molecularly imprinted Fe3O4/SiO2 core-shell magnetic composites.Water Science & Technology, 69, (1), 170-176, (2014)
Shu H
Luo ZM et al., Study of the allergenic benzypenicilloyl-HSA and its specific separation from human plasma by a pre-designed hybrid imprinted membrane.RSC Advances, 6, (19), 15549-15557, (2016)
Ge YH et al., Selective analysis of aristolochic acid I in herbal medicines by dummy molecularly imprinted solid-phase extraction and HPLC.
Journal of Separation Science, 40, (13), 2791-2799, (2017)
Guo PQ et al., On-Line two dimensional liquid chromatography based on skeleton type molecularly imprinted column for selective determination of sulfonylurea additive in Chinese patent medicines or functional foods.
Journal of Pharmaceutical and Biomedical Analysis, 146, 292-301, (2017)
Xu XY et al., Fabrication of a novel magnetic mesoporous molecularly imprinted polymer based on pericarpium granati-derived carrier for selective absorption of bromelain.
Food Chemistry, 256, 91-97, (2018)
Ge YH et al., Combined magnetic porous molecularly imprinted polymers and deep eutectic solvents for efficient and selective extraction of aristolochic acid I and II from rat urine.
Materials Science and Engineering: C, 97, 650-657, (2019)
Guo PQ et al., Monodisperse molecularly imprinted microsphere cartridges coupled with HPLC for selective analysis of dexamethasone and hydrocortisone in cosmetics by using matrix solid-phase dispersion.
Analytical Methods, 11, (29), 3687-3696, (2019)
Luo ZM et al., Molecularly imprinted polymer solid-phase microextraction coupled with ultra high performance liquid chromatography and tandem mass spectrometry for rapid analysis of pyrrolizidine alkaloids in herbal medicine.
Journal of Separation Science, 42, (21), 3352-3362, (2019)
Bashir K et al., Synthesis, characterization, and application of griseofulvin surface molecularly imprinted polymers as the selective solid phase extraction sorbent in rat plasma samples.
Arabian Journal of Chemistry, 13, (2), 4082-4091, (2020)
Shu HC
Tai DF et al., A Direct Immersion System for Peptide Enrichment.Journal of the Chinese Chemical Society, 59, (3), 338-344, (2012)
Shu HY
Luo XB et al., Novel Cu (II) magnetic ion imprinted materials prepared by surface imprinted technique combined with a sol-gel process.Journal of Hazardous Materials, 192, (3), 949-955, (2011)
Luo XB et al., A magnetic copper(II)-imprinted polymer for the selective enrichment of trace copper(II) ions in environmental water.
Microchimica Acta, 179, (3), 283-289, (2012)
Shu L
Cao XW et al., Improving esterification activity of Burkholderia cepacia lipase encapsulated in silica by bioimprinting with substrate analogues.Process Biochemistry, 44, (2), 177-182, (2009)
Shu PY
Tai DF et al., Artificial receptors in serologic tests for the early diagnosis of dengue virus infection.Clinical Chemistry, 52, (8), 1486-1491, (2006)
Shu SH
Zhou MC et al., Determination of Phosphorothioate Pesticides in Environmental Water by Molecularly Imprinted Matrix Solid-Phase Dispersion Coupled with Gas Chromatography and a Nitrogen Phosphorus Detector.Instrumentation Science & Technology, 43, (6), 669-680, (2015)
Zhou MC et al., Molecularly Imprinted Nanomicrospheres as Matrix Solid-Phase Dispersant Combined with Gas Chromatography for Determination of Four Phosphorothioate Pesticides in Carrot and Yacon.
Journal of Analytical Methods in Chemistry, 2015, ArticleID385167-(2015)
Shu T
Wu ZL et al., Effective recovery of trans-resveratrol from the leaching solution of muscat grape pomace by developing a novel technology of foam fractionation.Journal of Food Engineering, 241, 41-50, (2019)
Shu XW
Shu XW et al., Synthesis of surface ion-imprinted magnetic microsphere for efficient sorption of perrhenate: A structural surrogate for pertechnetate.Journal of Molecular Liquids, 211, 621-627, (2015)
Shu Y
Chen J et al., Detection of Organophosphorus Pesticide Residues in Leaf Lettuce and Cucumber Through Molecularly Imprinted Solid-Phase Extraction Coupled to Gas Chromatography.Food Analytical Methods, 10, (10), 3452-3461, (2017)
Wang J et al., A novel metronidazole electrochemical sensor based on surface imprinted vertically cross-linked two-dimensional Sn3O4 nanoplates.
Analytical Methods, 10, (41), 4985-4994, (2018)
Wang J et al., High sensitive visible light photoelectrochemical sensor based on in-situ prepared flexible Sn3O4 nanosheets and molecularly imprinted polymers.
Sensors and Actuators B: Chemical, 271, 215-224, (2018)
Yang XY et al., Dual Functional Molecular Imprinted Polymer-Modified Organometal Lead Halide Perovskite: Synthesis and Application for Photoelectrochemical Sensing of Salicylic Acid.
Analytical Chemistry, 91, (15), 9356-9360, (2019)
Xiong XX et al., In situ grown TiO2 nanorod arrays functionalized by molecularly imprinted polymers for salicylic acid recognition and detection.
Journal of Electroanalytical Chemistry, 873, Article114394-(2020)
Yang XY et al., Molecularly imprinted polymers and PEG double engineered perovskite: an efficient platform for constructing aqueous solution feasible photoelectrochemical sensor.
Sensors and Actuators B: Chemical, 304, Article127321-(2020)
Shu YJ
Liu Y et al., Application of Molecular Imprinting and Fluorescence Analysis Techniques in Explosive Detection.Progress In Chemistry, 21, (12), 2712-2717, (2009)
Shu YP
Zhao XY et al., Selective recognition of Triamterene in biological samples by molecularly imprinted monolithic column with a pseudo template employed.Journal of Separation Science, 36, (9-10), 1501-1508, (2013)
Shu YQ
Shu YQ et al., Synthesis and characterization of surface molecularly imprinted polymers of cloprop on graphite oxide.Chinese Journal of Analysis Laboratory, 36, (3), 316-321, (2017)
Shu YS
Xiong XX et al., In situ grown TiO2 nanorod arrays functionalized by molecularly imprinted polymers for salicylic acid recognition and detection.Journal of Electroanalytical Chemistry, 873, Article114394-(2020)
Shuai DM
Deng SB et al., Selective sorption of perfluorooctane sulfonate on molecularly imprinted polymer adsorbents.Frontiers of Environmental Science & Engineering in China, 3, (2), 171-177, (2009)
Shuanghong W
Shuanghong W et al., Proceeding, An Odor Visualization Film Based on Multi Colors Fluorescent Microbeads and Single Color Fluorescent Multi Microbeads,1-4, (2018)
Shughart EL
Tao Z et al., Proceeding, Biomolecule-less sensors for biomolecules based on templated xerogel platforms,Chan WCW, Yu K, Krull UJ, Hornsey RI, Wilson BC, Weersink RA (Eds.), Art. No.-59690F, (2005)
Shughart EL et al., Site selectively templated and tagged xerogels for chemical sensors.
Analytical Chemistry, 78, (9), 3165-3170, (2006)
Tao ZY et al., Templated xerogels as platforms for biomolecule-less biomolecule sensors.
Analytica Chimica Acta, 564, (1), 59-65, (2006)
Shui LL
Liu ZP et al., Molecularly imprinted polymer decorated 3D-framework of functionalized multi-walled carbon nanotubes for ultrasensitive electrochemical sensing of Norfloxacin in pharmaceutical formulations and rat plasma.Sensors and Actuators B: Chemical, 288, 363-372, (2019)
Shui RJ
Zhou L et al., Dual Ion-Imprinted Mesoporous Silica for Selective Adsorption of U(VI) and Cs(I) through Multiple Interactions.ACS Applied Materials & Interfaces, 13, (5), 6322-6330, (2021)
Shukla SK
Das TR et al., Book chapter, Metal-Organic Framework-Based Artificial Antibodies for Sensing Applications,In: Metal-Organic Frameworks for Environmental Sensing, Kumar SS, Ghosh P, Singh L (Eds.) American Chemical Society: Washington DC, Ch. 6, 155-175, (2021)
Shukla V
Harijan M et al., Design of molecularly imprinted sensor for detection of typhoid using immunoinformatics and molecular imprinting.Biosensors and Bioelectronics: X, 10, Article100090-(2022)
Shukor Y
Ashley J et al., The use of differential scanning fluorimetry in the rational design of plastic antibodies for protein targets.Analyst, 141, (23), 6463-6470, (2016)
Ashley J et al., Synthesis of Molecularly Imprinted Polymer Nanoparticles for [alpha]-Casein Detection Using Surface Plasmon Resonance as a Milk Allergen Sensor.
ACS Sensors, 3, (2), 418-424, (2018)
Shumyantseva VV
Shumyantseva VV et al., Molecularly imprinted polymers in electro analysis of proteins.Biomeditsinskaya Khimiya, 61, (3), 325-331, (2015)
Shumyantseva VV et al., Electrosynthesis and binding properties of molecularly imprinted poly-o-phenylenediamine as artificial antibodies for electroanalysis of myoglobin.
Doklady Biochemistry and Biophysics, 464, (1), 275-278, (2015)
Shumyantseva VV et al., Molecularly imprinted polymers (MIP) in electroanalysis of proteins.
Biochemistry (Moscow) Supplement Series B: Biomedical Chemistry, 10, (2), 145-151, (2016)
Shumyantseva VV et al., Electrosynthesis and binding properties of molecularly imprinted poly-o-phenylenediamine for selective recognition and direct electrochemical detection of myoglobin.
Biosensors and Bioelectronics, 86, 330-336, (2016)
Shumyantseva VV et al., Electroanalysis of myoglobin based on electropolymerized molecularly imprinted polymer poly-o-phenylenediamine and carbon nanotubes/screen printed electrode.
Doklady Biochemistry and Biophysics, 468, (1), 213-216, (2016)
Shumyantseva VV et al., Polymer matrices with molecular memory as affine adsorbents for the determination of myoglobin as a cardiac marker of acute myocardial infarction by voltammetry.
Journal of Analytical Chemistry, 72, (4), 410-414, (2017)
Shumyantseva VV et al., Molecular imprinting coupled with electrochemical analysis for plasma samples classification in acute myocardial infarction diagnostic.
Biosensors and Bioelectronics, 99, 216-222, (2018)
Shustak G
Shustak G et al., Application of sol-gel technology for electroanalytical sensing.Electroanalysis, 15, (5-6), 398-408, (2003)
Shutov RV
Shutov RV et al., Introducing MINA - The Molecularly Imprinted Nanoparticle Assay.Small, 10, (6), 1086-1089, (2014)
Si B
Si B et al., Molecularly imprinted polymers for the selective detection of multi-analyte neurotransmitters.Microelectronic Engineering, 187-188, 58-65, (2018)
Si B et al., Recent Advances in the Detection of Neurotransmitters.
Chemosensors, 6, (1), ArticleNo1-(2018)
Ahmad HMN et al., Proceeding, Non-Enzymatic Electrochemical Detection Of Glutamate Using Templated Polymer-Based Target Receptors,
613-616, (2019)
Si BJ
Si BJ et al., New-Generation of Molecular Imprinting Technique.Progress In Chemistry, 21, (9), 1813-1819, (2009)
Si BJ et al., Non-hydrolytic Sol-gel Methodology to Prepare a Molecularly Imprinted, Organic-silica Hybrid-based Stir Bar for Recognition of Sulfonylurea Herbicides.
Chinese Journal of Chemistry, 29, (11), 2487-2494, (2011)
Si HJ
Huang WH et al., Photoresponsive molecularly imprinted polymers based on 4-[(4-methacryloyloxy)phenylazo] benzenesulfonic acid for the determination of sulfamethazine.Journal of Separation Science, 44, (13), 2536-2544, (2021)
Si HT
Sun ZC et al., Preparation and Characterization of Vanillin Molecularly Imprinted Polymer Microspheres.Modern Food Science and Technology, 31, (9), 132-137, (2015)
Wang S et al., Preparation of magnetic molecularly imprinted polymer beads and their recognition for baicalein.
RSC Advances, 5, (11), 8028-8036, (2015)
Si HT et al., Synthesis of magnetic molecularly imprinted nanoparticles and their selective adsorption for dibenzothiophene.
Journal of Functional Materials, 47, (S1), 188-192, (2016)
Si HZ
Si HZ et al., QSAR Model for Prediction Capacity Factor of Molecular Imprinting Polymer Based on Gene Expression Programming.QSAR & Combinatorial Science, 26, (1), 41-50, (2007)
Si NC
Luo HY et al., Magnetic Molecular Imprinted Polymer Using [beta]-Cyclodextrin and Methacrylic Acid As Monomers for Selective Adsorption of Thymol.Fresenius Environmental Bulletin, 22, (11), 3264-3273, (2013)
Yu XN et al., Preparation of rare earth metal ion/TiO2Hal-conducting polymers by ions imprinting technique and its photodegradation property on tetracycline.
Applied Clay Science, 99, 125-130, (2014)
Luo HY et al., Molecularly imprinted open porous membranes made from Pickering W/O HIPEs for selective adsorption and separation of methyl 4-hydroxybenzoate.
Chinese Chemical Letters, 26, (8), 1036-1041, (2015)
Zhou WC et al., Preparation and Performance of a Novel Magnetic Imprinted TiO2 Photocatalyst.
Nanoscience and Nanotechnology Letters, 7, (8), 678-684, (2015)
Yang L et al., Thermosensitive/magnetic molecularly imprinted polymers prepared by Pickering emulsion polymerization for selective separation of bifenthrin.
Desalination and Water Treatment, 57, (40), 18927-18938, (2016)
Si SH
Xie YL et al., Molecular imprinting and adsorption of bovine serum albumin on nanocrystalline titania films.Chinese Journal of Analytical Chemistry, 35, (4), 555-558, (2007)
Cai ZF et al., Molecular imprinting and adsorption of metallothionein on nanocrystalline titania membranes.
Applied Surface Science, 254, (15), 4457-4461, (2008)
Chen X et al., Potentiometric urea biosensor based on immobilization of urease onto molecularly imprinted TiO2 film.
Journal of Electroanalytical Chemistry, 635, (1), 1-6, (2009)
Wang YH et al., Preparation and Application of Atrazine Molecularly Imprinted Solid Phase Extraction Pillar.
Chinese Journal of Analytical Chemistry, 38, (5), 678-682, (2010)
Zhang CJ et al., A highly selective photoelectrochemical biosensor for uric acid based on core-shell Fe3O4@C nanoparticle and molecularly imprinted TiO2.
Biosensors and Bioelectronics, 65, 115-120, (2015)
Zhang CJ et al., Design of molecularly imprinted TiO2/carbon aerogel electrode for the photoelectrochemical determination of atrazine.
Sensors and Actuators B: Chemical, 211, 206-212, (2015)
Zhang CJ et al., Facile synthesis of Fe3O4/SiO2/molecularly imprinted hydroxyapatite nanocomposite and its enhanced photocatalytic degradation of target contaminant.
Separation and Purification Technology, 143, 88-93, (2015)
Si XJ
Huo SX et al., Synthesis and Characterization of p-Hydroxyacetophenone Molecularly Imprinted Polymer.Journal of Instrumental Analysis, 27, (8), 866-869, (2008)
Duan DD et al., A novel molecularly imprinted electrochemical sensor based on double sensitization by MOF/CNTs and Prussian blue for detection of 17[beta]-estradiol.
Bioelectrochemistry, 129, 211-217, (2019)
Si XX
Wang D et al., Molecularly imprinted polymer-based fiber array extraction of eight estrogens from environmental water samples prior to high-performance liquid chromatography analysis.Microchemical Journal, 159, Article105376-(2020)
Si XY
Wang P et al., Application of 6-APA molecular imprinted solid-phase extraction column in the detection of penicillins in milk.Food and Fermentation Industries, 42, (4), 183-188, (2016)
Si Y
Pei DN et al., Electrochemical Sensing of Bisphenol A on Facet-Tailored TiO2 Single Crystals Engineered by Inorganic-Framework Molecular Imprinting Sites.Analytical Chemistry, 90, (5), 3165-3173, (2018)
Si Y et al., Photo-assisted electrochemical detection of bisphenol A in water samples by renewable {001}-exposed TiO2 single crystals.
Water Research, 157, 30-39, (2019)
Si YC
Liu B et al., The application of molecular imprinted polymer in electrochemical sensor.Acta Academiae Medicinae CPAPF, 14, (6), 536-538, (2005)
Si YM
Chen MJ et al., A hollow visible-light-responsive surface molecularly imprinted polymer for the detection of chlorpyrifos in vegetables and fruits.Food Chemistry, 355, Article129656-(2021)
Si ZH
Si ZH et al., Thermo-Responsive Molecularly Imprinted Hydrogels for Selective Adsorption and Controlled Release of Phenol From Aqueous Solution.Frontiers in Chemistry, 6, Article674-(2019)
Siamwiza MN
Munyati MO et al., Polyaniline nanoparticles for the selective recognition of aldrin: Synthesis, characterization, and adsorption properties.Synthetic Metals, 233, 79-85, (2017)
Siangproh W
Jesadabundit W et al., Enzyme-free impedimetric biosensor-based molecularly imprinted polymer for selective determination of L-hydroxyproline.Biosensors and Bioelectronics, 191, Article113387-(2021)
Sianipar A
Sianipar A et al., Effect Of Degree Binary Complex Of Imprint Ion On The Extraction Of Zircon Ion.IOSR Journal of Applied Chemistry, 1, (4), 15-19, (2012)
Sibrian-Vazquez M
Spivak DA et al., Synthesis of amino-acid based crosslinking monomers for molecular imprinting.Abstracts of Papers of the American Chemical Society, 221, (ORGN), 108-108, (2001)
Spivak DA et al., Development of an aspartic acid-based cross-linking monomer for improved bioseparations.
Bioseparation, 10, (6), 331-336, (2002)
Sibrian-Vazquez M et al., Synthesis and characterization of a novel L-serine based crosslinking monomer for molecular imprinting.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 90-90, (2003)
Sibrian-Vazquez M et al., Enhanced enantioselectivity of molecularly imprinted polymers formulated with novel cross-linking monomers.
Macromolecules, 36, (14), 5105-5113, (2003)
Sibrian-Vazquez M et al., Improving the strategy and performance of molecularly imprinted polymers using cross-linking functional monomers.
Journal of Organic Chemistry, 68, (25), 9604-9611, (2003)
Spivak DA et al., Shape selectivity in non-covalently imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 712-712, (2003)
Sibrian-Vazquez M et al., Characterization of molecularly imprinted polymers employing crosslinkers with nonsymmetric polymerizable groups.
Journal of Polymer Science Part A: Polymer Chemistry, 42, (15), 3668-3675, (2004)
Sibrian-Vazquez M et al., Molecular imprinting made easy.
Journal of the American Chemical Society, 126, (25), 7827-7833, (2004)
Spivak DA et al., Development of one monomer molecularly imprinted polymers (OmniMIPs).
Polymer Preprints, 46, (2), 1103-1104, (2005)
Spivak DA et al., Development of one monomer molecularly imprinted polymers (OMNiMIPs).
Abstracts of Papers of the American Chemical Society, 230, 297-POLY, (2005)
Spivak DA et al., Omnimips: One monomer molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 229, U526-U527, (2005)
Spivak DA et al., Proceeding, Discovery and Development of OMNiMIPs: One MoNomer Molecularly Imprinted Polymers,
Guymon A, Hoyle C, Shirai M, Nelson E (Eds.), Paper No. 1005-Q05-05, (2007)
Wang JL et al., Templated polymers enable selective capture and release of lysophosphatidic acid in human plasma via optimization of non-covalent binding to functional monomers.
Analyst, 140, (22), 7572-7577, (2015)
Sicron T
Shahar T et al., Nanosphere molecularly imprinted polymers doped with gold nanoparticles for high selectivity molecular sensors.Nano Research, 10, (3), 1056-1063, (2017)
Sid Kalal H
Sid Kalal H et al., The Pre-concentration and determination of Iridium and Palladium in environmental water by imprinted polymer-based method.International Journal of Environmental Science and Technology, 10, (5), 1091-1102, (2013)
Sid Kalal H et al., Adsorption of Strontium (II) on new ion-imprinted solid-phase support: determination, isotherms, thermodynamic and kinetic studies.
Caspian Journal of Environmental Sciences, 11, (1), 53-63, (2013)
Siddique S
Gore PM et al., Ion-imprinted electrospun nanofibers of chitosan/1-butyl-3-methylimidazolium tetrafluoroborate for the dynamic expulsion of thorium (IV) ions from mimicked effluents.Environmental Science and Pollution Research, 25, (4), 3320-3334, (2018)
Siddique SK
Rajhans A et al., Ion-imprinted nanofibers of PVDF/1-butyl-3-methylimidazolium tetrafluoroborate for dynamic recovery of europium (III) ions from mimicked effluent.Journal of Environmental Chemical Engineering, 7, (3), Article103068-(2019)
Siddiquee S
Rovina K et al., A review of recent advances in melamine detection techniques.Journal of Food Composition and Analysis, 43, 25-38, (2015)
Rovina K et al., Extraction, Analytical and Advanced Methods for Detection of Allura Red AC (E129) in Food and Beverages Products.
Frontiers in Microbiology, 7, ArticleNo798-(2016)
Rovina K et al., A Review of Extraction and Analytical Methods for the Determination of Tartrazine (E 102) in Foodstuffs.
Critical Reviews in Analytical Chemistry, 47, (4), 309-324, (2017)
Siddiqui A
Allender CJ et al., Separation of individual antiviral nucleotide prodrugs from synthetic mixtures using cross-reactivity of a molecularly imprinted stationary phase.Analytica Chimica Acta, 435, (1), 107-113, (2001)
Siddiqui SH
Bazi M et al., Investigation of Isotherm, Kinetics and Thermodynamics of Ciprofloxacin Adsorption by Molecularly Imprinted Polymer from Aqueous Solutions.International Journal of Pharmaceutical Investigation, 11, (3), 269-273, (2021)
Siddiqui VU
Ahmad I et al., Synthesis and characterization of molecularly imprinted ferrite (SiO2@Fe2O3) nanomaterials for the removal of nickel (Ni2+ ions) from aqueous solution.Journal of Materials Research and Technology, 8, (1), 1400-1411, (2019)
Siddiqui WA
Ahmad I et al., Synthesis and characterization of molecular imprinted nanomaterials for the removal of heavy metals from water.Journal of Materials Research and Technology, 7, (3), 270-282, (2018)
Ahmad I et al., Synthesis and characterization of molecularly imprinted magnetite nanomaterials as a novel adsorbent for the removal of heavy metals from aqueous solution.
Journal of Materials Research and Technology, 8, (5), 4239-4252, (2019)
Ahmad I et al., Synthesis and characterization of molecularly imprinted ferrite (SiO2@Fe2O3) nanomaterials for the removal of nickel (Ni2+ ions) from aqueous solution.
Journal of Materials Research and Technology, 8, (1), 1400-1411, (2019)
Sidorchuk II
Efendiev AA et al., Selective polymer sorbents on the basis of copolymers of dialkyl esters of vinylphosphonic acid and acrylic acid.Reactive Polymers, Ion Exchangers, Sorbents, 1, (4), 295-300, (1983)
Siedlaczek G
Biffis A et al., The synthesis, characterization and molecular recognition properties of imprinted microgels.Macromolecular Chemistry And Physics, 202, (1), 163-171, (2001)
Siegbahn N
Glad M et al., Use of silane monomers for molecular imprinting and enzyme entrapment in polysiloxane-coated porous silica.Journal of Chromatography, 347, (1), 11-23, (1985)
Siegel D
Siegel D, Applications of reversible covalent chemistry in analytical sample preparation.Analyst, 137, (23), 5457-5482, (2012)
Sieger P
Heimink J et al., Two-dimensional pH mapping of release kinetics of silica-encapsulated drugs.Journal of Pharmaceutical Sciences, 100, (10), 4401-4412, (2011)
Siele T
Egan TJ et al., Nucleation of calcium oxalate crystals on an imprinted polymer surface from pure aqueous solution and urine.Journal of Biological Inorganic Chemistry, 9, (2), 195-202, (2004)
Siemann M
Siemann M et al., Selective recognition of the herbicide atrazine by noncovalent molecularly imprinted polymers.Journal of Agricultural and Food Chemistry, 44, (1), 141-145, (1996)
Senholdt M et al., Determination of cyclosporin A and metabolites total concentration using a molecularly imprinted polymer based radioligand binding assay.
Analytical Letters, 30, (10), 1809-1821, (1997)
Siemann M et al., Separation and detection of macrolide antibiotics by HPLC using macrolide-imprinted synthetic polymers as stationary phases.
Journal of Antibiotics, 50, (1), 89-91, (1997)
Sierra I
Gańán J et al., Development of a molecularly imprinted polymer-matrix solid-phase dispersion method for selective determination of [beta]-estradiol as anabolic growth promoter in goat milk.Analytical and Bioanalytical Chemistry, 403, (10), 3025-3029, (2012)
Morante-Zarcero S et al., Comparative HPLC methods for [beta]-blockers separation using different types of chiral stationary phases in normal phase and polar organic phase elution modes. Analysis of propranolol enantiomers in natural waters.
Journal of Pharmaceutical and Biomedical Analysis, 62, (1), 33-41, (2012)
Morante-Zarcero S et al., Simultaneous Enantiomeric Determination of Propranolol, Metoprolol, Pindolol, and Atenolol in Natural Waters by HPLC on New Polysaccharide-Based Stationary Phase using a Highly Selective Molecularly Imprinted Polymer Extraction.
Chirality, 24, (10), 860-866, (2012)
Gańán J et al., Evaluation of a molecularly imprinted polymer for determination of steroids in goat milk by matrix solid phase dispersion.
Talanta, 126, 157-162, (2014)
Pérez-Quintanilla D et al., Factors affecting Hg(II) adsorption on hybrid nanostructured silicas: influence of the synthesis conditions.
Journal of Porous Materials, 21, (1), 71-80, (2014)
Pérez-Quintanilla D et al., Preparation of hybrid organic-inorganic mesoporous silicas applied to mercury removal from aqueous media: Influence of the synthesis route on adsorption capacity and efficiency.
Journal of Colloid and Interface Science, 472, 126-134, (2016)
Sierra I et al., Approaches for enantioselective resolution of pharmaceuticals by miniaturised separation techniques with new chiral phases based on nanoparticles and monolithis.
Electrophoresis, 37, (19), 2538-2553, (2016)
Casado N et al., Current development and applications of ordered mesoporous silicas and other sol-gel silica-based materials in food sample preparation for xenobiotics analysis.
TrAC Trends in Analytical Chemistry, 88, 167-184, (2017)
Gańán J et al., Evaluation of mesoporous imprinted silicas as MSPD selective sorbents of ketoprofen in powder milk.
Materials Letters, 197, 5-7, (2017)
Sierra MA
Gallego-Gallegos M et al., Synthesis of a pH dependent covalent imprinted polymer able to recognize organotin species.Analyst, 131, (1), 98-105, (2006)
Sierra-Martin B
Sierra-Martin B et al., Inorganic/polymer hybrid nanoparticles for sensing applications.Advances in Colloid and Interface Science, 233, 25-37, (2016)
Sierra-Martín B
Fernández-Barbero A et al., Gels and microgels for nanotechnological applications.Advances in Colloid and Interface Science, 147-148, 88-108, (2009)
Sievens-Figueroa L
Clapper JD et al., Photopolymerization in Polymer Templating.Chemistry of Materials, 20, (3), 768-781, (2008)
Siewing A
Siewing A, The Extraction of Acid NSAIDs from Muscle Tissue Using Molecularly Imprinted Polymer SPE.The Reporter, 46, (May), 16-17, (2011)
Siewing A, The Extraction of Acid NSAIDs from Muscle Tissue using Molecularly Imprinted Polymer SPE.
The Reporter, 29, (1), 18-19, (2011)
Signore G
Cecchini A et al., In Vivo Recognition of Human Vascular Endothelial Growth Factor by Molecularly Imprinted Polymers.Nano Letters, 17, (4), 2307-2312, (2017)
Sigolaeva LV
Shumyantseva VV et al., Electrosynthesis and binding properties of molecularly imprinted poly-o-phenylenediamine as artificial antibodies for electroanalysis of myoglobin.Doklady Biochemistry and Biophysics, 464, (1), 275-278, (2015)
Shumyantseva VV et al., Electrosynthesis and binding properties of molecularly imprinted poly-o-phenylenediamine for selective recognition and direct electrochemical detection of myoglobin.
Biosensors and Bioelectronics, 86, 330-336, (2016)
Shumyantseva VV et al., Electroanalysis of myoglobin based on electropolymerized molecularly imprinted polymer poly-o-phenylenediamine and carbon nanotubes/screen printed electrode.
Doklady Biochemistry and Biophysics, 468, (1), 213-216, (2016)
Shumyantseva VV et al., Polymer matrices with molecular memory as affine adsorbents for the determination of myoglobin as a cardiac marker of acute myocardial infarction by voltammetry.
Journal of Analytical Chemistry, 72, (4), 410-414, (2017)
Shumyantseva VV et al., Molecular imprinting coupled with electrochemical analysis for plasma samples classification in acute myocardial infarction diagnostic.
Biosensors and Bioelectronics, 99, 216-222, (2018)
Siigi H
Okuno H et al., Characterization of overoxidized polypyrrole colloids imprinted with L-lactate and their application to enantioseparation of amino acids.Analytical Chemistry, 74, (16), 4184-4190, (2002)
Siitonen S
Aikio S et al., Disposable (bio)chemical integrated optical waveguide sensors implemented on roll-to-roll produced platforms.RSC Advances, 6, (56), 50414-50422, (2016)
Sijbesma RP
Wietor JL et al., Book chapter, Polymers Formed by Dynamic Combinatorial Chemistry,In: Dynamic Combinatorial Chemistry, Reek JNH, Otto S (Eds.) Wiley-VCH: Weinheim, Germany, Ch. 6, 151-168, (2010)
Sikiti P
Sikiti P et al., Synthesis and characterization of molecularly imprinted polymers for the remediation of PCBs and dioxins in aqueous environments.Journal of Environmental Health Science and Engineering, 12, (1), Article No 82-(2014)
Siklitskaya A
Bartold K et al., Promoting bioanalytical concepts in genetics: A TATA box molecularly imprinted polymer as a small isolated fragment of the DNA damage repairing system.Materials Science and Engineering: C, 100, 1-10, (2019)
Sikorski R
Dickert FL et al., Proceeding, Molecular imprints as artificial antibodies - A new generation of chemical sensors,281-283, (1998)
Dickert FL et al., Proceeding, Chemical microsensors with molecularly imprinted sensitive layers,
Buettgenbach S (Ed.), 114-122, (1998)
Dickert FL et al., Supramolecular strategies in chemical sensing.
Materials Science & Engineering C-Biomimetic And Supramolecular Systems, 10, (1-2), 39-46, (1999)
Dickert FL et al., Book chapter, Development of materials for chemical sensors - From molecular cavities to imprinting techniques,
In: Smart Material Systems, Vincenzini P (Ed.) 175-182, (1999)
Dickert FL et al., Sensors based on fingerprints of neutral and ionic analytes in polymeric materials.
Sensors and Actuators B: Chemical, 76, (1-3), 295-298, (2001)
Dickert FL et al., Proceeding, Moulding of polymers for chemical sensors - Strategies of analyte detection and mixture characterization,
Vo-Dinh T, Buettgenbach S (Eds.), 57-64, (2001)
Latif U et al., Dual and tetraelectrode QCMs using imprinted polymers as receptors for ions and neutral analytes.
Analytical and Bioanalytical Chemistry, 400, (8), 2507-2515, (2011)
Silaghi MC
Sanglar C et al., Study of Prepolymerization Complex Formation in the Synthesis of Steroid-Based Molecularly Imprinted Polymers.Analytical Chemistry, 84, (10), 4481-4488, (2012)
Silaks A
Podjava A et al., Synthesis and sorptive properties of molecularly imprinted polymer for simultaneous isolation of catecholamines and their metabolites from biological fluids.Journal of Liquid Chromatography & Related Technologies, 44, (3-4), 181-188, (2021)
Silberring J
Ceglowski M et al., Molecularly imprinted polymers as selective adsorbents for ambient plasma mass spectrometry.Analytical and Bioanalytical Chemistry, 409, (13), 3393-3405, (2017)
Silion M
Lazar MM et al., Could the porous chitosan-based composite materials have a chance to a "NEW LIFE" after Cu(II) ion binding?International Journal of Biological Macromolecules, 131, 134-146, (2019)
Sillanpää M
Iftekhar S et al., Fabrication of novel metal ion imprinted xanthan gum-layered double hydroxide nanocomposite for adsorption of rare earth elements.Carbohydrate Polymers, 194, 274-284, (2018)
Siluk D
Kaliszan R et al., Molecularly imprinted chromatographySilva AF
Kadhirvel P et al., Imidazolium-based functional monomers for the imprinting of the anti-inflammatory drug naproxen: Comparison of acrylic and sol-gel approaches.Journal of Chromatography A, 1314, 115-123, (2013)
Kadhirvel P et al., Chromatographycally efficient microspherical composites of molecularly imprinted xerogels deposited inside mesoporous silica.
Journal of Chromatography A, 1355, 158-163, (2014)
Kadhirvel P et al., Recognitive nano-thin-film composite beads for the enantiomeric resolution of the metastatic breast cancer drug aminoglutethimide.
Journal of Chromatography A, 1358, 93-101, (2014)
Kadhirvel P et al., Aminoglutethimide-imprinted xerogels in bulk and spherical formats, based on a multifunctional organo-alkoxysilane precursor.
Journal of Chromatography A, 1424, 59-68, (2015)
Ornelas M et al., Naproxen-imprinted xerogels in the micro- and nanospherical forms by emulsion technique.
Journal of Chromatography A, 1422, 43-52, (2015)
Ornelas M et al., Acylated-naproxen as the surface-active template in the preparation of micro- and nanospherical imprinted xerogels by emulsion techniques.
Journal of Chromatography A, 1437, 107-115, (2016)
Perez M et al., Measurement artifacts identified in the UV-vis spectroscopic study of adduct formation within the context of molecular imprinting of naproxen.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 153, 661-668, (2016)
Ferreira VRA et al., Preparation and evaluation of Pb(II)-imprinted fucoidan-based sorbents.
Reactive and Functional Polymers, 115, 53-62, (2017)
Ribeiro JA et al., Electrochemical detection of cardiac biomarker myoglobin using polyphenol as imprinted polymer receptor.
Analytica Chimica Acta, 981, 41-52, (2017)
Ferreira VRA et al., Molecularly imprinted polymers for enhanced impregnation and controlled release of l-tyrosine.
Reactive and Functional Polymers, 131, 283-292, (2018)
Ferreira VRA et al., Cationic imprinting of Pb(II) within composite networks based on bovine or fish chondroitin sulfate.
Journal of Molecular Recognition, 31, (3), ArticleNoe2614-(2018)
Ribeiro JA et al., Disposable electrochemical detection of breast cancer tumour marker CA 15-3 using poly(Toluidine Blue) as imprinted polymer receptor.
Biosensors and Bioelectronics, 109, 246-254, (2018)
Rebelo TSCR et al., Molecularly imprinted polymer SPE sensor for analysis of CA-125 on serum.
Analytica Chimica Acta, 1082, 126-135, (2019)
Silva BVM
Silva BVM et al., An ultrasensitive human cardiac troponin T graphene screen-printed electrode based on electropolymerized-molecularly imprinted conducting polymer.Biosensors and Bioelectronics, 77, 978-985, (2016)
Silva CF
da Silva ATM et al., Efficient molecularly imprinted polymer as a pipette-tip solid-phase sorbent for determination of carvedilol enantiomers in human urine.Journal of Chromatography B, 1061, 399-410, (2017)
Silva CF et al., Rational design of a molecularly imprinted polymer for dinotefuran: theoretical and experimental studies aimed at the development of an efficient adsorbent for microextraction by packed sorbent.
Analyst, 143, (1), 141-149, (2018)
Silva CF et al., Computational study on acetamiprid-molecular imprinted polymer.
Journal of Molecular Modeling, 25, (4), Article104-(2019)
Nascimento TA et al., Magnetic molecularly imprinted conducting polymer for determination of praziquantel enantiomers in milk.
Analyst, 145, (12), 4245-4253, (2020)
Teixeira LS et al., Microextraction by packed molecularly imprinted polymer to selectively determine caffeine in soft and energy drinks.
Microchemical Journal, 158, Article105252-(2020)
Ferreira JB et al., Molecularly imprinted polymers as a selective sorbent for forensic applications in biological samples - a review.
Analytical and Bioanalytical Chemistry, 413, (24), 6013-6036, (2021)
Silva CF et al., Molecularly imprinted polymer for thiacloprid: a theoretical investigation [POLÍMERO DE IMPRESSĂO MOLECULAR PARA O TIACLOPRIDO: UMA INVESTIGAÇĂO TEÓRICA].
Quimica Nova, 43, (10), 1439-1446, (2021)
Teixeira RA et al., Microextraction by packed molecularly imprinted polymer followed by ultra-high performance liquid chromatography for determination of fipronil and fluazuron residues in drinking water and veterinary clinic wastewater.
Microchemical Journal, 168, Article106405-(2021)
Silva CL
Mendonça PV et al., Polymeric bile acid sequestrants - Synthesis using conventional methods and new approaches based on ''controlled''/living radical polymerization.Progress in Polymer Science, 38, (3-4), 445-461, (2013)
Silva CP
Silva CP et al., Processes for the elimination of estrogenic steroid hormones from water: A review.Environmental Pollution, 165, (1), 38-58, (2012)
Silva DG
Felix CSA et al., An on-line system using ion-imprinted polymer for preconcentration and determination of bismuth in seawater employing atomic fluorescence spectrometry.Talanta, 184, 87-92, (2018)
Silva DHS
Pedroso MM et al., Electrochemical sensor for dodecyl gallate determination based on electropolymerized molecularly imprinted polymer.Sensors and Actuators B: Chemical, 253, 180-186, (2017)
Silva F
Azenha M et al., Vapor-phase testing of the memory-effects in benzene- and toluene-imprinted polymers conditioned at elevated temperature.Analytica Chimica Acta, 802, 40-45, (2013)
Ornelas M et al., Synthesis of glycylglycine-imprinted silica microspheres through different water-in-oil emulsion techniques.
Journal of Chromatography A, 1297, 138-145, (2013)
Rebelo TSCR et al., Protein imprinted materials designed with charged binding sites on screen-printed electrode for microseminoprotein-beta determination in biological samples.
Sensors and Actuators B: Chemical, 223, 846-852, (2016)
Rebelo TSCR et al., Protein Imprinted Material electrochemical sensor for determination of Annexin A3 in biological samples.
Electrochimica Acta, 190, 887-893, (2016)
Silva FB
Villis PCM et al., Copper(II) Trace Determination in Aqueous/Ethanolic Medium Using an Ionic Imprinted Hybrid.International Journal of Electrochemical Science, 13, 10564-10586, (2018)
Silva GA
Malafaya PB et al., Drug delivery therapies II.: Strategies for delivering bone regenerating factors.Current Opinion in Solid State & Materials Science, 6, (4), 297-312, (2002)
Silva J
da Silva H et al., Molecularly imprinted sensor for voltammetric detection of norfloxacin.Sensors and Actuators B: Chemical, 219, 301-307, (2015)
Ribeiro CM et al., Application of a nanostructured platform and imprinted sol-gel film for determination of chlorogenic acid in food samples.
Talanta, 156-157, 119-125, (2016)
Silva LM
Silva LM et al., Use of two functional monomers for a new approach to the synthesis of a magnetic molecularly imprinted polymer for ciprofloxacin.Journal of Materials Research and Technology, 15, 511-523, (2021)
Silva LR
Teixeira R et al., Volatile phenols depletion in red wine using molecular imprinted polymers.Journal of Food Science and Technology, 52, (12), 7735-7746, (2015)
Silva M
González-Chomón C et al., Biomimetic contact lenses eluting olopatadine for allergic conjunctivitis.Acta Biomaterialia, 41, 302-311, (2016)
Sierra I et al., Approaches for enantioselective resolution of pharmaceuticals by miniaturised separation techniques with new chiral phases based on nanoparticles and monolithis.
Electrophoresis, 37, (19), 2538-2553, (2016)
Silva MESR
de Oliviera Alves LT et al., Synthesis and characterization of MIP with Phenylalanine for their application in SPE.Polimeros-Ciencia e Tecnologia, 25, (6), 596-605, (2015)
Silva MR
Fumes BH et al., Recent advances and future trends in new materials for sample preparation.TrAC Trends in Analytical Chemistry, 71, 9-25, (2015)
Silva MSV
Pacheco JG et al., Molecularly imprinted electrochemical sensor for the point-of-care detection of a breast cancer biomarker (CA 15-3).Sensors and Actuators B: Chemical, 256, 905-912, (2018)
Silva RC
Anacleto S et al., Assessment of the Performance of Solid Phase Extraction Based on Pipette Tip Employing a Hybrid Molecularly Imprinted Polymer as an Adsorbent for Enantioselective Determination of Albendazole Sulfoxide.Journal of Chromatographic Science, 57, (7), 671-678, (2019)
Pereira AC et al., Synthesis and characterization of molecularly imprinted polymer for ethinylestradiol.
Chemical Papers, 73, (1), 141-149, (2019)
Silva RGC
Silva RGC et al., Sol-gel molecular imprinted ormosil for solid-phase extraction of methylxanthines.Journal of Chromatography A, 1114, (2), 216-223, (2006)
Pilau EJ et al., Molecularly imprinted sol-gel silica for solid phase extraction of phenobarbital.
Journal of the Brazilian Chemical Society, 19, (6), 1136-1143, (2008)
Augusto F et al., New sorbents for extraction and microextraction techniques.
Journal of Chromatography A, 1217, (16), 2533-2542, (2010)
Silva RGC et al., Molecularly imprinted silica as a selective SPE sorbent for triazine herbicides.
Journal of Separation Science, 33, (9), 1319-1324, (2010)
Silva SO
Queirós RB et al., Proceeding, Optical cavity fibre sensor for detection of microcystin-LR in water,Santos JL, Culshaw B, Lopez-Higuera JM, MacPherson WN (Eds.), Art. No. 76531N, (2010)
Queirós RB et al., Microcystin-LR detection in water by the Fabry-Pérot interferometer using an optical fibre coated with a sol-gel imprinted sensing membrane.
Biosensors and Bioelectronics, 26, (9), 3932-3937, (2011)
Silva TI
Kamel AH et al., A Solid Binding Matrix/Mimic Receptor-Based Sensor System for Trace Level Determination of Iron Using Potential Measurements.International Journal of Electrochemistry, 2011, Article ID 643683-(2011)
Moreira FTC et al., Host-tailored sensors for leucomalachite green potentiometric measurements.
Journal of Chemistry, 2013, Article ID 605403-(2013)
Silveira G
Villis PCM et al., Copper(II) Trace Determination in Aqueous/Ethanolic Medium Using an Ionic Imprinted Hybrid.International Journal of Electrochemical Science, 13, 10564-10586, (2018)
Silverio OV
Silverio OV et al., Development of dieldrin, endosulfan, and hexachlorobenzene-imprinted polymers for dye-displacement array sensing.Journal of Applied Polymer Science, 134, (2), ArticleNo44401-ArticleNo44n/a, (2017)
Silvestri D
Ciardelli G et al., Acrylic polymeric nanospheres for the release and recognition of molecules of clinical interest.Biosensors and Bioelectronics, 20, (6), 1083-1090, (2004)
Ciardelli G et al., Book chapter, Engineering membranes for molecular recognition,
In: Molecularly Imprinted Polymers-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 14, 91-96, (2004)
Silvestri D et al., Molecularly imprinted bioartificial membranes for the selective recognition of biological molecules.
Journal of Biomaterials Science-Polymer Edition, 15, (3), 255-278, (2004)
Ciardelli G et al., The relevance of the transfer of molecular information between natural and synthetic materials in the realisation of biomedical devices with enhanced properties.
Journal of Biomaterials Science-Polymer Edition, 16, (2), 219-236, (2005)
Coluccio ML et al., Surface modification of poly(ethylene-co-vinyl alcohol) membranes by molecular imprinting technique for biomedical application.
European Cells and Materials, 10, (Suppl 5), BS7-BS7, (2005)
Silvestri D et al., Polymeric devices containing imprinted nanospheres: a novel approach to improve recognition in water for clinical uses.
Analytica Chimica Acta, 542, (1), 3-13, (2005)
Silvestri D et al., Molecularly imprinted bioartificial membranes for the selective recognition of biological molecules. Part 2: Release of components and thermal analysis.
Journal of Biomaterials Science-Polymer Edition, 16, (3), 397-410, (2005)
Ciardelli G et al., Proceeding, Molecular imprinted nanostructures in biomedical applications,
561-567, (2006)
Ciardelli G et al., Supported imprinted nanospheres for the selective recognition of cholesterol.
Biosensors and Bioelectronics, 21, (12), 2329-2338, (2006)
Silvestri D et al., Poly(ethylene-co-vinyl alcohol) membranes with specific adsorption properties for potential clinical application.
Desalination, 199, (1-3), 138-140, (2006)
Silvestri D et al., Molecularly imprinted membranes for an improved recognition of biomolecules in aqueous medium.
Journal of Membrane Science, 282, (1-2), 284-295, (2006)
Silvestri D et al., Composite membranes modified with recognition-able nanobeads as potential adsorbers for purification of biological fluids.
Journal of Applied Biomaterials & Biomechanics, 5, (3), 166-175, (2007)
Silvestri D et al., Poly(ethylene-co-vinyl alcohol) Membranes with Specific Adsorption Properties for Potential Clinical Application.
Separation Science and Technology, 42, (13), 2829-2847, (2007)
Silvestri D et al., Specific adsorbents (columns or membranes) through molecular imprinting technology for selected biological molecules.
Journal of Applied Biomaterials & Biomechanics, 5, (3), 219-219, (2007)
Pegoraro C et al., Molecularly imprinted poly(ethylene-co-vinyl alcohol) membranes for the specific recognition of phospholipids.
Biosensors and Bioelectronics, 24, (4), 748-755, (2008)
Silvestri D et al., Book chapter, Bioartificial Polymer Matrices as Biomaterials with Enzymatically Controlled Functional Properties,
In: Polymer Biocatalysis and Biomaterials II, Cheng HN, Gross RA (Eds.) American Chemical Society: Washington, DC, Ch. 4, 52-75, (2008)
Morelli I et al., Molecularly imprinted submicronspheres for applications in a novel model biosensor-film.
Sensors and Actuators B: Chemical, 150, (1), 394-401, (2010)
Silvestri D et al., Non Conventional Surface Functionalization of Porous Poly-[epsilon]-Caprolactone Scaffolds Using Bioactive Molecularly Imprinted Nanospheres.
Biomedical Engineering-Applications Basis Communications, 22, (5), 337-349, (2010)
Borrelli C et al., Selective Depletion of Riboflavine from Beer Using Membranes Incorporating Imprinted Polymer Particles.
Journal of Food Processing and Preservation, 35, (1), 112-128, (2011)
Silvonen T
Meouche W et al., Effect of porogen solvent on the properties of nickel ion imprinted polymer materials prepared by inverse suspension polymerization.European Polymer Journal, 87, 124-135, (2017)
Simanova A
Emgenbroich M et al., A Phosphotyrosine-Imprinted Polymer Receptor for the Recognition of Tyrosine Phosphorylated Peptides.Chemistry - A European Journal, 14, (31), 9516-9529, (2008)
Simeonov SP
Martins ANC et al., Isolation, analytical quantification and seasonal variation of labdanolic acid from the Portuguese-grown Cistus ladaniferus.Industrial Crops and Products, 60, 226-232, (2014)
Simionescu BC
David G et al., Synthesis of polymer supported-transition metal catalysts for olefin epoxidation.Revue Roumaine de Chimie, 52, (8-9), 875-+, (2007)
David G et al., Functional micro- and nanoparticles - A possible tool for nanostructured materials.
Revue Roumaine de Chimie, 52, (1-2), 105-112, (2007)
Simionescu CI
David G et al., Functional micro- and nanoparticles - A possible tool for nanostructured materials.Revue Roumaine de Chimie, 52, (1-2), 105-112, (2007)
Simionescua CI
David G et al., Synthesis of polymer supported-transition metal catalysts for olefin epoxidation.Revue Roumaine de Chimie, 52, (8-9), 875-+, (2007)
Simon C
Zhao Y et al., Reduction-responsive molecularly imprinted nanogels for drug delivery applications.RSC Advances, 10, (10), 5978-5987, (2020)
Simon M
Ricotta V et al., A chip-based potentiometric sensor for a Zika virus diagnostic using 3D surface molecular imprinting.Analyst, 144, (14), 4266-4280, (2019)
Simon R
Spivak DA et al., Shape selectivity in non-covalently imprinted polymers.Abstracts of Papers of the American Chemical Society, 225, (POLY), 712-712, (2003)
Spivak DA et al., Evidence for shape selectivity in non-covalently imprinted polymers.
Analytica Chimica Acta, 504, (1), 23-30, (2004)
Simon R et al., Comparison of particle size and flow rate optimization for chromatography using one-monomer molecularly imprinted polymers versus traditional non-covalent molecularly imprinted polymers.
Analytica Chimica Acta, 542, (1), 104-110, (2005)
Simon R et al., Shape selectivity versus functional group pre-organization in molecularly imprinted polymers.
Analytica Chimica Acta, 591, (1), 7-16, (2007)
Simon RL
Campbell JN et al., Influences on MIP selectivity by structural features close to the primary binding.Abstracts of Papers of the American Chemical Society, 225, (ORGN), 91-91, (2003)
Simon RL et al., Origins of selectivity in noncovalent molecular imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 89-89, (2003)
Simon RL et al., Performance analysis of molecularly imprinted polymers for carboxylate and aminophosphate templates using commercially available basic functional monomers.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 203-209, (2004)
Simon W
Rosatzin T et al., Preparation of Ca2+ selective sorbents by molecular imprinting using polymerizable ionophores.Journal of the Chemical Society-Perkin Transactions 2, (8), 1261-1265, (1991)
Simonet BM
Lucena R et al., Potential of nanoparticles in sample preparation.Journal of Chromatography A, 1218, (4), 620-637, (2011)
Simonsen AC
Dreier J et al., Gold Films with Imprinted Cavities.Journal of Physical Chemistry Letters, 1, (1), 260-264, (2009)
Simos G
Lakka A et al., Isolation of hypoxia-inducible factor 1 (HIF-1) inhibitors from frankincense using a molecularly imprinted polymer.Investigational New Drugs, 29, (5), 1081-1089, (2011)
Simplicio AL
Duarte ARC et al., Supercritical fluid polymerisation and impregnation of molecularly imprinted polymers for drug delivery.Journal of Supercritical Fluids, 39, (1), 102-106, (2006)
Simpson D
Urh M et al., Book chapter, Affinity Chromatography: General Methods,In: Guide to Protein Purification, Burgess RR, Deutscher MP (Eds.) Academic Press: Ch. 26, 417-438, (2009)
Sims MR
Henry OYF et al., Proceeding, Robust molecular imprinted polymer thin-films for an astrobiology biomimetic sensor array,Lacoste H (Ed.), 513-514, (2002)
Sims MR et al., The specific molecular identification of life experiment (SMILE).
Planetary and Space Science, 53, (8), 781-791, (2005)
Alanazi K et al., Disposable paracetamol sensor based on electroactive molecularly imprinted polymer nanoparticles for plasma monitoring.
Sensors and Actuators B: Chemical, 329, Article129128-(2021)
Simó-Alfonso EF
Ten-Doménech I et al., Molecularly imprinted polymers for selective solid-phase extraction of phospholipids from human milk samples.Microchimica Acta, 184, (9), 3389-3397, (2017)
Simőes M
Simőes M et al., Tailor-made molecularly imprinted polymers for dimethoate and deltamethrin recognition: synthesis, characterization and chromatographic evaluation.Journal of Polymer Research, 21, (3), Article No 368-(2014)
Garcia R et al., Development of a selective sorbent for the solid-phase extraction of terbuthylazine in olive oil samples: A molecular imprinting strategy.
Journal of Separation Science, 38, (7), 1204-1212, (2015)
Martins N et al., An emerging approach for the targeting analysis of dimethoate in olive oil: The role of molecularly imprinted polymers based on photo-iniferter induced "living" radical polymerization.
Reactive and Functional Polymers, 86, 37-46, (2015)
Simőes NS
Simőes NS et al., Hollow mesoporous structured molecularly imprinted polymer as adsorbent in pipette-tip solid-phase extraction for the determination of antiretrovirals from plasma of HIV-infected patients.Electrophoresis, 39, (20), 2581-2589, (2018)
de Oliveira HL et al., Microextraction by packed sorbent using a new restricted molecularly imprinted polymer for the determination of estrogens from human urine samples.
Microchemical Journal, 150, Article104162-(2019)
de Oliveira HL et al., Novel restricted access material combined to molecularly imprinted polymer for selective magnetic solid-phase extraction of estrogens from human urine.
Microchemical Journal, 149, Article104043-(2019)
Simőes S
Mendonça PV et al., Polymeric bile acid sequestrants - Synthesis using conventional methods and new approaches based on ''controlled''/living radical polymerization.Progress in Polymer Science, 38, (3-4), 445-461, (2013)
Singabraya D
Singabraya D et al., Molecular imprinting technology for specific recognition of heparan sulfate like disaccharides.Talanta, 99, 833-839, (2012)
Mothéré M et al., Poly(ethylene glycol acrylate)-functionalized hydrogels for heparan sulfate oligosaccharide recognition.
Journal of Molecular Recognition, 30, (3), ArticleNo:e2584-(2017)
Singamaneni S
Abbas A et al., Hot Spot-Localized Artificial Antibodies for Label-Free Plasmonic Biosensing.Advanced Functional Materials, 23, (14), 1789-1797, (2013)
Tian LM et al., Gold nanocages with built-in artificial antibodies for label-free plasmonic biosensing.
Journal of Materials Chemistry B, 2, (2), 167-170, (2014)
Luan JY et al., PEGylated Artificial Antibodies: Plasmonic Biosensors with Improved Selectivity.
ACS Applied Materials & Interfaces, 8, (36), 23509-23516, (2016)
Hu R et al., Aromatic Functionality of Target Proteins Influences Monomer Selection for Creating Artificial Antibodies on Plasmonic Biosensors.
ACS Applied Materials & Interfaces, 9, (1), 145-151, (2017)
Wang CZ et al., Single Molecule Force Spectroscopy to Compare Natural versus Artificial Antibody-Antigen Interaction.
Small, 13, (19), ArticleNo1604255-(2017)
Luan JY et al., Environmental Stability of Plasmonic Biosensors Based on Natural versus Artificial Antibody.
Analytical Chemistry, 90, (13), 7880-7887, (2018)
Singh A
Singh A et al., Book chapter, Incorporation of nano-particle sites in polymer matrix by metal ion imprinting,In: Surface-controlled nanoscale materials for high added value, Gonsalves KE, Baraton M-I, Singh R, Hofmann H, Chen JX, Akkara JA (Eds.) Materials Research Society: Warrendale, Ch. 57, 199-207, (1998)
Singh A et al., Towards achieving selectivity in metal ion binding by fixing ligand-chelator complex geometry in polymers.
Reactive and Functional Polymers, 44, (1), 79-89, (2000)
Cui A et al., Enzyme-based molecular imprinting with metals.
Biomacromolecules, 3, (6), 1353-1358, (2002)
Singh A et al., Horseradish peroxidase-catalysed combinatorial molecular imprinting.
Abstracts of Papers of the American Chemical Society, 223, (ORGN), 011-011, (2002)
Chauhan A et al., Application of nano-sized multi-template imprinted polymer for simultaneous extraction of polycyclic aromatic hydrocarbon metabolites in urine samples followed by ultra-high performance liquid chromatographic analysis.
Journal of Chromatography B, 985, 110-118, (2015)
Singh AC
Dey RK et al., Removal of Toxic/Heavy Metal Ions Using Ion-Imprinted Aminofunctionalized Silica Gel.Separation Science and Technology, 44, (8), 1829-1850, (2009)
Singh AK
Mudiam MKR et al., Molecularly imprinted SPE combined with dispersive liquid-liquid microextraction for selective analysis of telmisartan in biological and formulation samples.Bioanalysis, 5, (7), 847-858, (2013)
Singh AK et al., QCM sensing of melphalan via electropolymerized molecularly imprinted polythiophene films.
Biosensors and Bioelectronics, 74, 711-717, (2015)
Singh AK et al., Book chapter, Molecularly Imprinted Polymers for Pharmaceutical Applications,
In: Handbook of Polymers for Pharmaceutical Technologies, Bioactive and Compatible Synthetic/Hybrid Polymers, Thakur VK, Thakur MK (Eds.) John Wiley & Sons: Ch. 2, 17-66, (2015)
Singh AK et al., Mesalmine Targeted Water-Compatible Molecularly Imprinted Polymer-Silver Nanoparticles with Surface-Enhanced Raman Spectroscopic (SERS) and Voltammetric Detection.
Sensor Letters, 14, (1), 76-83, (2016)
Singh AK et al., Designing L-serine targeted molecularly imprinted polymer via theoretical investigation.
Journal of Theoretical and Computational Chemistry, 15, (5), ArticleNo1650041-(2016)
Singh AK et al., Molecularly imprinted Au-nanoparticle composite-functionalized EQCM sensor for l-serine.
Journal of Electroanalytical Chemistry, 780, 169-175, (2016)
Singh AK et al., Electrochemical and piezoelectric monitoring of taurine via electropolymerized molecularly imprinted films.
Journal of Molecular Recognition, 30, (12), ArticleNoe2652-(2017)
Kushwaha A et al., Synthesis and characterization of antipyrine-imprinted polymers and their application for sustained release.
Polymer Bulletin, 75, (11), 5235-5252, (2018)
Kushwaha A et al., Epitope imprinting of Mycobacterium leprae bacteria via molecularly imprinted nanoparticles using multiple monomers approach.
Biosensors and Bioelectronics, 145, Article111698-(2019)
Kushwaha A et al., Development of highly sensitive and selective sensor for ethionamide guided by molecular modelling via electropolymerized molecularly imprinted films.
Microchemical Journal, 152, Article104355-(2020)
Singh AK et al., A simple detection platform based on molecularly imprinted polymer for AFB1 and FuB1 mycotoxins.
Microchemical Journal, 171, Article106730-(2021)
Harijan M et al., Design of molecularly imprinted sensor for detection of typhoid using immunoinformatics and molecular imprinting.
Biosensors and Bioelectronics: X, 10, Article100090-(2022)
Singh B
Boopathi M et al., Plastic antibody for the recognition of chemical warfare agent sulphur mustard.Biosensors and Bioelectronics, 21, (12), 2339-2344, (2006)
Baghel A et al., Synthesis and characterization of metal ion imprinted nano-porous polymer for the selective recognition of copper.
Biosensors and Bioelectronics, 22, (12), 3326-3334, (2007)
Singh B et al., Preliminary evaluation of molecular imprinting of 5-fluorouracil within hydrogels for use as drug delivery systems.
Acta Biomaterialia, 4, (5), 1244-1254, (2008)
Singh B et al., Molecular Imprinted Polymers for use as Drug Delivery Devices: Preliminary Evaluation.
Journal of Macromolecular Science, Part A, 45, (9), 776-784, (2008)
Pradhan S et al., Molecularly imprinted nanopatterns for the recognition of biological warfare agent ricin.
Biosensors and Bioelectronics, 25, (3), 592-598, (2009)
Gupta G et al., Molecularly imprinted polymer for the recognition of biological warfare agent staphylococcal enterotoxin B based on Surface Plasmon Resonance.
Thin Solid Films, 519, (3), 1115-1121, (2010)
Gupta G et al., Supersensitive detection of T-2 toxin by the in situ synthesized [pi]-conjugated molecularly imprinted nanopatterns. An in situ investigation by surface plasmon resonance combined with electrochemistry.
Biosensors and Bioelectronics, 26, (5), 2534-2540, (2011)
Singh B et al., Design of Molecular Imprinted Hydrogels for Controlled Release of Cisplatin: Evaluation of Network Density of Hydrogels.
Industrial & Engineering Chemistry Research, 50, (24), 13742-13751, (2011)
Kaur K et al., Micelle enhanced and terbium sensitized spectrofluorimetric determination of danofloxacin in milk using molecularly imprinted solid phase extraction.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 96, 790-795, (2012)
Singh B et al., Recent Advances in Sample Preparation Methods for Analysis of Endocrine Disruptors from Various Matrices.
Critical Reviews in Analytical Chemistry, 44, (3), 255-269, (2014)
Singh DK
Singh DK et al., Synthesis of a New Cu(II)-Ion Imprinted Polymer for Solid Phase Extraction and Preconcentration of Cu(II).Chromatographia, 70, (11), 1539-1545, (2009)
Singh DK et al., Synthesis and characterization of UO22+-ion imprinted polymer for selective extraction of UO22+.
Analytica Chimica Acta, 644, (1-2), 42-47, (2009)
Singh DK et al., Synthesis, characterization and removal of Cd(II) using Cd(II)-ion imprinted polymer.
Journal of Hazardous Materials, 164, (2-3), 1547-1551, (2009)
Singh DK et al., Synthesis, characterization and analytical applications of Ni(II)-ion imprinted polymer.
Applied Surface Science, 256, (24), 7632-7637, (2010)
Singh DK et al., Synthesis and characterization of Hg(II)-ion-imprinted polymer: Kinetic and isotherm studies.
Desalination, 257, (1-3), 177-183, (2010)
Singh DK et al., Synthesis and characterization of Fe(III)-ion imprinted polymer for recovery of Fe(III) from water samples.
Journal of Scientific and Industrial Research, 69, (10), 767-772, (2010)
Mishra S et al., Th(IV) ion-imprinted polymer for selective solid-phase extraction of Th(IV) and its analytical applications.
Desalination and Water Treatment, 56, (5), 1364-1371, (2015)
Singh G
Divya MP et al., Molecularly imprinted polymer for separation of lactate.Journal of Analytical Chemistry, 70, (10), 1213-1217, (2015)
Aggarwal S et al., Synthesis and characterization of oxytetracycline imprinted magnetic polymer for application in food.
Applied Nanoscience, 6, (2), 209-214, (2016)
Singh J
Chauhan R et al., Recent advances in mycotoxins detection.Biosensors and Bioelectronics, 81, 532-545, (2016)
Singh K
Singh K et al., Novel Approaches in Formulation and Drug Delivery using Contact Lenses.Journal of Basic and Clinical Pharmacy, 2, (2), 87-101, (2011)
Singh K et al., Computational and Experimental Studies of Molecularly Imprinted Polymers for Organochlorine Pesticides Heptachlor and DDT.
Current Analytical Chemistry, 8, (4), 562-568, (2012)
Singh K et al., Preparation of molecularly imprinted polymers for heptachlor: An organochlorine pesticide.
Chronicles of Young Scientists, 4, (1), 46-50, (2013)
Ingole PG et al., Enantiomeric separation of [alpha]-amino acids by imprinted terpolymer membrane.
Arabian Journal of Chemistry, 9, (Supplement 2), S960-S965, (2016)
Prasad BB et al., An electroconducting copper (II) imprinted sensor using algae as cheap substitute of multiwalled carbon nanotubes.
Electrochimica Acta, 187, 193-203, (2016)
Prasad BB et al., Development of highly electrocatalytic and electroconducting imprinted film using Ni nanomer for ultra-trace detection of thiamine.
Sensors and Actuators B: Chemical, 246, 38-45, (2017)
Prasad BB et al., Ultra-trace analysis of d-and l-aspartic acid applying one-by-one approach on a dual imprinted electrochemical sensor.
Sensors and Actuators B: Chemical, 240, 631-639, (2017)
Prasad BB et al., Molecularly imprinted polymer-based core-shells (solid vs hollow) @ pencil graphite electrode for electrochemical sensing of certain anti-HIV drugs.
Sensors and Actuators B: Chemical, 244, 167-174, (2017)
Singh K et al., One-by-one imprinting in two eccentric layers of hollow core-shells: Sequential electroanalysis of anti-HIV drugs.
Biosensors and Bioelectronics, 111, 82-89, (2018)
Fatma S et al., A reduced graphene oxide ceramic electrode modified with one MoNomer doubly imprinted acryloylated tetraamine cobalt phthalocyanine polymer for the simultaneous analysis of anticancerous drugs.
Sensors and Actuators B: Chemical, 281, 139-149, (2019)
Fatma S et al., Electrochemical simultaneous analysis of dopamine and epinephrine using double imprinted One MoNomer acryloylated graphene oxide-carbon black composite polymer.
Biosensors and Bioelectronics, 135, 36-44, (2019)
Jaiswal S et al., Enantioselective analysis of D- and l- Serine on a layer-by-layer imprinted electrochemical sensor.
Biosensors and Bioelectronics, 124-125, 176-183, (2019)
Singh KP
Singh KP et al., Electrochemical sensing for the detection of 2, 4-dichlorophenoxy acetic acid using molecularly imprinted polymer membrane.Ionics, 16, (6), 529-537, (2010)
Singh KP et al., Preparation of isoproturon and 2, 4-dichlorophenoxy acetic acid imprinted membranes: Ion transport study.
Desalination and Water Treatment, 24, (1-3), 176-189, (2010)
Mudiam MKR et al., Determination of t, t-muconic acid in urine samples using a molecular imprinted polymer combined with simultaneous ethyl chloroformate derivatization and pre-concentration by dispersive liquid-liquid microextraction.
Analytical and Bioanalytical Chemistry, 405, (1), 341-349, (2013)
Singh KP et al., Use of Isoproturon Imprinted Polymer Membranes as a Selective Recognition Platform in a Resistance Based Electrochemical Sensor.
Open Journal of Applied Biosensor, 2, (1), 20-28, (2013)
Singh KP et al., Selective Recognition and Detoxification of Deltamethrin Using Molecularly Imprinted Polymer (MIP) Matrices.
Analytical Chemistry Letters, 3, (1), 30-39, (2013)
Singh LK
Singh LK et al., Biopolymeric receptor for peptide recognition by molecular imprinting approach-Synthesis, characterization and application.Materials Science and Engineering: C, 45, 383-394, (2014)
Singh M
Tan G et al., Use of a self-assembling organogel as a reverse template in the preparation of imprinted porous polymer films.Langmuir, 21, (20), 9322-9326, (2005)
Prasad BB et al., Molecularly imprinted polymer-based solid-phase microextraction fiber coupled with molecularly imprinted polymer-based sensor for ultratrace analysis of ascorbic acid.
Journal of Chromatography A, 1198-1199, (1-2), 59-66, (2008)
Prasad BB et al., Zwitterionic molecularly imprinted polymer-based solid-phase micro-extraction coupled with molecularly imprinted polymer sensor for ultra-trace sensing of L-histidine.
Journal of Separation Science, 32, (7), 1096-1105, (2009)
Prasad BB et al., Ultratrace analysis of uracil and 5-fluorouracil by molecularly imprinted polymer brushes grafted to silylated solid-phase microextraction fiber in combination with complementary molecularly imprinted polymer-based sensor.
Biomedical Chromatography, 23, (5), 499-509, (2009)
Prasad BB et al., Ultratrace Analysis of Dopamine Using a Combination of Imprinted Polymer-Brush-Coated SPME and Imprinted Polymer Sensor Techniques.
Chromatographia, 69, (9), 949-957, (2009)
Taranum N et al., Selective Recognition and Detection of L-Aspartic Acid by Molecularly Imprinted Polymer in Aqueous Solution.
American Journal of Analytical Chemistry, 2, (8), 909-918, (2011)
Tarannum N et al., Water-compatible surface imprinting of 'baclofen' on silica surface for selective recognition and detection in aqueous solution.
Analytical Methods, 4, (9), 3019-3026, (2012)
Singh M et al., Water-compatible 'aspartame'-imprinted polymer grafted on silica surface for selective recognition in aqueous solution.
Analytical and Bioanalytical Chemistry, 405, (12), 4245-4252, (2013)
Singh LK et al., Biopolymeric receptor for peptide recognition by molecular imprinting approach-Synthesis, characterization and application.
Materials Science and Engineering: C, 45, 383-394, (2014)
Singh LK et al., Biopolymeric receptor for peptide recognition by molecular imprinting approach-Synthesis, characterization and application.
Materials Science and Engineering: C, 45, 383-394, (2014)
Singh M et al., Selective recognition of fenbufen by surface-imprinted silica with iniferter technique.
Journal of Porous Materials, 21, (5), 677-684, (2014)
Singh AK et al., QCM sensing of melphalan via electropolymerized molecularly imprinted polythiophene films.
Biosensors and Bioelectronics, 74, 711-717, (2015)
Singh AK et al., Book chapter, Molecularly Imprinted Polymers for Pharmaceutical Applications,
In: Handbook of Polymers for Pharmaceutical Technologies, Bioactive and Compatible Synthetic/Hybrid Polymers, Thakur VK, Thakur MK (Eds.) John Wiley & Sons: Ch. 2, 17-66, (2015)
Gupta N et al., A Highly Sensitive and Selective Piezoelectric Molecularly Imprinted Sensor for RGD Peptides.
Sensor Letters, 14, (6), 616-622, (2016)
Gupta N et al., An epitope-imprinted piezoelectric diagnostic tool for Neisseria meningitidis detection.
Journal of Molecular Recognition, 29, (12), 572-579, (2016)
Singh AK et al., Mesalmine Targeted Water-Compatible Molecularly Imprinted Polymer-Silver Nanoparticles with Surface-Enhanced Raman Spectroscopic (SERS) and Voltammetric Detection.
Sensor Letters, 14, (1), 76-83, (2016)
Singh AK et al., Designing L-serine targeted molecularly imprinted polymer via theoretical investigation.
Journal of Theoretical and Computational Chemistry, 15, (5), ArticleNo1650041-(2016)
Singh AK et al., Molecularly imprinted Au-nanoparticle composite-functionalized EQCM sensor for l-serine.
Journal of Electroanalytical Chemistry, 780, 169-175, (2016)
Srivastava J et al., A biopolymeric nano-receptor for sensitive and selective recognition of albendazole.
Analytical Methods, 8, (5), 1026-1033, (2016)
Singh AK et al., Electrochemical and piezoelectric monitoring of taurine via electropolymerized molecularly imprinted films.
Journal of Molecular Recognition, 30, (12), ArticleNoe2652-(2017)
Singh M et al., Epitope Imprinting Approach to Monitor Diseases.
Journal of Molecular and Genetic Medicine, (2017)
Gupta N et al., Epitope imprinting of iron binding protein of Neisseria meningitidis bacteria through multiple monomers imprinting approach.
Journal of Molecular Recognition, 31, (7), ArticleNoe2709-(2018)
Kushwaha A et al., Synthesis and characterization of antipyrine-imprinted polymers and their application for sustained release.
Polymer Bulletin, 75, (11), 5235-5252, (2018)
Kushwaha A et al., Epitope imprinting of Mycobacterium leprae bacteria via molecularly imprinted nanoparticles using multiple monomers approach.
Biosensors and Bioelectronics, 145, Article111698-(2019)
Srivastava J et al., Highly sensitive and selective estimation of aspartame by chitosan nanoparticles - graphene nanocomposite tailored EQCM-MIP sensor.
Polymer Bulletin, 76, (9), 4431-4449, (2019)
Srivastava J et al., Glycoprotein imprinted RGO-starch nanocomposite modified EQCM sensor for sensitive and specific detection of transferrin.
Journal of Electroanalytical Chemistry, 835, 169-177, (2019)
Kushwaha A et al., Development of highly sensitive and selective sensor for ethionamide guided by molecular modelling via electropolymerized molecularly imprinted films.
Microchemical Journal, 152, Article104355-(2020)
Harijan M et al., Design of molecularly imprinted sensor for detection of typhoid using immunoinformatics and molecular imprinting.
Biosensors and Bioelectronics: X, 10, Article100090-(2022)
Singh P
Singh KP et al., Electrochemical sensing for the detection of 2, 4-dichlorophenoxy acetic acid using molecularly imprinted polymer membrane.Ionics, 16, (6), 529-537, (2010)
Singh KP et al., Selective Recognition and Detoxification of Deltamethrin Using Molecularly Imprinted Polymer (MIP) Matrices.
Analytical Chemistry Letters, 3, (1), 30-39, (2013)
Bhatia T et al., Sol-gel approach for extracting highly versatile aspirin and its metabolites using MISPE followed by GC-MS/MS analysis.
Bioanalysis, 8, (8), 795-805, (2016)
Singh PK
Gupta G et al., Molecularly imprinted polymer for the recognition of biological warfare agent staphylococcal enterotoxin B based on Surface Plasmon Resonance.Thin Solid Films, 519, (3), 1115-1121, (2010)
Singh PP
Naskar H et al., Electrochemical Detection of Eugenol (EU) Using Polyacrylonitrile Molecular Imprinted Polymer Embedded Graphite (PAN-MIP/G) Electrode.IEEE Sensors Journal, 20, (1), 39-46, (2020)
Singh R
Singh KP et al., Selective Recognition and Detoxification of Deltamethrin Using Molecularly Imprinted Polymer (MIP) Matrices.Analytical Chemistry Letters, 3, (1), 30-39, (2013)
Kaur P et al., Metal Assisted Approach to Develop Molecularly Imprinted Mesoporous Material Exhibiting Pockets for the Fast Uptake of Diethyl Phthalate as Copper Complex.
Analytical Sciences, 30, (5), 601-607, (2014)
Narula P et al., Recent Progress, Challenges and Prospects in Monitoring Plastic-Derived Xenoestrogens Using Molecularly Imprinted Sorbents.
Chromatographia, 77, (3-4), 207-221, (2014)
Narula P et al., Development of molecularly imprinted microspheres for the fast uptake of 4-cumylphenol from water and soil samples.
Journal of Separation Science, 37, (22), 3330-3338, (2014)
Ghai M et al., Imprinted silica nanoparticles coated with N-propylsilylmorpholine-4-carboxamide for the determination of m-cresol in synthetic and real samples.
Journal of Separation Science, 38, (19), 3442-3449, (2015)
Prasad BB et al., A new micro-contact imprinted l-cysteine sensor based on sol-gel decorated graphite/multiwalled carbon nanotubes/gold nanoparticles composite modified sandpaper electrode.
Sensors and Actuators B: Chemical, 212, 155-164, (2015)
Prasad BB et al., Development of imprinted polyneutral red/electrochemically reduced graphene oxide composite for ultra-trace sensing of 6-thioguanine.
Carbon, 102, 86-96, (2016)
Prasad BB et al., Development of water compatible imprinted polymer beads for piezoelectric sensing of ultra-trace 5, 6-dihydrouracil in biological fluids.
Sensors and Actuators B: Chemical, 235, 94-102, (2016)
Prasad BB et al., Molecularly imprinted polymer-based electrochemical sensor using functionalized fullerene as a nanomediator for ultratrace analysis of primaquine.
Carbon, 109, 196-207, (2016)
Prasad BB et al., Gold nanorods vs. gold nanoparticles: application in electrochemical sensing of cytosine [beta]-d-arabinoside using metal ion mediated molecularly imprinted polymer.
RSC Advances, 6, (84), 80679-80691, (2016)
Prasad BB et al., Development of highly electrocatalytic and electroconducting imprinted film using Ni nanomer for ultra-trace detection of thiamine.
Sensors and Actuators B: Chemical, 246, 38-45, (2017)
Prasad BB et al., Synthesis of novel monomeric graphene quantum dots and corresponding nanocomposite with molecularly imprinted polymer for electrochemical detection of an anticancerous ifosfamide drug.
Biosensors and Bioelectronics, 94, 1-9, (2017)
Prasad BB et al., Synthesis of fullerene (C60-monoadduct)-based water-compatible imprinted micelles for electrochemical determination of chlorambucil.
Biosensors and Bioelectronics, 94, 115-123, (2017)
Singh K et al., One-by-one imprinting in two eccentric layers of hollow core-shells: Sequential electroanalysis of anti-HIV drugs.
Biosensors and Bioelectronics, 111, 82-89, (2018)
Fatma S et al., A reduced graphene oxide ceramic electrode modified with one MoNomer doubly imprinted acryloylated tetraamine cobalt phthalocyanine polymer for the simultaneous analysis of anticancerous drugs.
Sensors and Actuators B: Chemical, 281, 139-149, (2019)
Fatma S et al., Electrochemical simultaneous analysis of dopamine and epinephrine using double imprinted One MoNomer acryloylated graphene oxide-carbon black composite polymer.
Biosensors and Bioelectronics, 135, 36-44, (2019)
Jaiswal S et al., Enantioselective analysis of D- and l- Serine on a layer-by-layer imprinted electrochemical sensor.
Biosensors and Bioelectronics, 124-125, 176-183, (2019)
Piletsky SS et al., Snapshot imprinting: rapid identification of cancer cell surface proteins and epitopes using molecularly imprinted polymers.
Nano Today, 41, Article101304-(2021)
Singh RK
Singh AK et al., Mesalmine Targeted Water-Compatible Molecularly Imprinted Polymer-Silver Nanoparticles with Surface-Enhanced Raman Spectroscopic (SERS) and Voltammetric Detection.Sensor Letters, 14, (1), 76-83, (2016)
Singh RP
Singh AK et al., A simple detection platform based on molecularly imprinted polymer for AFB1 and FuB1 mycotoxins.Microchemical Journal, 171, Article106730-(2021)
Singh RS
Gupta N et al., Epitope imprinting of iron binding protein of Neisseria meningitidis bacteria through multiple monomers imprinting approach.Journal of Molecular Recognition, 31, (7), ArticleNoe2709-(2018)
Singh S
Singh S et al., Recent trends in development of biosensors for detection of microcystin.Toxicon, 60, (5), 878-894, (2012)
Karfa P et al., Development of carbon dots modified fluorescent molecular imprinted Polymer@Ag/AgCl nanoparticle for hepatocellular carcinoma marker.
AIP Conference Proceedings, 1832, (1), ArticleNo050008-(2017)
Kumar S et al., Super paramagnetic iron oxide nanoparticle modified mancozeb imprinted polymer.
AIP Conference Proceedings, 1832, (1), ArticleNo050014-(2017)
Patra S et al., Imprinted magnetic graphene oxide for the mini-solid phase extraction of Eu (III) from coal mine area.
AIP Conference Proceedings, 1832, (1), ArticleNo050009-(2017)
Kushwaha A et al., Synthesis and characterization of antipyrine-imprinted polymers and their application for sustained release.
Polymer Bulletin, 75, (11), 5235-5252, (2018)
Pandey H et al., Carbon nanomaterials integrated molecularly imprinted polymers for biological sample analysis: A critical review.
Materials Chemistry and Physics, 239, Article121966-(2020)
Singh SK
Pardeshi S et al., Precipitation polymerization: a versatile tool for preparing molecularly imprinted polymer beads for chromatography applications.RSC Advances, 6, (28), 23525-23536, (2016)
Singh SP
Malhotra BD et al., Prospects of conducting polymers in biosensors.Analytica Chimica Acta, 578, (1), 59-74, (2006)
Pandey H et al., Carbon nanomaterials integrated molecularly imprinted polymers for biological sample analysis: A critical review.
Materials Chemistry and Physics, 239, Article121966-(2020)
Singh V
Baghel A et al., Synthesis and Characterisation of Ligand Free Cadmium Imprinted Polymer for Sensing of Cd(II) from Aqueous Solution.Defence Life Science Journal, 4, (3), 153-157, (2019)
Singh VK
Dey RK et al., Removal of Toxic/Heavy Metal Ions Using Ion-Imprinted Aminofunctionalized Silica Gel.Separation Science and Technology, 44, (8), 1829-1850, (2009)
Singh VV
Singh VV, Recent Advances in Electrochemical Sensors for Detecting Weapons of Mass Destruction. A Review.Electroanalysis, 28, (5), 920-935, (2016)
SinghB.
Baghel A et al., Synthesis and Characterisation of Ligand Free Cadmium Imprinted Polymer for Sensing of Cd(II) from Aqueous Solution.Defence Life Science Journal, 4, (3), 153-157, (2019)
Singha K
Mookda P et al., Synthesis of nicotinamide-imprinted polymers and their binding performances in organic and aqueous media.E-Polymers, Art. No. 091-(2008)
Singhal A
Singhal A et al., High throughput molecularly imprinted polymers based electrochemical nanosensors for point-of-care diagnostics of COVID-19.Materials Letters, 306, Article130898-(2022)
Singla P
Lowdon JW et al., MIPs for commercial application in low-cost sensors and assays - An overview of the current status quo.Sensors and Actuators B: Chemical, 325, Article128973-(2020)
Singleton VT
Cooper MA et al., A survey of the 2001 to 2005 quartz crystal microbalance biosensor literature: applications of acoustic physics to the analysis of biomolecular interactions.Journal of Molecular Recognition, 20, (3), 154-184, (2007)
Singsanan S
Chunta S et al., Sensor Array Based on Molecularly Imprinted Polymers for Simultaneous Detection of Lipoproteins.Proceedings, 1, (4), ArticleNo510-(2017)
Chunta S et al., Sensing array based on molecularly imprinted polymers for simultaneous assessment of lipoproteins.
Sensors and Actuators B: Chemical, 298, Article126828-(2019)
Sinha A
Dhanjai et al., Corrigendum to "Advances in sensing and biosensing of bisphenols: A review" [ACA 998 (2018) 1-27].Analytica Chimica Acta, 1029, 125-129, (2018)
Dhanjai et al., Advances in sensing and biosensing of bisphenols: A review.
Analytica Chimica Acta, 998, 1-27, (2018)
Sinha J
Kong H et al., Templated Crosslinked Imidazolyl Acrylate for Electronic Detection of Nitroaromatic Explosives.Advanced Functional Materials, 23, (1), 91-99, (2013)
Sinha P
Kumar D et al., Molecularly imprinted polymer-modified electrochemical sensor for simultaneous determination of copper and zinc.Advanced Materials Letters, 2, (4), 294-297, (2011)
Sinicropi MS
Parisi OI et al., Magnetic molecularly imprinted polymers (MMIPs) for carbazole derivative release in targeted cancer therapy.Journal of Materials Chemistry B, 2, (38), 6619-6625, (2014)
Scrivano L et al., Molecularly imprinted hydrogels for sustained release of sunitinib in breast cancer therapy.
Polymers for Advanced Technologies, 30, (3), 743-748, (2019)
Sinkevicius L
Plausinaitis D et al., Evaluation of electrochemical quartz crystal microbalance based sensor modified by uric acid-imprinted polypyrrole.Talanta, 220, Article121414-(2020)
Sinpichai S
Ladadok C et al., Synthesis of Moleculary Imprinted Polymer Originated from TFMAA and TRIM for Sterol Separation.Chemical Engineering Transactions, 70, 475-480, (2018)
Sinski JF
Clavier CW et al., A method for the preparation of transparent mesoporous silica sol-gel monoliths containing grafted organic functional groups.Journal of Materials Chemistry, 15, (24), 2356-2361, (2005)
Sinz A
Sproß J et al., Monolithic media for applications in affinity chromatography.Journal of Separation Science, 34, (16-17), 1958-1973, (2011)
Siove A
Malosse L et al., Novel Stoichiometric, Noncovalent Pinacolyl Methylphosphonate Imprinted Polymers: A Rational Design by NMR Spectroscopy.Macromolecules, 41, (21), 7834-7842, (2008)
Malosse L et al., Detection of degradation products of chemical warfare agents by highly porous molecularly imprinted microspheres.
Analyst, 133, (5), 588-595, (2008)
Sipaut CS
Ibrahim MNM et al., Purification of vanillin by a molecular imprinting polymer technique.Separation and Purification Technology, 66, (3), 450-456, (2009)
Siqueira MEPB
Freitas MB et al., Amitriptyline and Nortriptyline in Plasma: Solid-Phase Extraction in Molecularly Imprinted Polymers and Silica Octadecil for High Performance Liquid Chromatography Analysis.Latin American Journal of Pharmacy, 28, (1), 70-79, (2009)
Siqueira Silva M
Siqueira Silva M et al., Rational selection of hidden epitopes for a molecularly imprinted electrochemical sensor in the recognition of heat-denatured dengue NS1 protein.Biosensors and Bioelectronics, 191, Article113419-(2021)
Sirathanarun P
Jantarat C et al., Molecularly imprinted bacterial cellulose for sustained-release delivery of quercetin.Journal of Biomaterials Science-Polymer Edition, 31, (15), 1961-1976, (2020)
Sirc J
Sirc J et al., Morphological and chromatographic characterization of molecularly imprinted monolithic columns.E-Polymers, Art. No. 117-(2007)
Sire SG
Knopp D et al., Comparison of molecularly imprinted polymers (MIPs) and sol-gel based immunoaffinity supports for the extraction of sulfonylurea herbicides from aqueous samples.Abstracts of Papers of the American Chemical Society, 221, (AGRO), 61-61, (2001)
Siren H
Laatikainen M et al., Complexation of Nickel with 2-(Aminomethyl)pyridine at High Zinc Concentrations or in a Nonaqueous Solvent Mixture.Journal of Chemical & Engineering Data, 59, (7), 2207-2214, (2014)
Laatikainen K et al., Effect of template ion-ligand complex stoichiometry on selectivity of ion-imprinted polymers.
Talanta, 134, 538-545, (2015)
Meouche W et al., Effect of porogen solvent on the properties of nickel ion imprinted polymer materials prepared by inverse suspension polymerization.
European Polymer Journal, 87, 124-135, (2017)
Udomsap D et al., Electrochemical molecularly imprinted polymers as material for pollutant detection.
Materials Today Communications, 17, 458-465, (2018)
Siripairoj W
Siripairoj W et al., Synthesis of molecularly imprinted polymers for the separation of gamma-oryzanol by using methacrylic acid as functional monomer.Journal of the Taiwan Institute of Chemical Engineers, 45, (2), 338-346, (2014)
Sirumapea L
Sirumapea L et al., Synthesis and characterization of meropenem imprinted polymer.Journal of Physics: Conference Series, 1282, (1), Article012063-(2019)
Sirén H
Laatikainen K et al., Molecularly imprinted polystyrene-divinylbenzene adsorbents for removal of bisphenol A.Desalination and Water Treatment, 52, (10-12), 1885-1894, (2014)
Sisci D
Parisi OI et al., Magnetic molecularly imprinted polymers (MMIPs) for carbazole derivative release in targeted cancer therapy.Journal of Materials Chemistry B, 2, (38), 6619-6625, (2014)
Sistani S
Sistani S et al., Fabrication of fluorescence sensor based on molecularly imprinted polymer on amine-modified carbon quantum dots for fast and highly sensitive and selective detection of tannic acid in food samples.Analytica Chimica Acta, 1186, Article339122-(2021)
Siswanta D
Sakti SCW et al., Adsorption of gold(III) on ionic imprinted amino-silica hybrid prepared from rice hull ash.Pure And Applied Chemistry, 85, (1), 211-223, (2013)
Djunaidi MC et al., Selective Transport of Fe(III) Using Polyeugenol as Functional Polymer with Ionic Imprinted Polymer Membrane Method.
Asian Journal of Chemistry, 27, (12), 4553-4562, (2015)
Djunaidi MC et al., Proceeding, Selective transport of Fe(III) using ionic imprinted polymer (IIP) membrane particle,
ArticleNo060001, (2015)
Djunaidi MC et al., Synthesis of Fe ionic-imprinted polyeugenol using polyethylene glycol diglycidilether as cross-linking agent for sorption of Fe(III).
Indonesian Journal of Chemistry, 15, (3), 305-314, (2015)
Sitanurak J
Amatatongchai M et al., Highly sensitive and selective electrochemical paper-based device using a graphite screen-printed electrode modified with molecularly imprinted polymers coated Fe3O4@Au@SiO2 for serotonin determination.Analytica Chimica Acta, 1077, 255-265, (2019)
Sivakumar R
Sreenivasan K et al., Interaction of molecularly imprinted polymers with creatinine.Journal of Applied Polymer Science, 66, (13), 2539-2542, (1997)
Sreenivasan K et al., Book chapter, Evaluation of a methyl b-cyclodextrin based molecularly imprinted copolymer as novel adsorbent for steroids,
In: Macromolecules - New Frontiers. Peoc. IUPAC Int. Symp. Adv. Polym. Sci. Technol, Srinivasan K (Ed.) Allied Publishers, Ltd: New Delhi, Ch. 2, 594-596, (1998)
Sreenivasan K et al., Imparting recognition sites in poly(HEMA) for two compounds through molecular imprinting.
Journal of Applied Polymer Science, 71, (11), 1823-1826, (1999)
Sreenivasan K et al., Ferric iron-containing molecularly imprinted polymer as an adsorbent for cholesterol.
Adsorption Science & Technology, 21, (3), 261-268, (2003)
Siwy Z
Ali M et al., Biomolecular conjugation inside synthetic polymer nanopores via glycoprotein-lectin interactions.Nanoscale, 3, (4), 1894-1903, (2011)
Six Y
Motherwell WB et al., Recent progress in the design and synthesis of artificial enzymes.Tetrahedron, 57, (22), 4663-4686, (2001)
Motherwell WB et al., A study of some molecularly imprinted polymers as protic catalysts for the isomerisation of a-pinene oxide to trans-carveol.
Tetrahedron, 60, (14), 3231-3241, (2004)
Sizemore SP
Venkatesh S et al., Proceeding, Biomimetic recognitive polymer networks for ocular delivery of anti-histamines,81-86, (2005)
Vaughan AD et al., Enhancing molecularly imprinted polymer binding properties via controlled/living radical polymerization and reaction analysis.
Polymer, 48, (1), 74-81, (2007)
Venkatesh S et al., Biomimetic hydrogels for enhanced loading and extended release of ocular therapeutics.
Biomaterials, 28, (4), 717-724, (2007)
Sizoy VF
Belokon YN et al., Memory of a polymeric matrix, stabilizing the initial conformation of potassium bis[N-(5-methacryloylamino)-salicylidene-(S)-norvalinato]-cobaltate(III) in the deuterium-exchange.Makromolekulare Chemie-Macromolecular Chemistry And Physics, 184, (11), 2213-2223, (1983)
Sińeriz F
Sińeriz F et al., Toward an alternative for specific recognition of sulfated sugars. Preparation of highly specific molecular imprinted polymers.Tetrahedron, 63, (8), 1857-1862, (2007)
Ikeda Y et al., Synthesis of a trisulfated heparan sulfate disaccharide analog and its use as a template for preliminary molecular imprinting studies.
Carbohydrate Research, 343, (4), 587-595, (2008)
Singabraya D et al., Molecular imprinting technology for specific recognition of heparan sulfate like disaccharides.
Talanta, 99, 833-839, (2012)
Mothéré M et al., Poly(ethylene glycol acrylate)-functionalized hydrogels for heparan sulfate oligosaccharide recognition.
Journal of Molecular Recognition, 30, (3), ArticleNo:e2584-(2017)
Skacani I
Blahova E et al., The use of molecularly imprinted polymer for selective extraction of (+)-catechin.Journal of Liquid Chromatography & Related Technologies, 27, (17), 2715-2731, (2004)
Skacáni I
Karasová G et al., Selective extraction of derivates of p-hydroxy-benzoic acid from plant material by using a molecularly imprinted polymer.Journal of Separation Science, 28, (18), 2468-2476, (2005)
Lachová M et al., Isolation of theanine from China green tea by using a molecularly imprinted polymer as a SPE sorbent.
Farmaceuticky Obzor, 76, (6-7), 147-151, (2007)
Lachová M et al., Isolation of L-theanine from plant material using a molecularly imprinted polymer.
Journal of Liquid Chromatography & Related Technologies, 30, (14), 2045-2058, (2007)
Lachová M et al., Possibility of using of molecular imprinted polymers on sorption selectivity of some phenyl carbamic derivatives.
Farmaceuticky Obzor, 77, (2), 37-40, (2008)
Lachová M et al., Selective solid-phase extraction of phenylcarbamic acid derivatives from a rat serum by molecularly imprinted polymer.
Acta Chimica Slovaca, 1, (1), 175-179, (2008)
Cizmárik A et al., Studies of local anesthetics. Part: 187 Extraction of 1-methyl-2- piperidinoethylesters of alkoxyphenylcarbamic acids from human plasma by imprinted polymers and its comparison with classic solid phase extraction.
Ceska a Slovenska Farmacie, 58, (2), 78-82, (2009)
Lachová M et al., Isolation of Some Derivatives of Phenylcarbamic Acid from Human Plasma using Molecularly Imprinted Polymers.
Journal of Liquid Chromatography & Related Technologies, 32, (2), 167-181, (2009)
Lachová M et al., Molecularly Imprinted Solid-Phase Extraction of 1-Methyl-2-piperidinoethylesters of Alkoxyphenylcarbamic Acid from Human Plasma, Comparison with Classical Solid-Phase Extraction.
Journal of Liquid Chromatography & Related Technologies, 32, (16), 2293-2306, (2009)
Lachová M et al., Study of Selectivity of Molecularly Imprinted Polymers Prepared Under Different Conditions.
Journal of Chromatographic Science, 48, (5), 395-398, (2010)
Skeríková V
Theodoridis G et al., Molecular imprinting of natural flavonoid antioxidants: Application in solid-phase extraction for the sample pretreatment of natural products prior to HPLC analysis.Journal of Separation Science, 29, (15), 2310-2321, (2006)
Skibina YS
Burmistrova NA et al., Soft glass multi-channel capillaries as a platform for bioimprinting.Talanta, 208, Article120445-(2020)
Sklenárová H
Boonjob W et al., Retention and selectivity of basic drugs on solid-phase extraction sorbents: Application to direct determination of [beta]-blockers in urine.Analytical and Bioanalytical Chemistry, 406, (17), 4207-4215, (2014)
González N et al., Flow-batch analysis of clenbuterol based on analyte extraction on molecularly imprinted polymers coupled to an in-system chromogenic reaction. Application to human urine and milk substitute samples.
Talanta, 178, 934-942, (2018)
Novosvetská L et al., Fully automated method based on on-line molecularly imprinted polymer solid-phase extraction for determination of lovastatin in dietary supplements containing red yeast rice.
Analytical and Bioanalytical Chemistry, 411, (6), 1219-1228, (2019)
Skládal P
Lacina K et al., Boronic acids for sensing and other applications - a mini-review of papers published in 2013.Chemistry Central Journal, 8, (1), Article No 60-(2014)
Skogsberg U
Skogsberg U et al., A solid-state and suspended-state magic angle spinning nuclear magnetic resonance spectroscopic investigation of a 9-ethyladenine molecularly imprinted polymer.Polymer, 48, (1), 229-238, (2007)
Skorkin VA
Karakhanov EA et al., Molecular recognition and catalysis: from macrocyclic receptors to molecularly imprinted metal complexes.Macromolecular Symposia, 235, (1), 39-51, (2006)
Karakhanov EA et al., Design of supramolecular metal complex catalytic systems for petrochemical and organic synthesis.
Russian Chemical Bulletin, 57, (4), 780-792, (2008)
Skottrup PD
Skottrup PD et al., Towards on-site pathogen detection using antibody-based sensors.Biosensors and Bioelectronics, 24, (3), 339-348, (2008)
Skrdla PJ
Skrdla PJ et al., GC-MS Study of the formation of alkoxysilanes from a sol-gel precursor in a hydrophobic solution: A potential new route to hybrid molecular imprinted polymers.Journal of Non-Crystalline Solids, 352, (30-31), 3302-3309, (2006)
Skrzyniarz P
Gadzala-Kopciuch R et al., Towards A New Approach for the Description of Cyclo-2, 4-Dihydroxybenzoate, A Substance Which Effectively Mimics Zearalenone in Imprinted Polymers Designed for Analyzing Selected Mycotoxins in Urine.International Journal of Molecular Sciences, 20, (7), ArticleNo1588-(2019)
Skrzypek S
Czarny K et al., Molecularly imprinted polymer film grafted from porous silica for efficient enrichment of steroid hormones in water samples.Journal of Separation Science, 42, (17), 2858-2866, (2019)
Skudar K
Skudar K et al., Selective recognition and separation of b-lactam antibiotics using molecularly imprinted polymers.Analytical Communications, 36, (9), 327-331, (1999)
Ramström O et al., Food analyses using molecularly imprinted polymers.
Journal of Agricultural and Food Chemistry, 49, (5), 2105-2114, (2001)
Slade CJ
Slade CJ et al., Induction of catalytic activity in proteins by lyophilization in the presence of a transition state analogue.Biotechnology and Bioengineering, 57, (2), 211-215, (1998)
Slade CJ, Molecular (or bio-) imprinting of bovine serum albumin.
Journal of Molecular Catalysis B: Enzymatic, 9, (1-3), 97-105, (2000)
Slann M
Lettieri S et al., A novel Hamilton receptor monomer for the stoichiometric molecular imprinting of barbiturates.Reactive and Functional Polymers, 167, Article105031-(2021)
Slechtová T
Kaláková K et al., Supercritical fluid chromatography as a tool for enantioselective separation; A review.Analytica Chimica Acta, 821, 1-33, (2014)
Sleegers N
Moro G et al., Conductive imprinted polymers for the direct electrochemical detection of [beta]-lactam antibiotics: The case of cefquinome.Sensors and Actuators B: Chemical, 297, Article126786-(2019)
Sleiman HF
Trinh T et al., DNA-imprinted polymer nanoparticles with monodispersity and prescribed DNA-strand patterns.Nature Chemistry, 10, ArticleNo184-(2018)
Sletmoen M
Gawel K et al., Responsive Hydrogels for Label-Free Signal Transduction within Biosensors.Sensors, 10, (5), 4381-4409, (2010)
Sleytr UB
Ladenhauf EM et al., S-layer based biomolecular imprinting.RSC Advances, 5, (102), 83558-83564, (2015)
Slibinskas R
Ratautaite V et al., Molecularly imprinted polypyrrole based sensor for the detection of SARS-CoV-2 spike glycoprotein.Electrochimica Acta, 403, Article139581-(2022)
Slinchenko EA
Sergeyeva TA et al., Conductimetric sensor for atrazine detection based on molecularly imprinted polymer membranes.Analyst, 124, (3), 331-334, (1999)
Sergeyeva TA et al., Selective recognition of atrazine by molecularly imprinted polymer membranes. Development of conductometric sensor for herbicides detection.
Analytica Chimica Acta, 392, (2-3), 105-111, (1999)
Slinchenko O
Slinchenko O et al., Imprinted polymer layer for recognizing double-stranded DNA.Biosensors and Bioelectronics, 20, (6), 1091-1097, (2004)
Slinchenko OA
Sergeyeva TA et al., A portable sensor system for phenols detection based on molecularly-imprinted polymers with catalytic properties.Ukrainskii Biokhimicheskii Zhurnal, 81, (1), 41-51, (2009)
Sergeyeva TA et al., Towards development of colorimetric test-systems for phenols detection based on computationally-designed molecularly imprinted polymer membranes.
Materials Science and Engineering: C, 30, (3), 431-436, (2010)
Sergeyeva TA et al., Catalytic molecularly imprinted polymer membranes: Development of the biomimetic sensor for phenols detection.
Analytica Chimica Acta, 659, (1-2), 274-279, (2010)
Smarsly B
Smarsly B et al., Preparation of porous silica materials via sol-gel nanocasting of nonionic surfactants: A mechanistic study on the self-aggregation of amphiphiles for the precise prediction of the mesopore size.Journal of Physical Chemistry B, 105, (43), 10473-10483, (2001)
Polarz S et al., Nanoporous materials.
Journal of Nanoscience and Nanotechnology, 2, (6), 581-612, (2002)
Smedskjaer MM
Kirk C et al., Aqueous batch rebinding and selectivity studies on sucrose imprinted polymers.Biosensors and Bioelectronics, 25, (3), 623-628, (2009)
Smerkova K
Bezdekova J et al., Magnetic molecularly imprinted polymers used for selective isolation and detection of Staphylococcus aureus.Food Chemistry, 321, Article126673-(2020)
Smet M
Liu ZH et al., Cation-Selective Microcontact Printing Based on Surface-Molecular-Imprinted Layer-by-Layer Films.Advanced Materials, 22, (24), 2689-2693, (2010)
Smidt H
Ruigrok VJB et al., Alternative affinity tools: more attractive than antibodies?Biochemical Journal, 436, (1), 1-13, (2011)
Smietana M
Martin AR et al., Boron and nucleic acid chemistries: merging the best of both worlds.Chemical Society Reviews, 42, (13), 5684-5713, (2013)
Smirnova Z
Patrikeev V et al., Some biological properties of specifically formed silica.Doklady Akademii Nauk SSSR, 146, 707-709, (1962)
Smit I
Kuzmic AE et al., A new approach to the preparation of molecularly imprinted polymers [Novi pristup priredivanju molekulski tiskanih polimera].Polimeri (Zagreb), 26, (2), 63-68, (2005)
Smith AP
Meredith JC et al., Book chapter, Combinatorial Polymer Science: Synthesis and Characterization,In: Combinatorial Materials Development, Malhotra R (Ed.) American Chemical Society: Washington, DC, Ch. 2, 23-47, (2002)
Smith BD
Peck EM et al., Book chapter, Applications of Synthetic Receptors for Biomolecules,In: Synthetic Receptors for Biomolecules: Design Principles and Applications, Smith BD (Ed.) The Royal Society of Chemistry: Cambridge, Ch. 1, 1-38, (2015)
Smith C
Smith C et al., Proceeding, Optical bar code recognition of methyl salicylate (MES) for environmental monitoring using fluorescence resonance energy transfer (FRET) on thin films,Christensen SD, Sedlacek AJ, Gillespie JB, Ewing KJ (Eds.), U231-U235, (2006)
Smith CB
Smith CB et al., Fluorescence resonance energy transfer based MCM-EDTA-Tb3+-MES sensor.Applied Spectroscopy, 62, (6), 604-610, (2008)
Smith CB et al., In Situ Surface-Etched Bacterial Spore Detection Using Dipicolinic Acid - Europium - Silica Nanoparticle Bioreporters.
Applied Spectroscopy, 65, (8), 866-875, (2011)
Smith CR
Alexander C et al., Book chapter, Polymers for selective adsorption, application of molecular imprinting to biotechnology,In: Separation for biotechnology 3, Pyle DL (Ed.) Royal Society of Chemistry: Cambridge, 22-28, (1994)
Smith CR et al., Book chapter, Novel boronophthalide-based polymers for the selective separation of sterols,
In: Separation for biotechnology 3, Pyle DL (Ed.) Royal Society of Chemistry: Cambridge, 482-488, (1994)
Alexander C et al., Imprinted polymers as protecting groups for regioselective modification of polyfunctional substrates.
Journal of the American Chemical Society, 121, (28), 6640-6651, (1999)
Smith DS
Eremin SA et al., Fluorescence polarization immunoassays for pesticides.Combinatorial Chemistry & High Throughput Screening, 6, (3), 257-266, (2003)
Smith GV
Klabunovskii E et al., Book chapter, Asymmetric adsorption on minerals,In: Heterogeneous Enantioselective Hydrogenation, Klabunovskii E, Smith GV, Zsigmond A (Eds.) Springer Netherlands: Ch. 1, 1-29, (2006)
Smith JR
Rosengren-Holmberg JP et al., Heparin molecularly imprinted surfaces for the attenuation of complement activation in blood.Biomaterials Science, 3, (8), 1208-1217, (2015)
Smith MD
Degenhardt CF et al., Conformationally imprinted receptors: Atropisomers with "write", save, and "erase" recognition properties.Organic Letters, 7, (19), 4079-4081, (2005)
Smith NW
Altria KD et al., Analysis of acidic compounds using capillary electrochromatography.Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 717, (1-2), 341-353, (1998)
Smith PJ
Brune BJ et al., Correlation between adsorption and small molecule hydrogen bonding.Langmuir, 15, (11), 3987-3992, (1999)
Smith RK
Smith RK et al., Patterning self-assembled monolayers.Progress in Surface Science, 75, (1-2), 1-68, (2004)
Smith RM
Smith RM, Before the injection - modern methods of sample preparation for separation techniques.Journal of Chromatography A, 1000, (1-2), 3-27, (2003)
Ridgway K et al., Sample preparation techniques for the determination of trace residues and contaminants in foods.
Journal of Chromatography A, 1153, (1-2), 36-53, (2007)
Smith SP
Díaz-Álvarez M et al., Preparation of molecularly imprinted polymeric fibers using a single bifunctional monomer for the solid-phase microextraction of parabens from environmental solid samples.Journal of Separation Science, 39, (3), 552-558, (2016)
Smitha KR
Smitha KR, Development of enantioselective molecular imprinted polymers of D-mandelic acid.Journal of Research Innovations in Engineering & Technology, 2, (3), 55-59, (2016)
Smolinska-Kempisty K
Smolinska-Kempisty K et al., Surface imprinted polymer layers on membranes.Membranes and Membrane Processes in Environmental Protection, 118, 277-281, (2014)
Smolinska-Kempisty K et al., A comparison of the performance of molecularly imprinted polymer nanoparticles for small molecule targets and antibodies in the ELISA format.
Scientific Reports, 6, ArticleNo37638-(2016)
Canfarotta F et al., Book chapter, Replacement of Antibodies in Pseudo-ELISAs: Molecularly Imprinted Nanoparticles for Vancomycin Detection,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 389-398, (2017)
Garcia Y et al., Development of competitive 'pseudo'-ELISA assay for measurement of cocaine and its metabolites using molecularly imprinted polymer nanoparticles.
Analytical Methods, 9, (31), 4592-4598, (2017)
Piletska E et al., Biomimetic Silica Nanoparticles Prepared by a Combination of Solid-Phase Imprinting and Ostwald Ripening.
Scientific Reports, 7, (1), ArticleNo11537-(2017)
Smolinska-Kempisty K et al., New potentiometric sensor based on molecularly imprinted nanoparticles for cocaine detection.
Biosensors and Bioelectronics, 96, 49-54, (2017)
Tang SP et al., A pseudo-ELISA based on molecularly imprinted nanoparticles for detection of gentamicin in real samples.
Analytical Methods, 9, (19), 2853-2858, (2017)
Wolska J et al., Polypropylene prefilters with surface imprinted layer.
Separation and Purification Technology, 174, 89-96, (2017)
Canfarotta F et al., Specific Drug Delivery to Cancer Cells with Double-Imprinted Nanoparticles against Epidermal Growth Factor Receptor.
Nano Letters, 18, (8), 4641-4646, (2018)
Munawar H et al., Molecularly imprinted polymer nanoparticle-based assay (MINA): application for fumonisin B1 determination.
Analyst, 143, (14), 3481-3488, (2018)
Garcia Y et al., Competitive pseudo-ELISA based on molecularly imprinted nanoparticles for microcystin-LR detection in water.
Pure And Applied Chemistry, 91, (10), 1593-1604, (2019)
Smolinska-Kempisty K et al., Negative selection of MIPs to create high specificity ligands for glycated haemoglobin.
Sensors and Actuators B: Chemical, 301, Article126967-(2019)
Smolko EE
Wolman FJ et al., Peptide imprinted polymer synthesized by radiation-induced graft polymerization.Reactive and Functional Polymers, 66, (11), 1199-1205, (2006)
Smoluch M
Ceglowski M et al., Molecularly imprinted polymers as selective adsorbents for ambient plasma mass spectrometry.Analytical and Bioanalytical Chemistry, 409, (13), 3393-3405, (2017)
Smyth MR
Walshe M et al., The preparation of a molecular imprinted polymer to 7-hydroxycoumarin and its use as a solid-phase extraction material.Journal of Pharmaceutical and Biomedical Analysis, 16, (2), 319-325, (1997)
Walshe M et al., Separation of the enantiomers of propranolol by incorporation of molecularly imprinted polymer particles as chiral selectors in capillary electrophoresis.
Analytical Communications, 34, (4), 119-121, (1997)
Molinelli A et al., Analyzing the mechanisms of selectivity in biomimetic self-assemblies via IR and NMR spectroscopy of prepolymerization solutions and molecular dynamics simulations.
Analytical Chemistry, 77, (16), 5196-5204, (2005)
O’Mahony J et al., Towards the rational development of molecularly imprinted polymers: 1H NMR studies on hydrophobicity and ion-pair interactions as driving forces for selectivity.
Biosensors and Bioelectronics, 20, (9), 1884-1893, (2005)
O’Mahony J et al., Molecularly imprinted polymers - potential and challenges in analytical chemistry.
Analytica Chimica Acta, 534, (1), 31-39, (2005)
O’Mahony J et al., Anatomy of a successful imprint: Analysing the recognition mechanisms of a molecularly imprinted polymer for quercetin.
Biosensors and Bioelectronics, 21, (7), 1383-1392, (2006)
Sneshkoff N
Sneshkoff N et al., An improved molecularly imprinted polymer film for recognition of amino acids.Journal of Applied Polymer Science, 86, (14), 3611-3615, (2002)
Snezhkova O
Chaudhary S et al., Controlled short-linkage assembly of functional nano-objects.Applied Surface Science, 300, 22-28, (2014)
Snipes SA
Manickam P et al., A Reusable Electrochemical Biosensor for Monitoring of Small Molecules (Cortisol) Using Molecularly Imprinted Polymers.Journal of The Electrochemical Society, 164, (2), B54-B59, (2017)
Snow NH
O’Brien TP et al., Mechanistic aspects of chiral discrimination on a molecular imprinted polymer phase.Journal of Liquid Chromatography & Related Technologies, 22, (2), 183-204, (1999)
O’Brien TP et al., Evaluation of the origins of the selectivity of polymers imprinted with a HIV protease inhibitor using infrared spectroscopy and high performance liquid chromatography.
Enantiomer, 7, (2-3), 139-148, (2002)
Fish WP et al., Rational design of an imprinted polymer: Maximizing selectivity by optimizing the monomer-template ratio for a cinchonidine MIP, prior to polymerization, using microcalorimetry.
Journal of Liquid Chromatography & Related Technologies, 28, (1), 1-15, (2005)
Snowden EM
Snowden EM et al., Proceeding, The removal of mousy off-flavour from wine using molecular imprint technology,Blair RJ, Williams PJ, Pretorius IS (Eds.), 301-302, (2004)
Snowden MJ
Thorne JB et al., Microgel applications and commercial considerations.Colloid & Polymer Science, 289, (5), 625-646, (2011)
Snowden TS
Snowden TS et al., Anion recognition: synthetic receptors for anions and their application in sensors.Current Opinion in Chemical Biology, 3, 740-746, (1999)
Snyder L
Snyder L, Adsorption from solution. IV. Aromatic hydrocarbons on silica.Journal of Physical Chemistry, 67, (12), 2622-2628, (1963)
So J
Dong HX et al., A surface molecularly imprinted polymer as chiral stationary phase for chiral separation of 1, 1'-binaphthalene-2-naphthol racemates.Chirality, 29, (7), 340-347, (2017)
So J et al., Adsorption of 1-naphthyl methyl carbamate in water by utilizing a surface molecularly imprinted polymer.
Chemical Physics Letters, 699, 199-207, (2018)
So MH
Hong SJ et al., A Dopamine Electrochemical Sensor Based on Molecularly Imprinted Poly(acrylamidophenylboronic acid) Film.Electroanalysis, 25, (4), 1085-1094, (2013)
So RC
Basnig DA et al., Synthesis, Optimization, and Characterization of Molecularly Imprinted Microgels for the Specific Recognition of Corosolic Acid.International Journal of Chemical and Environmental Engineering, 4, (3), 177-183, (2013)
Romano EF et al., Preparation and Binding Evaluation of Histamine-Imprinted Microspheres via Conventional Thermal and RAFT-Mediated Free-Radical Polymerization.
ACS Omega, 1, (4), 518-531, (2016)
Romano EF et al., Assessment of the binding performance of histamine-imprinted microspheres by frontal analysis capillary electrophoresis.
Electrophoresis, 38, (9-10), 1251-1259, (2017)
Silverio OV et al., Development of dieldrin, endosulfan, and hexachlorobenzene-imprinted polymers for dye-displacement array sensing.
Journal of Applied Polymer Science, 134, (2), ArticleNo44401-ArticleNo44n/a, (2017)
Romano EFJ et al., Room temperature synthesis and binding studies of solution-processable histamine-imprinted microspheres.
Journal of Molecular Recognition, 31, (1), ArticleNoe2659-(2018)
So SM
Kim H et al., Highly Stereospecific Generation of Helical Chirality by Imprinting with Amino Acids: A Universal Sensor for Amino Acid Enantiopurity.Angewandte Chemie International Edition, 47, (45), 8657-8660, (2008)
Soares A
Guerreiro A et al., Preliminary evaluation of new polymer matrix for solid-phase extraction of nonylphenol from water samples.Analytica Chimica Acta, 612, (1), 99-104, (2008)
Warwick C et al., Sensing and analysis of soluble phosphates in environmental samples: A review.
Biosensors and Bioelectronics, 41, 1-11, (2013)
Warwick C et al., Conductance based sensing and analysis of soluble phosphates in wastewater.
Biosensors and Bioelectronics, 52, 173-179, (2014)
Warwick C et al., A molecular imprinted polymer based sensor for measuring phosphate in wastewater samples.
Water Science & Technology, 69, (1), 48-54, (2014)
Soares CM
Lousa D et al., Structural determinants of ligand imprinting: A molecular dynamics simulation study of subtilisin in aqueous and apolar solvents.Protein Science, 20, (2), 379-386, (2011)
Lousa D et al., A molecular perspective on nonaqueous biocatalysis: contributions from simulation studies.
Physical Chemistry Chemical Physics, 15, (33), 13723-13736, (2013)
Soares CMF
Soares CMF et al., Molecular imprinting of [beta]-cyclodextrin/cholesterol template into a silica polymer for cholesterol separation.Journal of Inclusion Phenomena and Macrocyclic Chemistry, 57, (1), 79-82, (2007)
Oliveira GR et al., Neural modelling in adsorption column of cholesterol-removal efficiency from milk.
LWT - Food Science and Technology, 64, (2), 632-638, (2015)
Balieiro AL et al., Adsorption process of molecularly imprinted silica for extraction of lactose from milk.
Brazilian Journal of Chemical Engineering, 33, (2), 361-372, (2016)
Soares DA
Santos H et al., Molecularly imprinted polymers for miniaturized sample preparation techniques: strategies for chromatographic and mass spectrometry methods.Analytical Methods, 12, (7), 894-911, (2020)
Soares TCC
Jamieson O et al., Screen Printed Electrode Based Detection Systems for the Antibiotic Amoxicillin in Aqueous Samples Utilising Molecularly Imprinted Polymers as Synthetic Receptors.Chemosensors, 8, (1), ArticleNo5-(2020)
Soares da Silva M
Soares da Silva M et al., Supercritical fluid technology as a new strategy for the development of semi-covalent molecularly imprinted materials.RSC Advances, 2, (12), 5075-5079, (2012)
Ferreira JP et al., Integrated desulfurization of diesel by combination of metal-free oxidation and product removal by molecularly imprinted polymers.
RSC Advances, 4, (98), 54948-54952, (2014)
Sobczak JW
Huynh TP et al., Simultaneous Chronoamperometry and Piezoelectric Microgravimetry Determination of Nitroaromatic Explosives Using Molecularly Imprinted Thiophene Polymers.Analytical Chemistry, 85, (17), 8361-8368, (2013)
Huynh TP et al., Electrochemically synthesized molecularly imprinted polymer of thiophene derivatives for flow-injection analysis determination of adenosine-5'-triphosphate (ATP).
Biosensors and Bioelectronics, 41, 634-641, (2013)
Sharma PS et al., Fullerene derived molecularly imprinted polymer for chemosensing of adenosine-5'-triphosphate (ATP).
Analytica Chimica Acta, 844, 61-69, (2014)
Huynh TP et al., Nicotine molecularly imprinted polymer: Synergy of coordination and hydrogen bonding.
Biosensors and Bioelectronics, 64, 657-663, (2015)
Sobek H
Dinc M et al., Selective Binding of Inhibitor-Assisted Surface-Imprinted Core/Shell Microbeads in Protein Mixtures.ChemistrySelect, 3, (16), 4277-4282, (2018)
Gast M et al., Enhanced Selectivity by Passivation: Molecular Imprints for Viruses with Exceptional Binding Properties.
Analytical Chemistry, 90, (9), 5576-5585, (2018)
Gast M et al., Understanding the viral load during the synthesis and after rebinding of virus imprinted particles via real-time quantitative PCR.
Analyst, 143, (11), 2616-2622, (2018)
Schauer N et al., Selective binding of matrix metalloproteases MMP-9 and MMP-12 to inhibitor-assisted thermolysin-imprinted beads.
RSC Advances, 8, (57), 32387-32394, (2018)
Gast M et al., Advances in imprinting strategies for selective virus recognition a review.
TrAC Trends in Analytical Chemistry, 114, 218-232, (2019)
Gast M et al., Selective virus capture via hexon imprinting.
Materials Science and Engineering: C, 99, 1099-1104, (2019)
Gast M et al., Use of Super-Resolution Optical Microscopy To Reveal Direct Virus Binding at Hybrid Core-Shell Matrixes.
Analytical Chemistry, 92, (4), 3050-3057, (2020)
Dietl S et al., Epitope-imprinted polymers for biomacromolecules: Recent strategies, future challenges and selected applications.
TrAC Trends in Analytical Chemistry, 143, Article116414-(2021)
Dietl S et al., Core-Shell Imprinted Particles for Adenovirus Binding.
Materials, 14, (24), ArticleNo7692-(2021)
Sobhani-Nasab A
Hassanzadeh J et al., Specific fluorometric assay for direct determination of amikacin by molecularly imprinting polymer on high fluorescent g-C3N4 quantum dots.Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 214, 451-458, (2019)
Sobhi DJ
Sobhi DJ et al., Synthesis of imprinted polymer material with palladium ion nanopores and its analytical application.Analytica Chimica Acta, 488, (2), 173-182, (2003)
Sobiech M
Lulinski P et al., A separation of tyramine on a 2-(4-methoxyphenyl)ethylamine imprinted polymer: An answer from theoretical and experimental studies.Talanta, 129, 155-164, (2014)
Sobiech M et al., A computational exploration of imprinted polymer affinity based on voriconazole metabolites.
Analyst, 139, (7), 1779-1788, (2014)
Sobiech M et al., Separation of octopamine racemate on (R, S)-2-amino-1-phenylethanol imprinted polymer - Experimental and computational studies.
Talanta, 146, 556-567, (2016)
Sobiech M et al., The selective response of a templated polymer for the cationic drug pentamidine: implications from molecular simulations and experimental data.
RSC Advances, 7, (74), 46881-46893, (2017)
Maciejewska D et al., Book chapter, Molecularly Imprinted Polymer-based Materials for Quantifying Pharmaceuticals,
In: Molecularly Imprinted Polymers for Analytical Chemistry Applications, Kutner W, Sharma PS (Eds.) Royal Society of Chemistry: Ch. 5, 145-166, (2018)
Sobiech M et al., Book chapter, Imprinted polymeric nanoparticles as nanodevices, biosensors and biolabels,
In: Nanostructures for the Engineering of Cells, Tissues and Organs, Grumezescu AM (Ed.) William Andrew Publishing: Ch. 9, 331-374, (2018)
Sobiech M et al., Book chapter, Imprinted Polymeric Gels for Pharmaceutical and Biomedical Purposes,
In: Polymer Gels: Perspectives and Applications, Thakur VK, Thakur MK, Voicu SI (Eds.) Springer Singapore: Singapore, 153-183, (2018)
Sobiech M et al., Semiconductor nanocrystal-polymer hybrid nanomaterials and their application in molecular imprinting.
Nanoscale, 11, (25), 12030-12074, (2019)
Sobiech M et al., Theoretical and experimental proof for selective response of imprinted sorbent - analysis of hordenine in human urine.
Journal of Chromatography A, 1613, Article460677-(2020)
Janczura M et al., Imprinting Technology for Effective Sorbent Fabrication: Current State-of-Art and Future Prospects.
Materials, 14, (8), ArticleNo1850-(2021)
Soboleva IG
Karaseva NA et al., Development of Piezoelectric Sensors on the Basis of Electrosynthesized Molecularly Imprinted Polymers for [beta]-lactam Antibiotics' Detection.Procedia Technology, 27, 185-186, (2017)
Sobolewski P
Sobolewski P et al., Polymer-Graphene Nanocomposite Materials for Electrochemical Biosensing.Macromolecular Bioscience, 16, (7), 944-957, (2016)
Socas-Rodríguez B
Socas-Rodríguez B et al., Chromatographic analysis of natural and synthetic estrogens in milk and dairy products.TrAC Trends in Analytical Chemistry, 44, 58-77, (2013)
González-Sálamo J et al., Evaluation of two molecularly imprinted polymers for the solid-phase extraction of natural, synthetic and mycoestrogens from environmental water samples before liquid chromatography with mass spectrometry.
Journal of Separation Science, 38, (15), 2692-2699, (2015)
Sodanat S
Amatatongchai M et al., Highly sensitive and selective electrochemical paper-based device using a graphite screen-printed electrode modified with molecularly imprinted polymers coated Fe3O4@Au@SiO2 for serotonin determination.Analytica Chimica Acta, 1077, 255-265, (2019)
Sode K
Yamazaki T et al., Alteration of substrate specificity of galactose oxidase by chemical cross-linking.Denki Kagaku, 65, 435-439, (1997)
Sode K et al., A new concept for the construction of an artificial dehydrogenase for fructosylamine compounds and its application for an amperometric fructosylamine sensor.
Analytica Chimica Acta, 435, (1), 151-156, (2001)
Yamazaki T et al., A novel amperometric sensor for organophosphotriester insecticides detection employing catalytic polymer mimicking phosphotriesterase catalytic center.
Electrochemistry, 69, (12), 969-972, (2001)
Yamazaki T et al., Towards the use of molecularly imprinted polymers containing imidazoles and bivalent metal complexes for the detection and degradation of organophosphotriester pesticides.
Analytica Chimica Acta, 435, (1), 209-214, (2001)
Meng ZH et al., Enhancement of the catalytic activity of an artificial phosphotriesterase using a molecular imprinting technique.
Biotechnology Letters, 25, (13), 1075-1080, (2003)
Sode K et al., Construction of a molecular imprinting catalyst using target analogue template and its application for an amperometric fructosylamine sensor.
Biosensors and Bioelectronics, 18, (12), 1485-1490, (2003)
Yamazaki T et al., Molecular imprinting catalyst based artificial enzyme sensor for fructosylamines.
Analytical Letters, 36, (1), 75-89, (2003)
Meng ZH et al., A molecularly imprinted catalyst designed by a computational approach in catalysing a transesterification process.
Biosensors and Bioelectronics, 20, (6), 1068-1075, (2004)
Meng ZH et al., The molecular reaction vessels for a transesterification process created by molecular imprinting technique.
Journal of Molecular Recognition, 18, (3), 262-266, (2005)
Meng ZH et al., Construction of artificial cyclic amide amidohydrolases using molecular imprinting technique.
Biotechnology Letters, 27, (7), 471-475, (2005)
Yamazaki T et al., Molecular recognition of AGEs using molecularly imprinted polymer.
Nippon Kagakkai Koen Yokoshu, 86, (2), 944-(2006)
Yoshimatsu K et al., Uniform molecularly imprinted microspheres and nanoparticles prepared by precipitation polymerization: The control of particle size suitable for different analytical applications.
Analytica Chimica Acta, 584, (1), 112-121, (2007)
Yamazaki T et al., Operational condition of a molecular imprinting catalyst-based fructosyl-valine sensor.
Electrochemistry, 76, (8), 590-593, (2008)
Yoshimatsu K et al., Corrigendum to "Uniform molecularly imprinted microspheres and nanoparticles prepared by precipitation polymerization: The control of particle size suitable for different analytical applications" [Anal. Chim. Acta 584 (2007) 112-121].
Analytica Chimica Acta, 657, (2), 215-215, (2010)
Sode K et al., Molecular recognition of fructosyl amine compounds by molecularly imprinted polymers.
Nippon Kagakkai Koen Yokoshu, 79, (2), 840-(2011)
Soderberg D
Soderberg D, Committee on residues and related topics - Pesticides and other chemical contaminants.Journal of AOAC International, 88, (1), 331-341, (2005)
Sodeyama T
Matsui J et al., Molecularly-imprinted polymeric logic gates selective for predetermined chemical input species.Chemical Communications, (30), 3217-3219, (2006)
Matsui J et al., Face-to-face porphyrin moieties assembled with spacing for pyrazine recognition in molecularly imprinted polymers.
Biosensors and Bioelectronics, 25, (3), 635-639, (2009)
Sodkrathok P
Amatatongchai M et al., Novel three-Dimensional molecularly imprinted polymer-coated carbon nanotubes (3D-CNTs@MIP) for selective detection of profenofos in food.Analytica Chimica Acta, 1076, 64-72, (2019)
Soegianto A
Wirawan T et al., Synthesis, characterization, and application of novel Zn(II)-ionic imprinted polymer for preconcentration of Zn(II) ions from aqueous solution.IOP Conference Series: Materials Science and Engineering, 349, (1), ArticleNo012064-(2018)
Wirawan T et al., Adsorption of Zinc(II) onto Zn(II)-Ionic Imprinted Polymer.
IOP Conference Series: Materials Science and Engineering, 546, (2), Article022036-(2019)
Soekamto NH
Soekamto NH et al., Adsorption of [beta]-sitosterol on molecularly imprinted polymer.IOP Conference Series: Materials Science and Engineering, 188, ArticleNo012048-(2017)
Fauziah S et al., Molecularly Imprinted Polymers as [beta]-sitosterol selective adsorbent using combination of Methacrylate Acid and Trimethylpropane Trimethacrylate.
International Journal of ChemTech Research, 11, (2), 40-50, (2018)
Fauziah S et al., Selectivity of [beta]-Sitosterol Imprinted Polymers as Adsorbent.
Journal of Physics: Conference Series, 979, (1), ArticleNo012059-(2018)
Soetaert W
De Winter K et al., An Imprinted Cross-Linked Enzyme Aggregate (iCLEA) of Sucrose Phosphorylase: Combining Improved Stability with Altered Specificity.International Journal of Molecular Sciences, 13, (9), 11333-11342, (2012)
Sogah DY
Von Werne TA et al., Patterned polymer brushes from molded polymer surfaces.Polymer Preprints, 46, (2), 46-47, (2005)
Sogo SG
Piszkiewicz S et al., Molecularly-imprinted nanoparticles that recognize Naja mossambica cytotoxins: binding studies and biological effects.Chemical Communications, 49, (53), 5954-5956, (2013)
Sohail M
Xu XM et al., Carbon dots coated with molecularly imprinted polymers: A facile bioprobe for fluorescent determination of caffeic acid.Journal of Colloid and Interface Science, 529, 568-574, (2018)
Sohail S
Nezami MM et al., An MIP-Based Novel Capacitive Sensor to Detect 2-FAL Concentration in Transformer Oil.IEEE Sensors Journal, 18, (19), 7924-7931, (2018)
Soheilifar S
Soheilifar S et al., Application of molecularly imprinted polymer in solid-phase microextraction coupled with HPLC-UV for analysis of dibutyl phthalate in bottled water and soft drink samples.Journal of Liquid Chromatography & Related Technologies, 41, (9), 552-560, (2018)
Sohma K
Miyajima T et al., A physiochemical study on the origin of the imprinting effect.Abstracts of Papers of the American Chemical Society, 213, (IEC), 148-148, (1997)
Miyajima T et al., Book chapter, A physicochemical study on the origin of the imprinting effect,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 20, 290-297, (1998)
Sok N
Bitar M et al., Molecularly imprinted sol-gel polymers for the analysis of iprodione fungicide in wine: Synthesis in green solvent.Food Chemistry, 293, 226-232, (2019)
Sokoll LJ
Luppa PB et al., Immunosensors - principles and applications to clinical chemistry.Clinica Chimica Acta, 314, (1-2), 1-26, (2001)
Sokolov J
Wang YT et al., A potentiometric protein sensor built with surface molecular imprinting method.Biosensors and Bioelectronics, 24, (1), 162-166, (2008)
Wang YT et al., Potentiometric sensors based on surface molecular imprinting: Detection of cancer biomarkers and viruses.
Sensors and Actuators B: Chemical, 146, (1), 381-387, (2010)
Wang YT et al., Surface-imprinted biosensors for the detection of proteins, cancer markers and viruses.
Current Trends in Polymer Science, 18, 1-13, (2018)
Sokolova SA
Duvanova OV et al., Use of Piezoelectric Sensors for the Determination of Oleic and Palmitic Acids in Vegetable Oils.Inorganic Materials, 54, (14), 1387-1391, (2018)
Sokolowski S
Rzysko W et al., Theory of adsorption in a polydisperse templated porous material: Hard sphere systems.Journal of Chemical Physics, 116, (10), 4286-4292, (2002)
Sokuler M
Belmont AS et al., Direct writing of molecularly imprinted microstructures using a nanofountain pen.Applied Physics Letters, 90, (19), Art. No. 193101-(2007)
Solange LA
Shim YH et al., Chiral recognition and separation of b2-amino acids using noncovalently molecularly imprinted polymers.Analyst, 129, (12), 1211-1215, (2004)
Solanki P
Lakshmi G et al., Polypyrrole based molecularly imprinted polymer detection platform for bacteria.SPAST Abstracts 1 (2021)
Solanki PR
Singh AK et al., A simple detection platform based on molecularly imprinted polymer for AFB1 and FuB1 mycotoxins.Microchemical Journal, 171, Article106730-(2021)
Solari M
Vicario A et al., Molecular imprinting on surface of silica particles for the selective extraction of benzylparaben in flow system applied to cosmetics and water samples.Microchemical Journal, 142, 329-334, (2018)
Solati Z
Mokhtari Z et al., Evaluation of molecular imprinted polymerized methylene blue/aptamer as a novel hybrid receptor for Cardiac Troponin I (cTnI) detection at glassy carbon electrodes modified with new biosynthesized ZnONPs.Sensors and Actuators B: Chemical, 320, Article128316-(2020)
Soldatkin AP
Soldatkin AP et al., Biosensors. A quarter of a century of R&D experience.Biopolymers and Cell, 29, (3), 188-206, (2013)
Soldatkin OO
Soldatkin AP et al., Biosensors. A quarter of a century of R&D experience.Biopolymers and Cell, 29, (3), 188-206, (2013)
Soledad-Rodríguez B
García-Mayor MA et al., Occurrence of erythromycin residues in sheep milk. Validation of an analytical method.Food and Chemical Toxicology, 78, 26-32, (2015)
Soledad-Rodríguez B, Use of Molecularly Imprinted Polymers as Sample Pre-concentrators in Chemical Trace Analysis (Empleo De Polímeros De Impronta Molecular Como Pre-Concentradores De Muestras En El Análisis Químico De Trazas).
Revista Techné, 20, (2), 3-22, (2017)
Soledad-Rodríguez B et al., Effective determination of ampicillin in cow milk using a molecularly imprinted polymer as sorbent for sample preconcentration.
Food Chemistry, 224, 432-438, (2017)
Soledad-Rodríguez B, Technological Innovations in the Industry. A Proposal for the Analysis of Environmental Contaminants with Molecular Imprint Polymers (Innovaciones Tecnológicas En La Industria. Una Propuesta Para El Análisis De Contaminantes Ambientales Con Polímeros De Impronta Molecular).
Revista Techné, 21, (2), 19-51, (2018)
Soledad-Rodríguez BE
Soledad-Rodríguez BE, Analysis of environmental contaminants with molecularly imprinted polymers [ANÁLISIS DE CONTAMINANTES AMBIENTALES CON POLÍMEROS DE IMPRONTA MOLECULAR].Revista Internacional de Contaminación Ambiental, 36, (1), 197-207, (2020)
Soleimani E
Soleimani E et al., Determination of urinary trans, trans-muconic acid using molecularly imprinted polymer in microextraction by packed sorbent followed by liquid chromatography with ultraviolet detection.Journal of Chromatography B, 1061, 65-71, (2017)
Soleimani E et al., Selective determination of mandelic acid in urine using molecularly imprinted polymer in microextraction by packed sorbent.
Archives of Toxicology, 92, (1), 213-222, (2018)
Soleimani E et al., Correction to: Selective determination of mandelic acid in urine using molecularly imprinted polymer in microextraction by packed sorbent.
Archives of Toxicology, 92, (1), 223-223, (2018)
Hassanpour A et al., Increasing the anticancer activity of azidothymidine toward the breast cancer via rational design of magnetic drug carrier based on molecular imprinting technology.
Materials Science and Engineering: C, 103, Article109771-(2019)
Soleimani M
Aghajanzadeh M et al., Proceeding, Ion Imprinted Polymer Particles for Zink Uptake: Synthesis, Characterization and Solid Phase Extraction,(2011)
Soleimani M et al., Synthesis of molecularly imprinted polymer as a sorbent for solid phase extraction of bovine albumin from whey, milk, urine and serum.
Microchemical Journal, 100, (1), 1-7, (2012)
Madrakian T et al., Selective solid-phase extraction of naproxen drug from human urine samples using molecularly imprinted polymer-coated magnetic multi-walled carbon nanotubes prior to its spectrofluorometric determination.
Analyst, 138, (16), 4542-4549, (2013)
Soleimani M et al., High Selective Methadone Sensor Based on Molecularly Imprinted Polymer Carbon Paste Electrode Modified with Carbon Nanotubes.
Sensor Letters, 11, (10), 1983-1991, (2013)
Soleimani M et al., High-Selective Tramadol Sensor Based on Modified Molecularly Imprinted Polymer-Carbon Paste Electrode with Multiwalled Carbon Nanotubes.
Electroanalysis, 25, (5), 1159-1168, (2013)
Soleimani M et al., Highly selective solid phase extraction of mercury ion based on novel ion imprinted polymer and its application to water and fish samples.
Journal of Analytical Chemistry, 70, (1), 5-12, (2015)
Soleimani M et al., Magnetic solid phase extraction of rizatriptan in human urine samples prior to its spectrofluorimetric determination.
Sensors and Actuators B: Chemical, 254, 1225-1233, (2018)
Amlashi HS et al., Molecularly imprinted polymer solid phase extraction followed by high-performance liquid chromatography as an efficient and sensitive technique for determination of meropenem in human plasma and urine.
South African Journal of Chemistry, 72, (1), 32-39, (2019)
Tavakoli Z et al., Evaluation of an Experimentally Designed Molecular Imprinted Polyurethane Foam Performance for Extraction of Alprazolam.
Journal of Chromatographic Science, 57, (7), 662-670, (2019)
Tavakoli Z et al., Characterization and performance evaluation of functional monomer effect on molecular imprinted polyurethane foam.
Journal of Chromatography A, 1602, 30-40, (2019)
Bakhshi A et al., A Molecularly Imprinted Polymer as the Adsorbent for the Selective Determination of Oxazepam in Urine and Plasma Samples by High-Performance Liquid Chromatography with Diode Array Detection.
Journal of Analytical Chemistry, 76, (12), 1414-1421, (2021)
Soleimani S
Soleimani M et al., Synthesis of molecularly imprinted polymer as a sorbent for solid phase extraction of bovine albumin from whey, milk, urine and serum.Microchemical Journal, 100, (1), 1-7, (2012)
Soles CL
Soles CL et al., Melting behavior of imprinted polymer nanostructures.Abstracts of Papers of the American Chemical Society, 230, 89-PMSE, (2005)
Soleymanpour A
Rouhani M et al., Molecularly imprinted sol-gel electrochemical sensor for sildenafil based on a pencil graphite electrode modified by Preyssler heteropolyacid/gold nanoparticles/MWCNT nanocomposite.Microchimica Acta, 187, (9), Article512-(2020)
Hassan Oghli A et al., Ultrasensitive electrochemical sensor for simultaneous determination of sumatriptan and paroxetine using molecular imprinted polymer/sol-gel/polyoxometalate/rGO modified pencil graphite electrode.
Sensors and Actuators B: Chemical, 344, Article130215-(2021)
Solich P
Aufartová J et al., Determination of steroid hormones in biological and environmental samples using green microextraction techniques: An overview.Analytica Chimica Acta, 704, (1-2), 33-46, (2011)
Boonjob W et al., Retention and selectivity of basic drugs on solid-phase extraction sorbents: Application to direct determination of [beta]-blockers in urine.
Analytical and Bioanalytical Chemistry, 406, (17), 4207-4215, (2014)
Lhotská I et al., Critical comparison of the on-line and off-line molecularly imprinted solid-phase extraction of patulin coupled with liquid chromatography.
Journal of Separation Science, 40, (23), 4599-4609, (2017)
González N et al., Flow-batch analysis of clenbuterol based on analyte extraction on molecularly imprinted polymers coupled to an in-system chromogenic reaction. Application to human urine and milk substitute samples.
Talanta, 178, 934-942, (2018)
Lhotská I et al., Molecularly imprinted vs. reversed-phase extraction for the determination of zearalenone: a method development and critical comparison of sample clean-up efficiency achieved in an on-line coupled SPE chromatography system.
Analytical and Bioanalytical Chemistry, 410, (14), 3265-3273, (2018)
Lhotská I et al., Preparation of citrinin-selective molecularly imprinted polymer and its use for on-line solid-phase extraction coupled to liquid chromatography.
Analytical and Bioanalytical Chemistry, 411, (11), 2395-2404, (2019)
Kholová A et al., Comparison study of nanofibers, composite nano/microfiber materials, molecularly imprinted polymers, and core-shell sorbents used for on-line extraction-liquid chromatography of ochratoxins in Tokaj wines.
Microchemical Journal, 170, Article106680-(2021)
Solomonov BN
Gorbatchuk VV et al., Biomimetic cooperative interactions of dried cross-linked poly(N-6-aminohexylacrylamide) with binary mixtures of solvent vapors.Biomacromolecules, 5, (4), 1615-1623, (2004)
Solov'ev MA
Berezkin AV et al., Template copolymerization near a patterned surface: Computer simulation.Journal of Chemical Physics, 121, (12), 6011-6020, (2004)
Solovyov A
Bass JD et al., Acid-base bifunctional and dielectric outer-sphere effects in heterogeneous catalysis: A comparative investigation of model primary amine catalysts.Journal of the American Chemical Society, 128, (11), 3737-3747, (2006)
Soltani MD
Soltani MD et al., Preparation and Application of Nanostructure Ion-Imprinted Polymer for Selective Solid-Phase Extraction of Pb Ions in Water, Hair, and Food Samples.Journal of AOAC International, 99, (5), 1363-1369, (2016)
Soltani N
Sarabadani P et al., Solid phase extraction of radioyttrium from irradiated strontium target using nanostructure ion imprinted polymer formed with 1-hydroxy-4-(prop-2-enyloxy)-9, 10-anthraquinone.Applied Radiation and Isotopes, 90, 8-14, (2014)
Soltani-Shahrivar M
Afkhami A et al., Selective and Sensitive Electrochemical Determination of Trace Amounts of Mercury Ion in Some Real Samples Using an Ion Imprinted Polymer Nano-Modifier.Journal of The Electrochemical Society, 163, (3), B68-B75, (2016)
Solŕ R
Hudson AD et al., Synthesis of Optimized Molecularly Imprinted Polymers for the Isolation and Detection of Antidepressants via HPLC.Biomimetics, 4, (1), ArticleNo18-(2019)
Soman G
Deepa JR et al., Electrochemical sensing of methylmalonic acid based on molecularly imprinted polymer modified with graphene oxide and gold nanoparticles.Microchemical Journal, 159, Article105489-(2020)
Somera BF
de Oliveira FM et al., Kinetic and Isotherm Studies of Ni2+ Adsorption on Poly(methacrylic acid) Synthesized through a Hierarchical Double-Imprinting Method Using a Ni2+ Ion and Cationic Surfactant as Templates.Industrial & Engineering Chemistry Research, 52, (25), 8550-8557, (2013)
Tarley CRT et al., Preparation of new ion-selective cross-linked poly(vinylimidazole-co-ethylene glycol dimethacrylate) using a double-imprinting process for the preconcentration of Pb2+ ions.
Journal of Colloid and Interface Science, 450, 254-263, (2015)
Tarley CRT et al., On-line micro-solid phase preconcentration of Cd2+ coupled to TS-FF-AAS using a novel ion-selective bifunctional hybrid imprinted adsorbent.
Microchemical Journal, 131, 57-69, (2017)
Somers V
Eersels K et al., Selective Identification of Macrophages and Cancer Cells Based on Thermal Transport through Surface-Imprinted Polymer Layers.ACS Applied Materials & Interfaces, 5, (15), 7258-7267, (2013)
Eersels K et al., Improving the sensitivity of the heat-transfer method (HTM) for cancer cell detection with optimized sensor chips.
physica status solidi (a), 212, (6), 1320-1326, (2015)
Eersels K et al., Heat-Transfer-Method-Based Cell Culture Quality Assay through Cell Detection by Surface Imprinted Polymers.
Langmuir, 31, (6), 2043-2050, (2015)
Somnet K
Somnet K et al., Ready-to-use paraquat sensor using a graphene-screen printed electrode modified with a molecularly imprinted polymer coating on a platinum core.Analyst, 146, (20), 6270-6280, (2021)
Somoza C
Descalzo AB et al., Luminescent Core-Shell Imprinted Nanoparticles Engineered for Targeted Förster Resonance Energy Transfer-Based Sensing.Analytical Chemistry, 85, (11), 5316-5320, (2013)
Somsen GW
Ramautar R et al., Recent developments in coupled SPE-CE.Electrophoresis, 31, (1), 44-54, (2010)
Shirangi M et al., Methyleneation of Peptides by N, N, N, N-Tetramethylethylenediamine (TEMED) under Conditions Used for Free Radical Polymerization: A Mechanistic Study.
Bioconjugate Chemistry, 26, (1), 90-100, (2015)
Son LT
Kobayashi T et al., Hybrid molecularly imprinted membranes for targeted tocopherol: Uses of cross-linked copolymer particles prepared by surfactant-free dispersion technique.Journal of Separation Science, 32, (19), 3327-3333, (2009)
Son LT et al., Using molecularly imprinted polymeric spheres for hybrid membranes with selective adsorption of bisphenol A derivatives.
Journal of Membrane Science, 375, (1-2), 295-303, (2011)
Son LT et al., Hollow-fiber membrane absorbents embedded molecularly imprinted polymeric spheres for bisphenol A target.
Journal of Membrane Science, 384, (1-2), 117-125, (2011)
Son R
Lok CM et al., Application of molecularly imprinted polymers in food sample analysis - A perspective.International Food Research Journal, 16, (2), 127-140, (2009)
Son S
Chen HY et al., Rapid preparation of molecularly imprinted polymers by microwave-assisted emulsion polymerization for the extraction of florfenicol in milk.Journal of Chromatography B, 983-984, 32-38, (2015)
Son SH
Son SH et al., Chiral separation of D, L-serine racemate using a molecularly imprinted polymer composite membrane.Journal of Applied Polymer Science, 104, (3), 1866-1872, (2007)
Son YA
Lee S et al., A highly selective fluorescent chemosensor for Hg2+ based on a squaraine-bis(rhodamine-B) derivative: Part II.Sensors and Actuators B: Chemical, 210, 519-532, (2015)
Sonato A
Della Giustina G et al., SPR Enhanced molecular imprinted sol-gel film: A promising tool for gas-phase TNT detection.Materials Letters, 162, 44-47, (2016)
Sonawane SL
Sonawane SL et al., Probing cavity versus surface preference of fluorescent template molecules in molecularly imprinted polystyrene microspheres.Journal of Polymer Science Part A: Polymer Chemistry, 55, (9), 1558-1565, (2017)
Sone T
Shinkai S et al., Template synthesis from starch as an approach to tailor-made cyclodextrin.Tetrahedron Letters, 24, (33), 3501-3504, (1983)
Song AF
Guo MJ et al., Imprinting Recognition of Bovine Hemoglobin with Assistant Recognition Polymer Chains on Silica Surface.Acta Chimica Sinica, 69, (23), 2877-2881, (2011)
Song B
Song B et al., Selective and sensitive determination of erythromycin in honey and dairy products by molecularly imprinted polymers based electrochemical sensor.Microchemical Journal, 116, 183-190, (2014)
Song B et al., Determination of erythromycin residue in pork samples using molecularly imprinted solid phase extraction coupled with high performance liquid chromatography.
Chinese Journal of Chromatography, 32, (10), 1111-1116, (2014)
Zhou YS et al., Rapid and selective extraction of multiple macrolide antibiotics in foodstuff samples based on magnetic molecularly imprinted polymers.
Talanta, 137, 1-10, (2015)
Zhou TT et al., Fabrication of a Selective and Sensitive Sensor Based on Molecularly Imprinted Polymer/Acetylene Black for the Determination of Azithromycin in Pharmaceuticals and Biological Samples.
PLoS ONE, 11, (1), ArticleIDe0147002-(2016)
Fu X et al., Highly-Controllable Imprinted Polymer Nanoshell on the Surface of Silica Nanoparticles for Selective Adsorption of 17[beta]-Estradiol.
Journal of Encapsulation and Adsorption Sciences, 8, 210-224, (2018)
Song BW
Tan WY et al., Study on the adsorption ability to methyl carbamate of magnetic molecularly imprinted polymers.Chinese Journal of Analysis Laboratory, 37, (4), 419-423, (2018)
Song C
He M et al., Preparation and imprinting efficiency evaluation of molecularly imprinted polymer of apigenin.Ion Exchange and Adsorption, 26, (6), 514-523, (2010)
Song CC
Guo LF et al., Study on the non-covalent interaction of apigenin molecularly imprinted polymers by spectrometry.Chinese Journal of Reactive Polymers, 17, (2), 66-73, (2008)
Guo LF et al., Research and application of molecular imprinting technique in separating functional factors of traditional Chinese medicines.
Chinese Journal of Pharmaceutical Analysis, 29, (6), 1055-1058, (2009)
He MQ et al., Recognition property and mechanism of molecularly imprinted polymers of Apigenin.
Journal of Jiangsu University (Natural Science Edition), 31, (5), 596-600, (2010)
He MQ et al., Synthesis and recognition of molecularly imprinted polymers for gastrodin based on surface-modified silica nanoparticles.
Journal of Applied Polymer Science, 121, (4), 2354-2360, (2011)
Song CE
Song CE et al., Improved Catalytic Performances of Supported Catalysts.Advances in Organic Synthesis, 1, (1), 233-260, (2005)
Song CL
Zhou H et al., Simultaneous Determination of 24 Polycyclic Aromatic Hydrocarbons in Oils by Gas Chromatography-Mass Spectrometry Using an Improved Clean-up Procedure.Food Analytical Methods, 12, (9), 1957-1963, (2019)
Song CX
Li F et al., Release of florfenicol in seawater using chitosan-based molecularly imprinted microspheres as drug carriers.Marine Pollution Bulletin, 173, Article113068-(2021)
Song CY
Guo ZF et al., Molecularly imprinted solid-phase extraction of matrine from radix Sophorae tonkinensis.Analyst, 136, (14), 3016-3022, (2011)
Xu ZG et al., Molecularly imprinted stir bar sorptive extraction coupled with high performance liquid chromatography for trace analysis of sulfa drugs in complex samples.
Talanta, 85, (1), 97-103, (2011)
Hu YL et al., Fiber-in-tube solid-phase microextraction with molecularly imprinted coating for sensitive analysis of antibiotic drugs by high performance liquid chromatography.
Journal of Chromatography A, 1263, 21-27, (2012)
Song D
Zhang YG et al., Importance of Functional Monomer Dimerization in the Molecular Imprinting Process.Macromolecules, 43, (15), 6284-6294, (2010)
Song D et al., Finding the importance of flexibility of the recognition sites in molecular imprinting.
Abstracts of Papers of the American Chemical Society, 241, (POLY), 177-(2011)
Zhang YG et al., Suppression of background sites in molecularly imprinted polymers via urea-urea monomer aggregation.
Organic & Biomolecular Chemistry, 9, (1), 120-126, (2011)
Song D et al., Characterization of molecularly imprinted polymers using a new polar solvent titration method.
Journal of Molecular Recognition, 27, (7), 448-457, (2014)
Li P et al., Book chapter, Molecularly Imprinted Polymer Sensor Arrays,
In: Molecularly Imprinted Polymers for Analytical Chemistry Applications, Kutner W, Sharma PS (Eds.) Royal Society of Chemistry: Ch. 14, 447-474, (2018)
Liu KK et al., Plasticizer-free polymer membrane potentiometric sensors based on molecularly imprinted polymers for determination of neutral phenols.
Analytica Chimica Acta, 1121, 50-56, (2020)
Song DA
Liang RN et al., Potentiometric Sensing of Neutral Species Based on a Uniform-Sized Molecularly Imprinted Polymer as a Receptor.Angewandte Chemie International Edition, 49, (14), 2556-2559, (2010)
Song DD
He L et al., Current progress in research on the nanomaterials for biological macromolecules recognition.Journal of Biomedical Engineering, 30, (2), 428-431, (2013)
Song DM
Guo LX et al., Facile preparation of superparamagnetic surface-imprinted microspheres using amino acid as template for specific capture of thymopentin.Applied Surface Science, 357, (Part B), 1490-1498, (2015)
Li J et al., Preparation of "dummy" l-phenylalanine molecularly imprinted microspheres by using ionic liquid as a template and functional monomer.
Journal of Separation Science, 38, (18), 3279-3287, (2015)
Song E
Si B et al., Molecularly imprinted polymers for the selective detection of multi-analyte neurotransmitters.Microelectronic Engineering, 187-188, 58-65, (2018)
Si B et al., Recent Advances in the Detection of Neurotransmitters.
Chemosensors, 6, (1), ArticleNo1-(2018)
Song FT
Fan JP et al., A novel free-standing flexible molecularly imprinted membrane for selective separation of synephrine in methanol-water media.Journal of Membrane Science, 467, 13-22, (2014)
Song FY
Zhou X et al., A sensing approach for dopamine determination by boronic acid-functionalized molecularly imprinted graphene quantum dots composite.Applied Surface Science, 423, 810-816, (2017)
Chen LZ et al., Preparation of five high-purity iridoid glycosides from Gardenia jasminoides Eills by molecularly imprinted solid-phase extraction integrated with preparative liquid chromatography.
Journal of Separation Science, 41, (13), 2759-2766, (2018)
Song G
He JH et al., Trace carbonyl analysis in water samples by integrating magnetic molecular imprinting and capillary electrophoresis.RSC Advances, 11, (52), 32841-32851, (2021)
Song GC
Wu GH et al., Synthesis of ion-imprinted mesoporous silica gel sorbent for selective adsorption of copper ions in aqueous media.Microchimica Acta, 171, (1), 203-209, (2010)
Song GL
Yang HR et al., Site-imprinted hollow composites with integrated functions for ultra-efficient capture of hexavalent chromium from water.Separation and Purification Technology, 284, Article120240-(2022)
Song GS
Zhang YY et al., A molecularly imprinted electrochemical BPA sensor based on multi-walled carbon nanotubes modified by CdTe quantum dots for the detection of bisphenol A.Microchemical Journal, 170, Article106737-(2021)
Song GW
Deng C et al., Selective determination of trace bisphenol A using molecularly imprinted silica nanoparticles containing quenchable fluorescent silver nanoclusters.Microchimica Acta, 183, (1), 431-439, (2016)
Song GX
Wang S et al., Rapid determination estrone method on the basis of molecular imprinted polymer.Science and Technology of Food Industry, 32, (3), 393-395, (2011)
Song H
Song H et al., The role of impregnation medium on the activity of ceria-supported cobalt catalysts for ethanol steam reforming.Journal of Molecular Catalysis A: Chemical, 318, (1-2), 21-29, (2010)
Li YC et al., Novel Electrochemical Sensing Platform Based on a Molecularly Imprinted Polymer Decorated 3D Nanoporous Nickel Skeleton for Ultrasensitive and Selective Determination of Metronidazole.
ACS Applied Materials & Interfaces, 7, (28), 15474-15480, (2015)
Liu J et al., Preparation of molecularly imprinted polymer with double templates for rapid simultaneous determination of melamine and dicyandiamide in dairy products.
Talanta, 134, 761-767, (2015)
Li YC et al., Supportless electrochemical sensor based on molecularly imprinted polymer modified nanoporous microrod for determination of dopamine at trace level.
Biosensors and Bioelectronics, 78, 308-314, (2016)
Song H et al., Molecularly imprinted polymer functionalized nanoporous Au-Ag alloy microrod: Novel supportless electrochemical platform for ultrasensitive and selective sensing of metronidazole.
Electrochimica Acta, 208, 10-16, (2016)
Song H et al., An ultrasensitive and selective electrochemical sensor for determination of estrone 3-sulfate sodium salt based on molecularly imprinted polymer modified carbon paste electrode.
Analytical and Bioanalytical Chemistry, 409, (27), 6509-6519, (2017)
Chen SY et al., Highly selective recognition of L-phenylalanine with molecularly imprinted polymers based on imidazolyl amino acid chiral ionic liquid.
Chirality, 31, (10), 824-834, (2019)
Chen Q et al., Preparation and evaluation of magnetic graphene oxide molecularly imprinted polymers (MIPs-GO-Fe3O4@SiO2) for the analysis and separation of tripterine.
Reactive and Functional Polymers, 169, Article105055-(2021)
Song HJ
Tian X et al., Hydrophilic magnetic molecularly imprinted nanobeads for efficient enrichment and high performance liquid chromatographic detection of 17beta-estradiol in environmental water samples.Talanta, 220, Article121367-(2020)
Hao Y et al., Fabrication of metal coordination-synergistic magnetic imprinted microspheres based on ligand-free Fe3O4-Cu for specific recognition of bovine hemoglobin.
Talanta, 233, Article122496-(2021)
Song HJ et al., Novel bayberry-and-honeycomb-like magnetic surface molecularly imprinted polymers for the selective enrichment of rutin from Sophora japonica.
Food Chemistry, 356, Article129722-(2021)
Zhang HP et al., Magnetic imprinted nanoparticles with synergistic tailoring of covalent and non-covalent interactions for purification and detection of procyanidin B2.
Microchimica Acta, 188, (1), Article17-(2021)
Song HR
Liu PX et al., Two different states conversion mechanism of the imprinting sites.Journal of Colloid and Interface Science, 539, 235-244, (2019)
Song HY
Song HY et al., Preparation and characterization of protein molecular imprinted calcium alginate hydrogel film with controllable thickness.SCIENTIA SINICA Technologica, 46, (9), 931-939, (2016)
Song JD
Yang YF et al., Determination of nine fluoroquinolone residues in chicken by ultra performance liquid chromatography-tandem mass spectrometry coupled with molecularly imprinted solid phase extraction.Chinese Journal of Chromatography, 34, (11), 1063-1069, (2016)
Song JJ
Huang XH et al., Selective removal of nicotine from the main stream smoke by using a surface-imprinted polymer monolith as adsorbent.Journal of Hazardous Materials, 365, 53-63, (2019)
Song JM
Meng L et al., Study of an Online Molecularly Imprinted Solid Phase Extraction Coupled to Chemiluminescence Sensor for the Determination of Trichlorfon in Vegetables.Journal of Agricultural and Food Chemistry, 59, (24), 12745-12751, (2011)
Song JM et al., Molecularly imprinted solid-phase extraction combined with high-performance liquid chromatography for analysis of trace olaquindox residues in chick feeds.
Journal of the Science of Food and Agriculture, 91, (13), 2378-2385, (2011)
Xu ZX et al., Preparation and Characterization of Hydrophilic Olaquindox Molecularly Imprinted Polymer in Aqueous Environment.
International Journal of Polymer Analysis and Characterization, 16, (1), 67-77, (2011)
Xu ZX et al., Development of an on-line molecularly imprinted chemiluminescence sensor for determination of trace olaquindox in chick feeds.
Journal of the Science of Food and Agriculture, 92, (13), 2696-2702, (2012)
Song JP
Yu C et al., Tailor-made double-face imprinted membrane with ultra-high specific surface area asymmetric structure through a connective method of dip-coating and delayed phase inversion for selective adsorption of cadmium ion.Separation and Purification Technology, 280, Article119865-(2022)
Song JS
Xu WJ et al., Synthesis and characterization of the molecular imprinting polymer prepared with PAMAM silica.Journal of Hunan University Natural Sciences, 34, (12), 54-57, (2007)
Song JY
Nie GJ et al., Characterization of Bioimprinted Tannase and Its Kinetic and Thermodynamics Properties in Synthesis of Propyl Gallate by Transesterification in Anhydrous Medium.Applied Biochemistry and Biotechnology, 167, (8), 2305-2317, (2012)
Song K
Li CX et al., Electrochemical biosensor of molecular imprinting with cardiac troponin I.Chinese Journal of Bioprocess Engineering, 10, (3), 61-66, (2012)
Song KS
Jiang JB et al., Novel molecularly imprinted microsphere using a single chiral monomer and chirality-matching (S)-ketoprofen template.Journal of Chromatography A, 1218, (24), 3763-3770, (2011)
Song L
Ma C et al., Preparation of malathion imprinted polymer and its application for solid-phase extraction.Chinese Journal of Analysis Laboratory, 30, (7), 58-61, (2011)
Guo HY et al., Molecular Imprinting-Chemiluminescence Determination of Sulfanilamide.
Journal of Analytical Science, 29, (2), 196-200, (2013)
Chen H et al., Synthesis, characterization, and evaluation of selective molecularly imprinted polymers for the fast determination of synthetic cathinones.
RSC Advances, 11, (47), 29752-29761, (2021)
Song LLH
Liu J et al., Synthesis of metronidazole-imprinted molecularly imprinted polymers by distillation precipitation polymerization and their use as a solid-phase adsorbent and chromatographic filler.Journal of Separation Science, 38, (7), 1172-1178, (2015)
Song LX
Suo A et al., New methods for preparation of molecularly imprinted polymers and their application in food safety.Journal of Food Safety and Quality, 5, (11), 3587-3591, (2014)
Yuan LL et al., Application of magnetic molecularly imprinted polymers in the analysis of food safety.
Journal of Food Safety and Quality, 5, (11), 3582-3586, (2014)
He J et al., Novel restricted access materials combined to molecularly imprinted polymers for selective solid-phase extraction of organophosphorus pesticides from honey.
Food Chemistry, 187, 331-337, (2015)
Song LX et al., Combined biocompatible medium with molecularly imprinted polymers for determination of aflatoxins B1 in real sample.
Journal of Separation Science, 42, (24), 3679-3687, (2019)
Wang HG et al., Etching of halloysite nanotubes hollow imprinted materials as adsorbent for extracting of Zearalenone from grain samples.
Microchemical Journal, 157, Article104953-(2020)
Zhang YX et al., Application of surface-imprinted polymers supported by hydroxyapatite in the extraction of zearalenone in various cereals.
Analytical and Bioanalytical Chemistry, 412, (17), 4045-4055, (2020)
Song LX et al., Preparation and properties of aflatoxins imprinted polymer grafted onto the surface of mesoporous silica SBA-15 functionalized with double bonds.
Journal of Separation Science, 44, (22), 4181-4189, (2021)
Song LY
Shi C et al., Biomimetic Enzyme-linked Immunosorbent Assay Using a Hydrophilic Molecularly Imprinted Membrane for Recognition and Fast Determination of Trichlorfon and Acephate Residues in Vegetables.Food Analytical Methods, 8, (10), 2496-2503, (2015)
Song M
Wang HS et al., Functional Interfaces Constructed by Controlled/Living Radical Polymerization for Analytical Chemistry.ACS Applied Materials & Interfaces, 8, (5), 2881-2898, (2016)
Song MD
Guo TY et al., Surface metal ion-imprinted resins prepared by emulsifier-free emulsion polymerization using phosphoric diester as functional monomer.Chinese Journal of Reactive Polymers, 12, (1), 92-96, (2003)
Guo TY et al., Adsorptive separation of hemoglobin by molecularly imprinted chitosan beads.
Biomaterials, 25, (27), 5905-5912, (2004)
Guo TY et al., Preparation of uniform-sized molecularly imprinted polymer microspheres using N-Cbz-L-Trp as template.
Chemical Journal of Chinese Universities, 25, (4), 762-765, (2004)
Guo TY et al., Molecular imprinting polymers for chiral separation of amino acid derivatives.
Progress In Chemistry, 16, (4), 638-642, (2004)
Guo TY et al., Uniform-sized molecularly imprinted polymer for N-carbobenzoxy-L-tryptophan and its chromatographic properties.
Chinese Journal of Analytical Chemistry, 32, (6), 705-709, (2004)
Guo TY et al., Chitosan beads as molecularly imprinted polymer matrix for selective separation of proteins.
Biomaterials, 26, (28), 5737-5745, (2005)
Guo TY et al., Preparation and properties of uniform-sized polymer beads imprinted with N-CBZ-L-phenylalanine.
International Journal of Polymeric Materials, 54, (8), 743-755, (2005)
Xia YQ et al., Hemoglobin recognition by imprinting in semi-interpenetrating polymer network hydrogel based on polyacrylamide and chitosan.
Biomacromolecules, 6, (5), 2601-2606, (2005)
Xia YQ et al., Selective separation of quercetin by molecular imprinting using chitosan beads as functional matrix.
Reactive and Functional Polymers, 66, (12), 1734-1740, (2006)
Xia YQ et al., Adsorption dynamics and thermodynamics of Hb on the Hb-imprinted polymer beads.
Reactive and Functional Polymers, 68, (1), 63-69, (2008)
Zhao HL et al., Hemoglobin-imprinted polymer gel prepared using modified glucosamine as functional monomer.
Chinese Chemical Letters, 19, (2), 233-236, (2008)
Xia YQ et al., Protein recognition onto silica particles using chitosan as intermedium substrate.
Journal of Biomedical Materials Research Part A, 90A, (2), 326-332, (2009)
Song ML
Song ML et al., Enzyme-Free Molecularly Imprinted and Graphene-Functionalized Photoelectrochemical Sensor Platform for Pollutants.ACS Applied Materials & Interfaces, 13, (31), 37212-37222, (2021)
Song MN
Du ZF et al., Technology and application progress of thermosensitive molecularly imprinted polymer.Modern Chemical Industry, 35, (11), 27-31, (2015)
Song MS
Lu ZY et al., Microwave synthesis of a novel magnetic imprinted TiO2 photocatalyst with excellent transparency for selective photodegradation of enrofloxacin hydrochloride residues solution.Chemical Engineering Journal, 249, 15-26, (2014)
Yu XN et al., Preparation of rare earth metal ion/TiO2Hal-conducting polymers by ions imprinting technique and its photodegradation property on tetracycline.
Applied Clay Science, 99, 125-130, (2014)
Han WJ et al., A fluorescent molecularly imprinted polymer sensor synthesized by atom transfer radical precipitation polymerization for determination of ultra trace fenvalerate in the environment.
RSC Advances, 6, (84), 81346-81353, (2016)
Lu ZY et al., A novel hollow capsule-like recyclable functional ZnO/C/Fe3O4 endowed with three-dimensional oriented recognition ability for selectively photodegrading danofloxacin mesylate.
Catalysis Science & Technology, 6, (17), 6513-6524, (2016)
Wang YS et al., Enhanced selective photocatalytic properties of a novel magnetic retrievable imprinted ZnFe2O4/PPy composite with specific recognition ability.
RSC Advances, 6, (57), 51877-51887, (2016)
Lu ZY et al., Construction of stable core-shell imprinted Ag-(poly-o-phenylenediamine)/CoFe2O4 photocatalyst endowed with the specific recognition capability for selective photodegradation of ciprofloxacin.
RSC Advances, 7, (77), 48894-48903, (2017)
Lu ZY et al., Facile microwave synthesis of a Z-scheme imprinted ZnFe2O4/Ag/PEDOT with the specific recognition ability towards improving photocatalytic activity and selectivity for tetracycline.
Chemical Engineering Journal, 337, 228-241, (2018)
He F et al., Selective reduction of Cu2+ with simultaneous degradation of tetracycline by the dual channels ion imprinted POPD-CoFe2O4 heterojunction photocatalyst.
Chemical Engineering Journal, 360, 750-761, (2019)
He F et al., Construction of ion imprinted layer modified ZnFe2O4 for selective Cr(VI) reduction with simultaneous organic pollutants degradation based on different reaction channels.
Applied Surface Science, 483, 453-462, (2019)
Lu ZY et al., Magnetic Hierarchical Photocatalytic Nanoreactors: Toward Highly Selective Cd2+ Removal with Secondary Pollution Free Tetracycline Degradation.
ACS Applied Nano Materials, 2, (3), 1664-1674, (2019)
Peng JY et al., Enhanced selectivity for photodegrading ciprofloxacin by a magnetic photocatalyst modified with a POPD-CdS heterojunction embedded imprinted layer.
New Journal of Chemistry, 43, (6), 2610-2623, (2019)
Lu ZY et al., Pollutant template method synthesis of oxygen vacancy and template cavity riched TB-TiO2@MFA towards selective photodegradation of ciprofloxacin.
Applied Surface Science, 569, Article151027-(2021)
Lu ZY et al., Heterotopic reaction strategy for enhancing selective reduction and synergistic oxidation ability through trapping Cr (VI) into specific reaction site: A stable and self-cleaning ion imprinted CdS/HTNW photocatalytic membrane.
Applied Catalysis B: Environmental, 301, Article120787-(2022)
Yan H et al., Aqueous-phase synthesis of heterojunction molecular imprinted photocatalytic nanoreactor via stable interaction forces for improved selectivity and photocatalytic property.
Applied Surface Science, 579, Article152174-(2022)
Song MY
Yin JF et al., Pseudo-template molecularly imprinted polymer for selective screening of trace [beta]-lactam antibiotics in river and tap water.Journal of Chromatography A, 1217, (33), 5420-5426, (2010)
Yin JF et al., Dummy molecularly imprinted polymer for selective screening of trace bisphenols in river water.
Analytical Methods, 3, (1), 173-180, (2011)
Yin JF et al., Plastic antibody for DNA damage: fluorescent imaging of BPDE-dG adducts in genomic DNA.
Analyst, 138, (17), 4958-4966, (2013)
Song N
Ding P et al., Preparation of self-supporting molecularly imprinted films via transition layer construction and RAFT polymerization, and their use in HPLC.Microchimica Acta, 180, (7-8), 599-605, (2013)
Song NZ
Jiang DD et al., Preparation and Application of Magnetic Propyl Gallate Molecularly Imprinted Polymers in Microchip.Chinese Journal of Analytical Chemistry, 44, (4), 647-653, (2016)
Liu D et al., Synthesis of graphene oxide functionalized surface-imprinted polymer for the preconcentration of tetracycline antibiotics.
RSC Advances, 6, (14), 11742-11748, (2016)
Song Q
Zhang JW et al., Layer-by-Layer Assembly of Azulene-Based Supra-Amphiphiles: Reversible Encapsulation of Organic Molecules in Water by Charge-Transfer Interaction.Langmuir, 29, (21), 6348-6353, (2013)
Tang T et al., Determination of semicarbazide in fish by molecularly imprinted stir bar sorptive extraction coupled with high performance liquid chromatography.
Journal of Chromatography B, 1076, 8-14, (2018)
Song QJ
Liu Y et al., Development and characterization of an amperometric sensor for triclosan detection based on electropolymerized molecularly imprinted polymer.Microchemical Journal, 91, (2), 222-226, (2009)
Liu Y et al., Preparation and properties of a triclosan molecularly imprinted polymers sensor.
Chinese Journal of Analysis Laboratory, 28, (8), 107-109, (2009)
Liu Y et al., Preparation and Properties of Diethylstilbestrol Molecular Imprinted Polymers Sensor.
Chinese Journal of Analytical Chemistry, 38, (4), 569-572, (2010)
Qi WJ et al., A Molecular Imprinting Electrochemical Sensor for L-Tryptophan Determination.
Journal of Analytical Science, 27, (3), 331-335, (2011)
Qi YB et al., A Salbutamol Sensor Based on Carbon Nanotubes Modified Electrode and Molecularly Imprinted Polymers.
Chinese Journal of Analytical Chemistry, 39, (7), 1053-1057, (2011)
Zhang YG et al., Determination of melamine based on a sol-gel molecular imprinting technique.
Chinese Journal of Analysis Laboratory, 30, (2), 21-24, (2011)
Ding ZY et al., Determination of clenbuterol with multi-walled carbon nanotubes-molecular imprinted sensors.
Chinese Journal of Analysis Laboratory, 31, (9), 121-124, (2012)
Han CF et al., Detection of hidden drugs with a molecularly imprinted electrochemiluminescence sensor.
Analytical Methods, 5, (21), 6064-6070, (2013)
Shang ZY et al., Advance Research of Molecular Imprinted Chemical Sensors Based on Electropolymerization.
Journal of Instrumental Analysis, 32, (11), 1401-1408, (2013)
Shang ZY et al., An Electrochemiluminescence Sensor with Molecularly Imprinted Polymer for Heroin Detection.
Chinese Journal of Analytical Chemistry, 42, (6), 904-908, (2014)
Yu RP et al., Rational selection of the monomer for molecularly imprinted polymer preparation for selective and sensitive detection of 3-methylindole in water.
Journal of Electroanalytical Chemistry, 832, 129-136, (2019)
Zhou JY et al., Highly selective detection of l-Phenylalanine by molecularly imprinted polymers coated Au nanoparticles via surface-enhanced Raman scattering.
Talanta, 211, Article120745-(2020)
Song R
Wang PL et al., Molecularly imprinted polymer solid phase extraction coupled with gas chromatography-mass spectrometry for the determination of trace clenbuterol hydrochloric in animal urine.Chinese Journal of Analytical Chemistry, 35, (9), 1319-1322, (2007)
Song RM
Wei PJ et al., A pH-Responsive Molecularly Imprinted Hydrogel for Dexamethasone Release.Journal of Inorganic and Organometallic Polymers and Materials, 29, (3), 659-666, (2019)
Wei PJ et al., An ion-imprinted sensor based on chitosan-graphene oxide composite polymer modified glassy carbon electrode for environmental sensing application.
Electrochimica Acta, 317, 93-101, (2019)
Song RY
Wang XW et al., Enrichment and separation of silver from waste solutions by metal ion imprinted membrane.Hydrometallurgy, 100, (1-2), 82-86, (2009)
Yu JY et al., Proceeding, Molecularly imprinted polymer microspheres prepared by precipitation polymerization for atenolol recognition,
Liu XH, Jiang ZY, Han JT (Eds.), 1192-1198, (2010)
Yin YN et al., Study on Adsorption Properties of Glycylglycine Molecular Imprinted Polymer Microspheres.
Chemistry Bulletin, 75, (1), 58-62, (2012)
Song RY et al., Proceeding, Synthesis of Surface Imprinted Polymer Microspheres with Ultrathin Polymer Shells via Surface-Initiated Iniferter Polymerization,
Zeng Q (Ed.), 68-73, (2013)
Song RY et al., Preparation and properties of molecularly imprinted polymer microspheres for erythromycin.
Ion Exchange and Adsorption, 29, (2), 97-107, (2013)
Song RY et al., Molecularly imprinted solid-phase extraction of glutathione from urine samples.
Materials Science and Engineering: C, 44, 69-75, (2014)
Zhao N et al., Preparation of Erythromycin Imprinted Polymeric Microspheres by Emulsion Polymerization and Their Adsorption Properties.
Acta Physico-Chimica Sinica, 30, (1), 121-128, (2014)
Du CB et al., Synthesis of water-compatible surface-imprinted composite microspheres with core-shell structure for selective recognition of thymopentin from aqueous solution.
Journal of Materials Science, 50, (1), 427-438, (2015)
Du CB et al., Water-compatible surface-imprinted microspheres for high adsorption and selective recognition of peptide drug from aqueous media.
Journal of Materials Chemistry B, 3, (15), 3044-3053, (2015)
Guo LX et al., Facile preparation of superparamagnetic surface-imprinted microspheres using amino acid as template for specific capture of thymopentin.
Applied Surface Science, 357, (Part B), 1490-1498, (2015)
Li J et al., Preparation of molecularly imprinted polymers using ion-pair dummy template imprinting and polymerizable ionic liquids.
RSC Advances, 5, (77), 62697-62705, (2015)
Li J et al., Preparation of "dummy" l-phenylalanine molecularly imprinted microspheres by using ionic liquid as a template and functional monomer.
Journal of Separation Science, 38, (18), 3279-3287, (2015)
Li J et al., Preparation of Core-Shell Structural Surface Molecular Imprinting Microspheres and Recognition of L-Asparagine Based on [N1111]Asn Ionic Liquid as Template.
Reactive and Functional Polymers, 88, 8-15, (2015)
Qian LW et al., An effective way to imprint protein with the preservation of template structure by using a macromolecule as the functional monomer.
RSC Advances, 5, (73), 59062-59069, (2015)
Qian LW et al., The effectively specific recognition of bovine serum albumin imprinted silica nanoparticles by utilizing a macromolecularly functional monomer to stabilize and imprint template.
Analytica Chimica Acta, 884, 97-105, (2015)
Song RY et al., Synthesis of porous molecularly imprinted polymers for selective adsorption of glutathione.
Applied Surface Science, 332, 159-166, (2015)
Song RY et al., Synthesis of glutathione imprinted polymer particles via controlled living radical precipitation polymerization.
Chinese Journal of Polymer Science, 33, (3), 404-415, (2015)
Wang CL et al., Lysozyme Molecular Imprinted Membranes with Ionic Liquids as Functional Monomer.
Acta Polymerica Sinica, (3), 259-265, (2015)
Wang CL et al., Separation and purification of thymopentin with molecular imprinting membrane by solid phase extraction disks.
Journal of Pharmaceutical and Biomedical Analysis, 102, 137-143, (2015)
Du CB et al., Preparation of surface-imprinted microspheres effectively controlled by orientated template immobilization using highly cross-linked raspberry-like microspheres for the selective recognition of an immunostimulating peptide.
Journal of Materials Chemistry B, 4, (8), 1510-1519, (2016)
Gao XM et al., Synthesis of core-shell imprinting polymers with uniform thin imprinting layer via iniferter-induced radical polymerization for the selective recognition of thymopentin in aqueous solution.
RSC Advances, 6, (111), 110019-110031, (2016)
Li J et al., Preparation of l-phenylalanine-imprinted solid-phase extraction sorbent by Pickering emulsion polymerization and the selective enrichment of l-phenylalanine from human urine.
Journal of Separation Science, 39, (10), 1863-1872, (2016)
Song RY et al., Surface modification of imprinted polymer microspheres with ultrathin hydrophilic shells to improve selective recognition of glutathione in aqueous media.
Materials Science and Engineering: C, 60, 1-6, (2016)
Song S
Sumaoka J et al., Recognition of bioactive oligopeptide by imprinted cyclodextrin polymer in water.Polymer Preprints, Japan, 55, (1), 1668-(2006)
Nagaoka S et al., Reconfirmation of Recognition Site in Composites of Imprinted beta-Cyclodextrin Polymer/Solid Support as Stationary Phase of HPLC.
Chemistry Letters, 37, (11), 1148-1149, (2008)
Song SH
Song SH et al., Recognition of Solution Structures of Peptides by Molecularly Imprinted Cyclodextrin Polymers.Macromolecules, 40, (10), 3530-3532, (2007)
Song SH et al., Molecular imprinting of cyclodextrin to physiologically active oligopeptides in water.
Supramolecular Chemistry, 22, (3), 149-155, (2010)
Song SQ
Song SQ et al., Extraction of chlorpromazine with a new molecularly imprinted polymer from pig urine.Process Biochemistry, 43, (11), 1209-1214, (2008)
Song SQ et al., Development and application of molecularly imprinted polymers as solid-phase sorbents for erythromycin extraction.
Analytical and Bioanalytical Chemistry, 390, (8), 2141-2150, (2008)
Zheng SL et al., Newly Combined Method of Molecularly Imprinted Solid-Phase Extraction with ELISA for Rapid Detection of Clenbuterol in Animal-Tissue Samples.
Analytical Letters, 42, (3), 600-614, (2009)
Shi XZ et al., Determination of Chloramphenicol Residues in Foods by ELISA and LC-MS/MS Coupled with Molecularly Imprinted Solid Phase Extraction.
Analytical Letters, 43, (17), 2798-2807, (2010)
Shi XZ et al., Water Compatible Molecularly Imprinted Polymer Microspheres for Extraction of Ampicillin in Foods.
Analytical Letters, 43, (5), 757-767, (2010)
Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
Shao MY et al., Carbon Quantum Dots Encapsulated Molecularly Imprinted Fluorescence Quenching Particles for Sensitive Detection of Zearalenone in Corn Sample.
Toxins, 10, (11), ArticleNo438-(2018)
Song ST
Lian Q et al., Properties of cellulase as template molecule on chitosan-ömethyl methacrylate membrane.Russian Journal of Physical Chemistry A, 89, (12), 2294-2297, (2015)
Zheng XF et al., Molecularly imprinted polymer for L-tyrosine recognition and controlled release.
Russian Journal of Applied Chemistry, 88, (1), 160-168, (2015)
Song T
Zhang HT et al., Retention behavior of phenoxyacetic herbicides on a molecularly imprinted polymer with phenoxyacetic acid as a dummy template molecule.Bioorganic & Medicinal Chemistry, 15, (18), 6089-6095, (2007)
Zhang HT et al., Synthesis and characterization of molecularly imprinted polymers for phenoxyacetic acids.
International Journal of Molecular Sciences, 9, (1), 98-106, (2008)
Song W
Song W et al., Dopamine sensor based on molecularly imprinted electrosynthesized polymers.Journal of Solid State Electrochemistry, 14, (10), 1909-1914, (2010)
Han F et al., Determination of Triazines Residues in Food Samples Using Dummy Molecularly Imprinted Solid Phase Extraction Based on Molecular Simulation.
Chinese Journal of Analytical Chemistry, 40, (11), 1648-1653, (2012)
Zhang L et al., Selective trace analysis of chloroacetamide herbicides in food samples using dummy molecularly imprinted solid phase extraction based on chemometrics and quantum chemistry.
Analytica Chimica Acta, 729, (1), 36-44, (2012)
Li WJ et al., Molecular simulation and adsorption property of molecularly imprinted polymerization system using triadimefon as template.
Chemical Journal of Chinese Universities, 34, (5), 1219-1225, (2013)
Hu YY et al., Selective Detection of 20 Triazoles Residues in Food Uusing Molecularly Imprinted Solid Phase Extraction coupled with Liquid Chromatography Tandem Mass Spectrometry.
Chinese Journal of Analytical Chemistry, 42, (2), 227-232, (2014)
Han F et al., Computational design and synthesis of molecular imprinted polymers for selective solid phase extraction of sulfonylurea herbicides.
Journal of Chromatography A, 1651, Article462321-(2021)
Song WB
Wu Y et al., Sensing epinephrine with an ITO electrode modified with an imprinted chitosan film containing multi-walled carbon nanotubes and a polymerized ionic liquid.Microchimica Acta, 180, (13-14), 1325-1332, (2013)
Song WF
Song WF et al., A star-shaped molecularly imprinted polymer derived from polyhedral oligomeric silsesquioxanes with improved site accessibility and capacity for enantiomeric separation via capillary electrochromatography.Microchimica Acta, 186, (1), Article22-(2018)
Song WJ
Liang RN et al., Potentiometric Sensor Based on an Ion-Imprinted Polymer for Determination of Copper.Sensor Letters, 9, (2), 557-562, (2011)
Niu BL et al., Intermediate accumulation and toxicity reduction during the selective photoelectrochemical process of atrazine in complex water bodies.
Water Research, 205, Article117663-(2021)
Song WQ
Qian LW et al., Thermal preparation of lysozyme-imprinted microspheres by using ionic liquid as a stabilizer.Analytical and Bioanalytical Chemistry, 406, (28), 7221-7231, (2014)
Qian LW et al., The effectively specific recognition of bovine serum albumin imprinted silica nanoparticles by utilizing a macromolecularly functional monomer to stabilize and imprint template.
Analytica Chimica Acta, 884, 97-105, (2015)
Qian LW et al., Utilizing Macromolecular Chain as Functional Monomer and Crosslinker to Imprint BSA with Preserving the Structural Integrity of Template.
Chemical Journal of Chinese Universities, 37, (11), 2092-2100, (2016)
Song WQ et al., Synthesis of l-phenylalanine imprinted hydrogels with anti-biofouling capability by using a novel zwitterionic functional monomer.
Separation and Purification Technology, 182, 247-254, (2017)
Qian LW et al., Fabrication of Raspberry-like Cytochrome C Surface-Imprinted Nanoparticles Based on MOF Composites for High-Performance Protein Separation.
ACS Applied Materials & Interfaces, 13, (26), 31010-31020, (2021)
Song WQ et al., Constructing High-Recognition Protein-Imprinted Materials Using "Specially Designed" Block Macromolecular Chains as Functional Monomers and Crosslinkers.
ACS Applied Materials & Interfaces, 13, (45), 54428-54438, (2021)
Song WW
Song WW et al., Preparation of Molecularly Imprinted Film of Chloramphenicol and its Electrochemical Characteristics.Journal of Shanghai Jiaotong University (Agricultural Science), 24, (6), 499-502, (2006)
Zhang NW et al., Preparation of chloramphenicol succinate molecularly imprinted membrane and study of its absorption characteristic.
Acta Chimica Sinica, 66, (17), 1961-1966, (2008)
Zhang NW et al., Molecularly Imprinted Membrane-Based Sensor for the Detection of Chloramphenicol Succinate Residue in Milk.
Chinese Journal of Analytical Chemistry, 36, (10), 1380-1384, (2008)
Zhang NW et al., Preparation of Chloramphenicol Succinate Molecularly Imprinted Polysulfone Membrane and Preliminary Studies on Its Electrochemical and Absorption Ability.
Journal of Huazhong Agricultural University, 28, (5), 591-594, (2009)
Song X
Song X et al., Molecular-Ion-Imprinted Chitosan Hydrogels for the Selective Adsorption of Silver(I) in Aqueous Solution.Industrial & Engineering Chemistry Research, 51, (34), 11261-11265, (2012)
Zhang SW et al., Determination of low urinary 8-hydroxy-2'-deoxyguanosine excretion with capillary electrophoresis and molecularly imprinted monolith solid phase microextraction.
Science of The Total Environment, 450 - 451, 266-270, (2013)
Wang L et al., Determination of ciprofloxacin in milk by new magnetic molecular imprinting- high performance liquid chromatography.
Journal of Food Safety and Quality, 9, (15), 3999-4005, (2018)
Wang L et al., Determination of atrazine in vegetables by magnetic molecularly imprinted polymer flow injection preconcentration and gas chromatography.
Journal of Hygiene Research, 48, (2), 289-294, (2019)
Song XJ
Song XJ et al., Proteins molecular imprinted technique.Chemistry Bulletin, 68, (7), 504-509, (2005)
Dong B et al., Advances in Study on Lipase Bio-imprinting.
China Biotechnology, 26, (3), 78-82, (2006)
Gong W et al., Study on lipase conformation recording and its stability.
Journal of Zhejiang University (Engineering Science), 40, (5), 841-844, (2006)
Song XL
Song XL et al., Effect of Porogenic Solvent on Selective Performance of Molecularly Imprinted Polymer for Quercetin.Materials Research-Ibero-American Journal of Materials, 12, (3), 299-304, (2009)
Song XL et al., Quercetin molecularly imprinted polymers: Preparation, recognition characteristics and properties as sorbent for solid-phase extraction.
Talanta, 80, (2), 694-702, (2009)
Wang JT et al., Synthesis, Evaluation and Adsorption Behavior of Naphthalene Analog-Imprinted Polymer by Immobilized Template on Modified Silica Gel in Seawater.
Chinese Journal of Analytical Chemistry, 38, (8), 1121-1126, (2010)
Song XL et al., Determination of 16 polycyclic aromatic hydrocarbons in seawater using molecularly imprinted solid-phase extraction coupled with gas chromatography-mass spectrometry.
Talanta, 99, 75-82, (2012)
Song XL et al., Synthesis, properties and adsorption behavior of double molecularly imprinted polymeric microsphere in seawater.
Environmental Chemistry, 31, (1), 9-15, (2012)
Xu SF et al., Photonic and magnetic dual responsive molecularly imprinted polymers: preparation, recognition characteristics and properties as a novel sorbent for caffeine in complicated samples.
Analytical Methods, 5, (1), 124-133, (2013)
Xu SF et al., Dummy Molecularly Imprinted Polymers-Capped CdTe Quantum Dots for the Fluorescent Sensing of 2, 4, 6-Trinitrotoluene.
ACS Applied Materials & Interfaces, 5, (16), 8146-8154, (2013)
Cai XQ et al., Chemodosimeter-based fluorescent detection of l-cysteine after extracted by molecularly imprinted polymers.
Talanta, 120, 297-303, (2014)
Song XL et al., Recent advances in molecularly imprinted polymers in food analysis.
Journal of Applied Polymer Science, 131, (16), Article40766-(2014)
Zhang Z et al., Hg2+ ion-imprinted polymers sorbents based on dithizone-Hg2+ chelation for mercury speciation analysis in environmental and biological samples.
RSC Advances, 4, (87), 46444-46453, (2014)
Jin XY et al., Synthesis and Characterization of Fomesafen Imprinted Polymers.
Journal of Macromolecular Science, Part A, 52, (4), 316-321, (2015)
Li JH et al., One-pot synthesis of magnetic molecularly imprinted microspheres by RAFT precipitation polymerization for the fast and selective removal of 17[beta]-estradiol.
RSC Advances, 5, (14), 10611-10618, (2015)
Song XL et al., Preparation of analog-molecularly imprinted microspheres and their adsorbent performance for microcystin in aqueous solution.
Environmental Chemistry, 35, (3), 451-459, (2016)
Ming WN et al., Magnetic molecularly imprinted polymers for the fluorescent detection of trace 17[beta]-estradiol in environmental water.
Sensors and Actuators B: Chemical, 238, 1309-1315, (2017)
Song XL et al., Effective and selective adsorption of As(III) via imprinted magnetic Fe3O4/HTCC composite nanoparticles.
Journal of Environmental Chemical Engineering, 5, (1), 16-25, (2017)
Yang Q et al., Simultaneous phase-inversion and imprinting based sensor for highly sensitive and selective detection of bisphenol A.
Talanta, 176, 595-603, (2018)
Fu KY et al., Rapid and selective recognition of Vibrio parahaemolyticus assisted by perfluorinated alkoxysilane modified molecularly imprinted polymer film.
RSC Advances, 10, (24), 14305-14312, (2020)
Song XM
Wang T et al., Camptothecin-imprinted polymer microspheres with rosin-based cross-linker for separation of camptothecin from Camptotheca acuminata fruit.Separation and Purification Technology, 234, Article116085-(2020)
Song XQ
Yang JW et al., Preparation of Cyproheptadine Imprinted Polymers and Its Application to Solid Phase Extraction.Chinese Journal of Analytical Chemistry, 42, (6), 878-884, (2014)
Yang JW et al., Determination of cyproheptadine in feeds using molecularly imprinted solid-phase extraction coupled with HPLC.
Journal of Chromatography B, 990, 39-44, (2015)
Song XQ et al., Molecularly imprinted solid-phase extraction for the determination of ten macrolide drugs residues in animal muscles by liquid chromatography-tandem mass spectrometry.
Food Chemistry, 208, 169-176, (2016)
Zhou T et al., Determination of azithromycin residue in pork using a molecularly imprinted monolithic microcolumn coupled to liquid chromatography with tandem mass spectrometry.
Journal of Separation Science, 39, (7), 1339-1346, (2016)
Song XQ et al., Determination of macrolide antibiotics residues in pork using molecularly imprinted dispersive solid-phase extraction coupled with LC-MS/MS.
Journal of Separation Science, 41, (5), 1138-1148, (2018)
Song XQ et al., Determination of Ten Macrolide Drugs in Environmental Water Using Molecularly Imprinted Solid-Phase Extraction Coupled with Liquid Chromatography-Tandem Mass Spectrometry.
Molecules, 23, (5), ArticleNo1172-(2018)
Song XQ et al., Preparation and Application of Molecularly Imprinted Monolithic Extraction Column for the Selective Microextraction of Multiple Macrolide Antibiotics from Animal Muscles.
Polymers, 11, (7), ArticleNo1109-(2019)
Zhou H et al., Preparation of surface molecularly imprinted polymer and its application for the selective extraction of teicoplanin from water.
RSC Advances, 11, (22), 13615-13623, (2021)
Song Y
Xiong Y et al., Adsorption-controlled preparation of anionic imprinted amino-functionalization chitosan for recognizing rhenium(VII).Separation and Purification Technology, 177, 142-151, (2017)
Hu SW et al., An Electrochemical Sensor Based on ion Imprinted PPy/rGO Composite for Cd(II) Determination in Water.
International Journal of Electrochemical Science, 14, 11714-11730, (2019)
Song YH
Wang L et al., A novel nanoenzyme based on Fe3O4 nanoparticles@thionine-imprinted polydopamine for electrochemical biosensing.Sensors and Actuators B: Chemical, 253, 108-114, (2017)
Song YH et al., A dopamine-imprinted chitosan Film/Porous ZnO NPs@carbon Nanospheres/Macroporous carbon for electrochemical sensing dopamine.
Sensors and Actuators B: Chemical, 298, Article126949-(2019)
Liu KK et al., Plasticizer-free polymer membrane potentiometric sensors based on molecularly imprinted polymers for determination of neutral phenols.
Analytica Chimica Acta, 1121, 50-56, (2020)
Song YJ
Chu JY et al., Selective Removal of 2, 4-Dichlorophenol by Surface Molecularly Imprinted Polymers Based on Amino-Functionalized Fe3O4@SiO2 Composites.Adsorption Science & Technology, 30, (5), 409-424, (2012)
Song YJ et al., Ion-Imprinted Polymers Based on Hollow Silica with Yeasts as Sacrificial Supports for Sr2+ Selective Adsorption.
Journal of Inorganic and Organometallic Polymers and Materials, 23, (6), 1325-1334, (2013)
Song YL
Lv YK et al., Effects of cation-anion on recognition characteristics of sarafloxacin -Co(II) complex imprinted polymer in aqueous media.Chemical Journal on Internet, 12, (1), (2010)
Lv YK et al., Preparation and Characterization of Imprinted Polymers Based on Cobalt(II)-Enrofloxacin Coordination.
Asian Journal of Chemistry, 23, (9), 4037-4041, (2011)
Hou J et al., Hydrophilic-Hydrophobic Patterned Molecularly Imprinted Photonic Crystal Sensors for High-Sensitive Colorimetric Detection of Tetracycline.
Small, 11, (23), 2738-2742, (2015)
Song YL et al., Application of molecularly imprinted technology for separation of PGG from Guizhi Fuling capsule.
China Journal of Chinese Materia Medica, 40, (6), 1012-1016, (2015)
Song YM
Liu YH et al., Sensitive analysis of trace macrolide antibiotics in complex food samples by ambient mass spectrometry with molecularly imprinted polymer-coated wooden tips.Talanta, 204, 238-247, (2019)
Song YP
Song YP et al., Dual-dummy-template molecularly imprinted polymer combining ultra performance liquid chromatography for determination of fluoroquinolones and sulfonamides in pork and chicken muscle.Food Control, 82, 233-242, (2017)
Song YP et al., Dummy template molecularly imprinted polymer for solid phase extraction of phenothiazines in meat based on computational simulation.
Food Chemistry, 233, 422-428, (2017)
Wang GN et al., Application of molecularly imprinted polymer based matrix solid phase dispersion for determination of fluoroquinolones, tetracyclines and sulfonamides in meat.
Journal of Chromatography B, 1065, 104-111, (2017)
Song YQ
Shang JB et al., Preparation and selective adsorption of organic pollutants by an inorganic molecular imprinted polymer.Water Science And Technology, 74, (5), 1193-1201, (2016)
Song YQ et al., Synthesis of an inorganic-framework molecularly imprinted Fe-doped TiO2 composite and its selective photo-Fenton-like degradation of acid orange II.
Journal of Chemical Technology & Biotechnology, 92, (8), 2038-2049, (2017)
Song YQ et al., Selective Fenton-like catalytic oxidation of acid orange II on inorganic heterogeneous molecular imprinted catalysts.
Journal of Advanced Oxidation Technologies, 20, (1), ArticleNo20160195-(2017)
Zhang YY et al., Selective Fenton-like oxidation of methylene blue on modified Fe-zeolites prepared via molecular imprinting technique.
Water Science And Technology, 75, (3), 659-(2017)
Song ZH et al., Chromatographic performance of zidovudine imprinted polymers coated silica stationary phases.
Talanta, 239, Article123115-(2022)
Song YS
Jin Y et al., Adsorption Mechanisms of Quercetin, Catechin and Epicatechin on Quercetin Molecular Imprinted Polymer using Linear Solvation Energy Relationship.Asian Journal of Chemistry, 26, (21), 7249-7254, (2014)
Song YT
Hou YG et al., Synthesis of magnetic molecular imprinted polymers for solid-phase extraction coupled with gas chromatography-mass spectrometry for the determination of type II pyrethroid residues in human plasma.Microchemical Journal, 166, Article106232-(2021)
Song YX
Yang X et al., Synthesis of a novel molecularly imprinted organic-inorganic hybrid polymer for the selective isolation and determination of fluoroquinolones in tilapia.Journal of Chromatography B, 945-946, 127-134, (2014)
Song YY
Liu DJ et al., Core-shell molecularly imprinted polymer nanoparticles with assistant recognition polymer chains for effective recognition and enrichment of natural low-abundance protein.Acta Biomaterialia, 10, (2), 769-775, (2014)
Tang T et al., Determination of semicarbazide in fish by molecularly imprinted stir bar sorptive extraction coupled with high performance liquid chromatography.
Journal of Chromatography B, 1076, 8-14, (2018)
Song Z
Liu CB et al., A simple and sensitive surface molecularly imprinted polymers based fluorescence sensor for detection of [lambda]-Cyhalothrin.Talanta, 125, 14-23, (2014)
Han S et al., A kanamycin sensor based on an electrosynthesized molecularly imprinted poly-o-phenylenediamine film on a single-walled carbon nanohorn modified glassy carbon electrode.
Analyst, 142, (1), 218-223, (2017)
Song ZH
Song ZH et al., Chromatographic performance of zidovudine imprinted polymers coated silica stationary phases.Talanta, 239, Article123115-(2022)
Song ZL
Guo WL et al., Preparation of ion-imprinted mesoporous silica SBA-15 functionalized with triglycine for selective adsorption of Co(II).Colloids and Surfaces A: Physicochemical and Engineering Aspects, 436, 693-703, (2013)
Liu CB et al., Molecular Imprinting in Fluorescent Particle Stabilized Pickering Emulsion for Selective and Sensitive Optosensing of [lambda]-Cyhalothrin.
Journal of Physical Chemistry C, 117, (20), 10445-10453, (2013)
Cao ZJ et al., Preparation of Magnetic Imprinted Core-Shell Particles Through Reverse Atom Transfer Radical Precipitation Polymerization for Selective Removal of Sulfamethazine.
Journal of Computational and Theoretical Nanoscience, 6, (8), 657-665, (2014)
Gao L et al., Molecularly imprinted polymer microspheres for optical measurement of ultra trace nonfluorescent cyhalothrin in honey.
Food Chemistry, 156, 1-6, (2014)
Wang J et al., Surface molecularly imprinted polymers based on yeast prepared by atom transfer radical emulsion polymerization for selective recognition of ciprofloxacin from aqueous medium.
Journal of Applied Polymer Science, 131, (11), Article No 40310-(2014)
Wei X et al., Synthesis of molecularly imprinted silica nanospheres embedded mercaptosuccinic acid-coated CdTe quantum dots for selective recognition of [lambda]-cyhalothrin.
Journal of Luminescence, 153, 326-332, (2014)
Xie QJ et al., Molecularly imprinted [beta]-cyclodextrin/Kaoline particles for the selective recognition and binding of bisphenol A.
The Canadian Journal of Chemical Engineering, 92, (4), 720-728, (2014)
Song ZX
Yang H et al., Synthesis, performance, and application of molecularly imprinted membranes: A review.Journal of Environmental Chemical Engineering, 9, (6), Article106352-(2021)
Songkram C
Suedee R et al., Thin-layer chromatography using synthetic polymers imprinted with quinine as chiral stationary phase.Jpc-Journal Of Planar Chromatography-Modern Tlc, 11, 272-276, (1998)
Suedee R et al., Direct enantioseparation of adrenergic drugs via thin-layer chromatography using molecularly imprinted polymers.
Journal of Pharmaceutical and Biomedical Analysis, 19, (3), 519-527, (1999)
Songkro S
Jantarat C et al., S-Propranolol imprinted polymer nanoparticle-on-microsphere composite porous cellulose membrane for the enantioselectively controlled delivery of racemic propranolol.International Journal of Pharmaceutics, 349, (1-2), 212-225, (2008)
Suedee R et al., Development of a pH-responsive drug delivery system for enantioselective-controlled delivery of racemic drugs.
Journal of Controlled Release, 142, (1), 122-131, (2010)
Soni TG
Maulvi FA et al., A review on therapeutic contact lenses for ocular drug delivery.Drug Delivery, 23, (8), 3017-3026, (2016)
Sonoda H
Kido H et al., Metal-ion complexation equilibria of ion-exchange resins prepared by a surface template polymerization.Kobunshi Ronbunshu, 50, (5), 403-410, (1993)
Sontimuang C
Dickert FL et al., Proceeding, Mass-sensitive and resistive detection of bioanalytes - Synthetic antibodies and plastic replicae,352-353, (2010)
Sontimuang C et al., Interdigitated capacitive biosensor based on molecularly imprinted polymer for rapid detection of Hev b1 latex allergen.
Analytical Biochemistry, 410, (2), 224-233, (2011)
Sontimuang C et al., Proceeding, Development of a Rubber Elongation Factor Surface-Quartz Crystal Microbalance Sensor for Determination of Natural Rubber Latex Allergens in Glove Samples,
26-29, (2011)
Sontimuang C et al., Proceeding, Development of Interdigitated Capacitance Electrodes Based on Rubber Elongation Factor-Imprinted Polymer for Determination of Rubber Elongation Factor Proteins in Rubber Latex Gloves,
53-56, (2011)
Sontimuang C et al., Development of a rubber elongation factor, surface-imprinted polymer-quartz crystal microbalance sensor, for quantitative determination of Hev b1 rubber latex allergens present in natural rubber latex products.
Analytica Chimica Acta, 687, (2), 184-192, (2011)
Kueseng P et al., Rapid preparation of molecularly imprinted polymers by custom-made microwave heating for analysis of atrazine in water.
Journal of Separation Science, 41, (13), 2783-2789, (2018)
Sookcharoenpinyo B
Dechtrirat D et al., An electrochemical MIP sensor for selective detection of salbutamol based on a graphene/PEDOT:PSS modified screen printed carbon electrode.RSC Advances, 8, (1), 206-212, (2018)
Sooksawat D
Yuphintharakun N et al., A nanocomposite optosensor containing carboxylic functionalized multiwall carbon nanotubes and quantum dots incorporated into a molecularly imprinted polymer for highly selective and sensitive detection of ciprofloxacin.Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 201, 382-391, (2018)
Sooraj MP
Sooraj MP et al., Structure-specific sorbent based on nanostructures for selective recognition of cimetidine from its structural analogues.Journal of Applied Polymer Science, 131, (20), n/a-n/a, (2014)
Sooraj MP et al., Artificial Recognition Sorbents on Multiwalled Carbon Nanotubes for the Separation of Aspirin from its Structural Analogues.
International Journal of Scientific & Engineering Research, 6, (9), 723-733, (2015)
Sooraj MP et al., Highly selective nanocomposite sorbents for the specific recognition of S-ibuprofen from structurally related compounds.
Applied Nanoscience, 6, (5), 659-671, (2016)
Sooraj MP et al., Fabrication of a Structure-Specific Molecular Imprinted Polymer-Based Electrochemical Sensor Based on CuNP-Decorated Vinyl-Functionalized Graphene for the Detection of Parathion Methyl in Vegetable and Fruit Samples.
Food Analytical Methods, 12, (4), 1028-1039, (2019)
Sooraj MP et al., CuNPs decorated molecular imprinted polymer on MWCNT for the electrochemical detection of l-DOPA.
Arabian Journal of Chemistry, 13, (1), 2483-2495, (2020)
Soper SA
Zhang XF et al., LED-induced in-column molecular imprinting for solid phase extraction/capillary electrophoresis.Analyst, 138, (10), 2821-2824, (2013)
Soppera O
Fuchs Y et al., Ultrathin Selective Molecularly Imprinted Polymer Microdots Obtained by Evanescent Wave Photopolymerization.Chemistry of Materials, 23, (16), 3645-3651, (2011)
Fuchs Y et al., Photopolymerization and photostructuring of molecularly imprinted polymers for sensor applications - A review.
Analytica Chimica Acta, 717, (1), 7-20, (2012)
Fuchs Y et al., Proceeding, Photopolymerization and photostructuring of molecularly imprinted polymers for sensor applications,
Article Number 6411425, (2012)
Fuchs Y et al., Holographic Molecularly Imprinted Polymers for Label-Free Chemical Sensing.
Advanced Materials, 25, (4), 566-570, (2013)
Ton XA et al., A Versatile Fiber-Optic Fluorescence Sensor Based on Molecularly Imprinted Microstructures Polymerized in Situ.
Angewandte Chemie International Edition, 52, (32), 8317-8321, (2013)
Fuchs Y et al., Molecularly Imprinted Silver-Halide Reflection Holograms for Label-Free Opto-Chemical Sensing.
Advanced Functional Materials, 24, (5), 688-694, (2014)
Gomez LPC et al., Rapid Prototyping of Chemical Microsensors Based on Molecularly Imprinted Polymers Synthesized by Two-Photon Stereolithography.
Advanced Materials, 28, (28), 5931-5937, (2016)
Paruli E et al., Photopolymerization and Photostructuring of Molecularly Imprinted Polymers.
ACS Applied Polymer Materials, 3, (10), 4769-4790, (2021)
Soqaka A
Ncube S et al., Development of a single format membrane assisted solvent extraction-molecularly imprinted polymer technique for extraction of polycyclic aromatic hydrocarbons in wastewater followed by gas chromatography mass spectrometry determination.Journal of Chromatography A, 1569, 36-43, (2018)
Soreta TR
Regasa MB et al., Molecularly imprinted polyaniline molecular receptor-based chemical sensor for the electrochemical determination of melamine.Journal of Molecular Recognition, 33, (7), Article_e2836-(2020)
Regasa MB et al., Novel multifunctional molecular recognition elements based on molecularly imprinted poly (aniline-co-itaconic acid) composite thin film for melamine electrochemical detection.
Sensing and Bio-Sensing Research, 27, Article100318-(2020)
Sorkhabadi SMR
Najafizadeh P et al., Preparation of a Selective L-Phenylalanine Imprinted Polymer Implicated in Patients with Phenylketonuria.Iranian Journal of Medical Sciences, 39, (6), 552-558, (2014)
Sornalingam K
Ahmed MB et al., Chloramphenicol interaction with functionalized biochar in water: sorptive mechanism, molecular imprinting effect and repeatable application.Science of The Total Environment, 609, 885-895, (2017)
Soror SH
Abo-Elmagd IF et al., Impedimetric Sensors for Cyclocreatine Phosphate Determination in Plasma Based on Electropolymerized Poly(o-phenylenediamine) Molecularly Imprinted Polymers.ACS Omega, 6, (46), 31282-31291, (2021)
Soror TY
Kamel AH et al., Flow through potentiometric sensors based on molecularly imprinted polymers for selective monitoring of mepiquat residue, a quaternary ammonium herbicide.Analytical Methods, 4, (9), 3007-3012, (2012)
Sorouraddin MH
Sorouraddin MH et al., Proceeding, Selective Extraction of Ethambutol in aqueous solution with MIP prior to its Spectrophotometric determination,(2011)
Sorouraddin MH et al., Proceeding, Very fast synthesis of molecularly imprinted polymer for Napoxen separation,
(2011)
Sorouraddin SM
Djozan D et al., Proceeding, A new inside-needle extraction method based on molecularly imprinted polymer to solid-phase dynamic extraction and pre-concentration of methamphetamine followed by gas chromatography analysis,(2011)
Djozan D et al., Synthesis and Application of High Selective Monolithic Fibers Based on Molecularly Imprinted Polymer for SPME of Trace Methamphetamine.
Chromatographia, 73, (9), 975-983, (2011)
Djozan D et al., Determination of methamphetamine, amphetamine and ecstasy by inside-needle adsorption trap based on molecularly imprinted polymer followed by GC-FID determination.
Microchimica Acta, 179, (3), 209-217, (2012)
Djozan D et al., Molecularly imprinted-solid phase extraction combined with simultaneous derivatization and dispersive liquid-liquid microextraction for selective extraction and preconcentration of methamphetamine and ecstasy from urine samples followed by gas chromatography.
Journal of Chromatography A, 1248, 24-31, (2012)
Djozan D et al., Inside-Needle Extraction Method Based on Molecularly Imprinted Polymer for Solid-Phase Dynamic Extraction and Preconcentration of Triazine Herbicides Followed by GC-FID Determination.
Chromatographia, 75, (3), 139-148, (2012)
Sorouraddin SM et al., Development of molecularly imprinted-solid phase extraction combined with dispersive liquid-liquid microextraction for selective extraction and preconcentration of triazine herbicides from aqueous samples.
Journal of the Iranian Chemical Society, 13, (6), 1093-1104, (2016)
Sorribes-Soriano A
Sorribes-Soriano A et al., Cocaine abuse determination by ion mobility spectrometry using molecular imprinting.Journal of Chromatography A, 1481, 23-30, (2017)
Sorribes-Soriano A et al., Magnetic molecularly imprinted polymers for the selective determination of cocaine by ion mobility spectrometry.
Journal of Chromatography A, 1545, 22-31, (2018)
Sorribes-Soriano A et al., Trace analysis by ion mobility spectrometry: From conventional to smart sample preconcentration methods. A review.
Analytica Chimica Acta, 1026, 37-50, (2018)
Aria MM et al., Uptake and translocation monitoring of imidacloprid to chili and tomato plants by molecularly imprinting extraction - ion mobility spectrometry.
Microchemical Journal, 144, 195-202, (2019)
Sorribes-Soriano A et al., Development of a molecularly imprinted monolithic polymer disk for agitation-extraction of ecgonine methyl ester from environmental water.
Talanta, 199, 388-395, (2019)
Sorribes-Soriano A et al., Amphetamine-type stimulants analysis in oral fluid based on molecularly imprinting extraction.
Analytica Chimica Acta, 1052, 73-83, (2019)
Sorribes-Soriano A et al., Molecularly imprinted polymer-based device for field collection of oral fluid samples for cocaine identification.
Journal of Chromatography A, 1633, Article461629-(2020)
Sorribes-Soriano A et al., Tuning the selectivity of molecularly imprinted polymer extraction of arylcyclohexylamines: From class-selective to specific.
Analytica Chimica Acta, 1124, 94-103, (2020)
Sortino S
Sortino S, Photoactivated nanomaterials for biomedical release applications.Journal of Materials Chemistry, 22, (2), 301-318, (2012)
Sosa-Ferrera Z
Aufartová J et al., Determination of steroid hormones in biological and environmental samples using green microextraction techniques: An overview.Analytica Chimica Acta, 704, (1-2), 33-46, (2011)
Guedes-Alonso R et al., Molecularly imprinted solid-phase extraction coupled with ultra high performance liquid chromatography and fluorescence detection for the determination of estrogens and their metabolites in wastewater.
Journal of Separation Science, 38, (22), 3961-3968, (2015)
Soskic M
Porobic I et al., Molecular Recognition of Indole Derivatives by Polymers Imprinted With Indole-3-Acetic Acid: A QSPR Study.Bioorganic & Medicinal Chemistry, 21, 653-659, (2013)
Sosnowska M
Huynh TP et al., Simultaneous Chronoamperometry and Piezoelectric Microgravimetry Determination of Nitroaromatic Explosives Using Molecularly Imprinted Thiophene Polymers.Analytical Chemistry, 85, (17), 8361-8368, (2013)
Cieplak M et al., Selective electrochemical sensing of human serum albumin by semi-covalent molecular imprinting.
Biosensors and Bioelectronics, 74, 960-966, (2015)
Huynh TP et al., Nicotine molecularly imprinted polymer: Synergy of coordination and hydrogen bonding.
Biosensors and Bioelectronics, 64, 657-663, (2015)
Huynh TP et al., Cytosine derivatized bis(2, 2'-bithienyl)methane molecularly imprinted polymer for selective recognition of 6-thioguanine, an antitumor drug.
Biosensors and Bioelectronics, 70, 153-160, (2015)
Huynh TP et al., Functionalized polythiophenes: Recognition materials for chemosensors and biosensors of superior sensitivity, selectivity, and detectability.
Progress in Polymer Science, 47, 1-25, (2015)
Iskierko Z et al., Extended-gate field-effect transistor (EG-FET) with molecularly imprinted polymer (MIP) film for selective inosine determination.
Biosensors and Bioelectronics, 74, 526-533, (2015)
Sharma PS et al., Potentiometric chemosensor for neopterin, a cancer biomarker, using an electrochemically synthesized molecularly imprinted polymer as the recognition unit.
Biosensors and Bioelectronics, 77, 565-572, (2016)
Wojnarowicz A et al., An electropolymerized molecularly imprinted polymer for selective carnosine sensing with impedimetric capacity.
Journal of Materials Chemistry B, 4, (6), 1156-1165, (2016)
Bartold K et al., Programmed Transfer of Sequence Information into a Molecularly Imprinted Polymer for Hexakis(2, 2'-bithien-5-yl) DNA Analogue Formation toward Single-Nucleotide-Polymorphism Detection.
ACS Applied Materials & Interfaces, 9, (4), 3948-3958, (2017)
Lach P et al., Self-Reporting Molecularly Imprinted Polymer for Label-Free Selective Electrochemical Sensing of p-synephrine.
Proceedings, 1, (8), ArticleNo772-(2017)
Soster M
Trotta F et al., Molecularly imprinted cyclodextrin nanosponges for the controlled delivery of L-DOPA: perspectives for the treatment of Parkinson's disease.Expert Opinion on Drug Delivery, 13, (12), 1671-1680, (2016)
Soto V
Quirarte-Escalante CA et al., Synthesis of Hybrid Adsorbents Combining Sol-Gel Processing and Molecular Imprinting Applied to Lead Removal from Aqueous Streams.Chemistry of Materials, 21, (8), 1439-1450, (2009)
Sotomayor M
Foguel MV et al., Synthesis and evaluation of a molecularly imprinted polymer for selective adsorption and quantification of Acid Green 16 textile dye in water samples.Talanta, 170, 244-251, (2017)
Foguel MV et al., Molecularly Imprinted Polymer (MIP): A Promising Recognition System for Development of Optical Sensor for Textile Dyes.
Procedia Technology, 27, 299-300, (2017)
Pedroso MM et al., Electrochemical sensor for dodecyl gallate determination based on electropolymerized molecularly imprinted polymer.
Sensors and Actuators B: Chemical, 253, 180-186, (2017)
Khan S et al., Synthesis and characterization of magnetic-molecularly imprinted polymers for the HPLC-UV analysis of ametryn.
Reactive and Functional Polymers, 122, 175-182, (2018)
Hassan AHA et al., Biomimetic magnetic sensor for electrochemical determination of scombrotoxin in fish.
Talanta, 194, 997-1004, (2019)
Pupin RR et al., Magnetic molecularly imprinted polymers obtained by photopolymerization for selective recognition of penicillin G.
Journal of Applied Polymer Science, 137, (13), Article48496-(2020)
Silva LM et al., Use of two functional monomers for a new approach to the synthesis of a magnetic molecularly imprinted polymer for ciprofloxacin.
Journal of Materials Research and Technology, 15, 511-523, (2021)
Sotomayor MDPT
Foguel MV et al., A molecularly imprinted polymer-based evanescent wave fiber optic sensor for the detection of basic red 9 dye.Sensors and Actuators B: Chemical, 218, 222-228, (2015)
Toro MJU et al., A new biomimetic sensor based on molecularly imprinted polymers for highly sensitive and selective determination of hexazinone herbicide.
Sensors and Actuators B: Chemical, 208, 299-306, (2015)
Wong A et al., Development of an electrochemical sensor modified with MWCNT-COOH and MIP for detection of diuron.
Electrochimica Acta, 182, 122-130, (2015)
Marestoni LD et al., Semi-Empirical Quantum Chemistry Method for Pre-Polymerization Rational Design of Ciprofloxacin Imprinted Polymer and Adsorption Studies.
Journal of the Brazilian Chemical Society, 27, (1), 109-118, (2016)
Silva BVM et al., An ultrasensitive human cardiac troponin T graphene screen-printed electrode based on electropolymerized-molecularly imprinted conducting polymer.
Biosensors and Bioelectronics, 77, 978-985, (2016)
Uzuriaga-Sánchez RJ et al., Magnetically separable polymer (Mag-MIP) for selective analysis of biotin in food samples.
Food Chemistry, 190, 460-467, (2016)
Ben Aissa A et al., Magnetic molecularly imprinted polymer for the isolation and detection of biotin and biotinylated biomolecules.
Biosensors and Bioelectronics, 88, 101-108, (2017)
Uzuriaga-Sánchez RJ et al., Synthesis of a new magnetic-MIP for the selective detection of 1-chloro-2, 4-dinitrobenzene, a highly allergenic compound.
Materials Science and Engineering: C, 74, 365-373, (2017)
Baeza-Fonte AN et al., Determination of Cephalosporins by UHPLC-DAD Using Molecularly Imprinted Polymers.
Journal of Chromatographic Science, 56, (2), 187-193, (2018)
Hassan AHA et al., Electrochemical sensing of methyl parathion on magnetic molecularly imprinted polymer.
Biosensors and Bioelectronics, 118, 181-187, (2018)
Moura SL et al., Theoretical and experimental study for the biomimetic recognition of levothyroxine hormone on magnetic molecularly imprinted polymer.
Biosensors and Bioelectronics, 107, 203-210, (2018)
Ruiz-Córdova GA et al., Electrochemical sensing using magnetic molecularly imprinted polymer particles previously captured by a magneto-sensor.
Talanta, 181, 19-23, (2018)
Bergamin B et al., A New Electrochemical Platform Based on a Polyurethane Composite Electrode Modified with Magnetic Nanoparticles Coated with Molecularly Imprinted Polymer for the Determination of Estradiol Valerate in Different Matrices.
Journal of the Brazilian Chemical Society, 30, (11), 2344-2354, (2019)
Khan S et al., Electrochemical sensors based on biomimetic magnetic molecularly imprinted polymer for selective quantification of methyl green in environmental samples.
Materials Science and Engineering: C, 103, Article109825-(2019)
de Liss Meza López F et al., Systematic study on the synthesis of novel ion-imprinted polymers based on rhodizonate for the highly selective removal of Pb(II).
Reactive and Functional Polymers, 159, Article104805-(2021)
Mortari B et al., A spot test for direct quantification of acid green 16 adsorbed on a molecularly imprinted polymer through diffuse reflectance measurements.
Analytical Methods, 13, (4), 453-461, (2021)
Santos AM et al., Voltammetric determination of ethinylestradiol using screen-printed electrode modified with functionalized graphene, graphene quantum dots and magnetic nanoparticles coated with molecularly imprinted polymers.
Talanta, 224, Article121804-(2021)
Zeb S et al., Using magnetic nanoparticles/MIP-based electrochemical sensor for quantification of tetracycline in milk samples.
Journal of Electroanalytical Chemistry, 900, Article115713-(2021)
Neres LCS et al., Development of a selective molecularly imprinted polymer for troponin T detection: a theoretical-experimental approach.
Materials Today Communications, 30, Article102996-(2022)
Sotomayor MDT
Marestoni LD et al., Ion imprinted polymers: fundamentals, preparation strategies and applications in analytical chemistry.Quimica Nova, 36, (8), 1194-1207, (2013)
Sotomayor MPT
Marfŕ J et al., Magnetic-molecularly imprinted polymers in electrochemical sensors and biosensors.Analytical and Bioanalytical Chemistry, 413, (24), 6141-6157, (2021)
Soukka T
Beyazit S et al., Versatile Synthetic Strategy for Coating Upconverting Nanoparticles with Polymer Shells through Localized Photopolymerization by Using the Particles as Internal Light Sources.Angewandte Chemie International Edition, 53, (34), 8919-8923, (2014)
Sousa LS
Casarin F et al., Optimized Synthesis of Molecularly Imprinted Hybrid Polymer by Factorial Design for Selective Caffeine Extraction in Surface Water.Journal of the Brazilian Chemical Society, 32, (9), 1789-1801, (2021)
Sousa MD
Sousa MD et al., Molecularly imprinted polymers for controlling drug release. Part 1: Synthesis and characterization.Quimica Nova, 32, (6), 1609-1619, (2009)
Sousa MP
Moreira FTC et al., Colorimetric cellulose-based test-strip for rapid detection of amyloid [beta]-42.Microchimica Acta, 188, (10), Article334-(2021)
Sousa RG
de Oliviera Alves LT et al., Synthesis and characterization of MIP with Phenylalanine for their application in SPE.Polimeros-Ciencia e Tecnologia, 25, (6), 596-605, (2015)
Sousa-Castillo A
Carneiro MCCG et al., Dual biorecognition by combining molecularly-imprinted polymer and antibody in SERS detection. Application to carcinoembryonic antigen.Biosensors and Bioelectronics, 146, Article111761-(2019)
Southard G
Ritz S et al., Proceeding, Imprinted Resin - The 21st Century Adsorbent,Davis BR, Moats MS, Wang SJ, Gregurek D, Kapusta J, Battle TP, Schlesinger ME, Alvear Flores GR, Jak E, Goodall G, Free ML, Asselin E, Chagnes A, Dreisinger D, Jeffrey M, Lee J, Miller G, Petersen J, Ciminelli VST, Xu Q, Molnar R, Adams J, Liu WY, Verbaan N, Goode J, London IM, Azimi G, Forstner A, Kappes R, Bhambhani T (Eds.), 1943-1960, (2018)
Southard GE
Boyd JW et al., Development of molecularly imprinted polymer sensors for chemical warfare agents.Johns Hopkins APL Technical Digest, 25, (1), 44-49, (2004)
Murray G et al., Synthetic and spectroscopic characterization of molecularly imprinted polymer phosphonate sensors.
Abstracts of Papers of the American Chemical Society, 227, (POLY), 593-593, (2004)
Murray GM et al., Book chapter, Optical transduction schemes for molecularly imprinted polymer sensors,
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 10, 61-70, (2004)
Murray GM et al., Book chapter, Metal ion selective molecularly imprinted polymers,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 22, 579-602, (2005)
Owens GS et al., Molecularly imprinted ion-exchange resin for Fe3+.
Separation Science and Technology, 40, (11), 2205-2211, (2005)
Van Houten KA et al., Soluble and processable molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 230, (ANYL), 401-401, (2005)
Southard GE et al., Book chapter, Synthesis and spectroscopic characterization of molecularly imprinted polymer phosphonate sensors,
In: Antiterrorism and Homeland Defense: Polymers and Materials, Reynolds JG, Lawson GE (Eds.) Oxford University Press, USA: Ch. 2, 19-38, (2007)
Southard GE et al., Luminescent sensing of organophosphates using europium(III) containing imprinted polymers prepared by RAFT polymerization.
Analytica Chimica Acta, 581, (2), 202-207, (2007)
Southard GE et al., Soluble and Processable Phosphonate Sensing Star Molecularly Imprinted Polymers.
Macromolecules, 40, (5), 1395-1400, (2007)
Southard GE et al., Book chapter, Molecularly Imprinted Polymer Receptors for Sensors and Arrays,
In: Recognition Receptors in Biosensors, Zourob M (Ed.) Springer: Ch. 19, 751-775, (2010)
Southard GL
Bae SY et al., Molecularly imprinted ion exchange resin for purification, preconcentration and determination of UO22+ by spectrophotometry and plasma spectrometry.Analytica Chimica Acta, 397, (1-3), 173-181, (1999)
Souto C
Alvarez-Lorenzo C et al., Soft contact lenses capable of sustained delivery of timolol.Journal of Pharmaceutical Sciences, 91, (10), 2182-2192, (2002)
Souza ID
Souza ID et al., Selective molecularly imprinted polymer combined with restricted access material for in-tube SPME/UHPLC-MS/MS of parabens in breast milk samples.Analytica Chimica Acta, 932, 49-59, (2016)
Souza PS
Martins RO et al., Molecularly imprinted polymer as solid phase extraction phase for condensed tannin determination from Brazilian natural sources.Journal of Chromatography A, 1620, Article460977-(2020)
Souza-Silva ÉA
Souza-Silva ÉA et al., Book chapter, Recent Advances in Solid-Phase Microextraction for Contaminant Analysis in Food Matrices,In: Green Extraction Techniques Principles, Advances and Applications, Ibáńez E, Cifuentes A (Eds.) Elsevier: Ch. 16, 483-517, (2017)
Soyer C
Nicu L et al., Proceeding, Integrative technology-based approach of microelectromechanical systems (MEMS) for biosensing applications,4475-4478, (2012)
Soysal M
Soysal M et al., A Novel and Selective Methylene Blue Imprinted Polymer Modified Carbon Paste Electrode.Electroanalysis, 25, (5), 1278-1285, (2013)
Muti M et al., A Novel DNA Probe Based on Molecularly Imprinted Polymer Modified Electrode for the Electrochemical Monitoring of DNA.
Electroanalysis, 27, (6), 1368-1377, (2015)
Spadaro D
Prelle A et al., Comparison of Clean-Up Methods for Ochratoxin A on Wine, Beer, Roasted Coffee and Chili Commercialized in Italy.Toxins, 5, (10), 1827-1844, (2013)
Spahr P
Xiao P et al., Synthesis and characterization of fluoroquinolone-imprinted polymeric nanoparticles.Reactive and Functional Polymers, 72, (4), 287-293, (2012)
Spain SG
Magennis EP et al., Bacteria-instructed synthesis of polymers for self-selective microbial binding and labelling.Nature Materials, 13, (7), 748-755, (2014)
Spanedda VM
Parisi IO et al., Molecularly Imprinted Microrods via Mesophase Polymerization.Molecules, 23, (1), ArticleNo63-(2018)
Spangenberg A
Gomez LPC et al., Rapid Prototyping of Chemical Microsensors Based on Molecularly Imprinted Polymers Synthesized by Two-Photon Stereolithography.Advanced Materials, 28, (28), 5931-5937, (2016)
Spano G
Giovannoli C et al., Comparison of binding behavior for molecularly imprinted polymers prepared by hierarchical imprinting or Pickering emulsion polymerization.Journal of Separation Science, 38, (20), 3661-3668, (2015)
Spano G et al., Full vs. partial competitive binding behaviour in molecularly imprinted polymers. The case for a chlorinated phenoxyacids-binding polymer.
RSC Advances, 6, (82), 78317-78321, (2016)
Spano G et al., Development of a biomimetic enzyme-linked immunosorbent assay based on a molecularly imprinted polymer for the detection of cortisol in human saliva.
Analytical Methods, 11, (17), 2320-2326, (2019)
Cavalera S et al., Stoichiometric molecular imprinting using polymerisable urea and squaramide receptors for the solid phase extraction of organo-arsenic compound roxarsone.
Analytical Methods, 12, (47), 5729-5736, (2020)
Sparks TD
Bates JS et al., Molecular Imprinted Hydrogels in Drug Delivery Applications.MRS Proceedings, 1797, ArticleNo:mrss15-2132190-(2015)
Sparnacci K
Piscopo L et al., Uniformly sized molecularly imprinted polymers (MIPs) for 17b-estradiol.Macromolecular Chemistry And Physics, 203, (10-11), 1532-1538, (2002)
Sparrapan R
Figueiredo EC et al., Quantitation of drugs via molecularly imprinted polymer solid phase extraction and electrospray ionization mass spectrometry: benzodiazepines in human plasma.Analyst, 136, (18), 3753-3757, (2011)
Spataru CI
Dima SO et al., Molecularly imprinted poly(acrylonitrile-co-acrylic acid) matrix with sclareol.Polymer Engineering & Science, 54, (7), 1484-1494, (2014)
Speer K
Kittlaus S et al., New Approaches for Determination of Glyphosate and Aminomethylphosphonic Acid from Different Tea Samples-Prospects and Limits of Cleanup with Molecularly Imprinted Polymer and Titanium Dioxide.Journal of AOAC International, 92, (3), 703-714, (2009)
Speghini A
Bonini F et al., Surface imprinted beads for the recognition of human serum albumin.Biosensors and Bioelectronics, 22, (9-10), 2322-2328, (2007)
Speight RE
Speight RE et al., A Survey of the 2010 Quartz Crystal Microbalance Literature.Journal of Molecular Recognition, 25, (9), 451-473, (2012)
Speltini A
Sturini M et al., Environmental photochemistry of fluoroquinolones in soil and in aqueous soil suspensions under solar light.Environmental Science and Pollution Research, 21, (23), 13215-13221, (2014)
Speltini A et al., Newest applications of molecularly imprinted polymers for extraction of contaminants from environmental and food matrices: A review.
Analytica Chimica Acta, 974, 1-26, (2017)
Spencer DS
Clegg JR et al., Student award for outstanding research winner in the Ph.D. category for the 2017 society for biomaterials annual meeting and exposition, april 5-8, 2017, Minneapolis, Minnesota: Characterization of protein interactions with molecularly imprinted hydrogels that possess engineered affinity for high isoelectric point biomarkers.Journal of Biomedical Materials Research Part A, 105, (6), 1565-1574, (2017)
Sperling S
Mutreja I et al., Positive and negative bioimprinted polymeric substrates: new platforms for cell culture.Biofabrication, 7, (2), ArticleNo025002-(2015)
Spevak A
Cizmárik A et al., Examination of the chemical composition of propolis VII: Use of molecularly imprinted polymers for SPE of umbelliferone from propolis.Farmaceuticky Obzor, 80, (10), 251-256, (2011)
Hrobonová K et al., Application of umbelliferone molecularly imprinted polymer in analysis of plant samples.
Chemical Papers, 67, (5), 477-483, (2013)
Spevak A et al., Use of polymer molecules imprinted umbeliferonu the analysis of plant samples.
Chemicke Listy, 107, (SPEC. ISSUE 2), s270-s272, (2013)
Spevak A et al., Group-selective molecularly imprinted polymer as a sorbent for extraction of coumarins from medicinal plants.
Chemicke Listy, 108, (3), 251-255, (2014)
Spezia F
Cristallini C et al., A new strategy to reduce amyloid deposition using peptide-imprinted membranes.Journal of Applied Biomaterials & Funtional Materials, 14, (2), e129-e136, (2016)
Spichiger UE
Mohr GJ et al., Reversible chemical reactions as the basis for optical sensors used to detect amines, alcohols and humidity.Journal of Materials Chemistry, 9, (9), 2259-2264, (1999)
Spieker E
Spieker E et al., Molecular Imprinting Studies for Developing QCM-sensors for Bacillus Cereus.Procedia Engineering, 168, 561-564, (2016)
Poller AM et al., Surface Imprints: Advantageous Application of Ready2use Materials for Bacterial Quartz-Crystal Microbalance Sensors.
ACS Applied Materials & Interfaces, 9, (1), 1129-1135, (2017)
Spielman AI
Gallagher M et al., Synthesis and evaluation of imprinted polymers for selective recognition of fusaric acid.Abstracts of Papers of the American Chemical Society, 236, (AGFD), 193-(2008)
Spiess HW
Leporini D et al., Probing porous polymer resins by high-field electron spin resonance spectroscopy.Macromolecules, 35, (10), 3977-3983, (2002)
Spietelun A
Spietelun A et al., Current trends in solid-phase microextraction (SPME) fibre coatings.Chemical Society Reviews, 39, (11), 4524-4537, (2010)
Spietelun A et al., Understanding Solid-Phase Microextraction: Key Factors Influencing the Extraction Process and Trends in Improving the Technique.
Chemical Reviews, 113, (3), 1667-1685, (2013)
Spinelli A
Quint ML et al., Low-Range Detection of the Phosphate Group by a Molecularly Imprinted Polymer-Modified Carbon Paste Electrode.IEEE Sensors Journal, 15, (2), 1012-1019, (2015)
Spinelli E
de B.Peçanha BR et al., Molecularly imprinted polymers prepared by precipitation polymerization and their application to solid phase extraction (Polímeros de Impressăo Molecular Obtidos Através de Polimerizaçăo por Precipitaçăo e sua Aplicaçăo na Técnica de Extraçăo em Fase Sólida).Polimeros, 23, (4), 509-513, (2013)
Spitaleri L
Cantarella M et al., Selective photodegradation of paracetamol by molecularly imprinted ZnO nanonuts.Applied Catalysis B: Environmental, 238, 509-517, (2018)
Fiorenza R et al., Preferential removal of pesticides from water by molecular imprinting on TiO2 photocatalysts.
Chemical Engineering Journal, 379, Article122309-(2020)
Spivak D
Spivak D et al., Evaluation of binding and origins of specificity of 9-ethyladenine imprinted polymers.Journal of the American Chemical Society, 119, (19), 4388-4393, (1997)
Spivak D et al., Molecular imprinting of carboxylic acids employing novel functional macroporous polymers.
Journal of Organic Chemistry, 64, (13), 4627-4634, (1999)
Spivak D, Book chapter, Molecular Imprinting,
In: Kirk-Othmer Encyclopedia of Chemical Technology, John Wiley & Sons, Inc.: (2000)
Horemans F et al., Towards water compatible MIPs for sensing in aqueous media.
Journal of Molecular Recognition, 25, (6), 344-351, (2012)
Spivak DA
Shea KJ et al., Polymer complements to nucleotide bases - selective binding of adenine-derivatives to imprinted polymers.Journal of the American Chemical Society, 115, (8), 3368-3369, (1993)
Spivak DA et al., Binding of nucleotide bases by imprinted polymers.
Macromolecules, 31, (7), 2160-2165, (1998)
Spivak DA et al., Systematic study of steric and spatial contributions to molecular recognition by non-covalent imprinted polymers.
Analyst, 126, (6), 793-797, (2001)
Spivak DA et al., Investigation into the scope and limitations of molecular imprinting with DNA molecules.
Analytica Chimica Acta, 435, (1), 65-74, (2001)
Spivak DA et al., Molecular imprinting in nanometer scale particles.
Abstracts of Papers of the American Chemical Society, 221, (IEC), 95-95, (2001)
Spivak DA et al., Synthesis of amino-acid based crosslinking monomers for molecular imprinting.
Abstracts of Papers of the American Chemical Society, 221, (ORGN), 108-108, (2001)
Spivak DA, Development of novel crosslinking monomers for molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 221, (ORGN), 694-694, (2001)
Spivak DA, Proceeding, Development of improved crosslinking monomers for molecularly imprinted materials,
Shea KJ, Yan M, Roberts MJ, Cremer PS, Crooks RM, Sailor MJ (Eds.), 5-10, (2002)
Spivak DA et al., Development of an aspartic acid-based cross-linking monomer for improved bioseparations.
Bioseparation, 10, (6), 331-336, (2002)
Campbell JN et al., Influences on MIP selectivity by structural features close to the primary binding.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 91-91, (2003)
Kim H et al., An orthogonal approach to multifunctional molecularly imprinted polymers.
Organic Letters, 5, (19), 3415-3418, (2003)
Kim H et al., New insight into modeling non-covalently imprinted polymers.
Journal of the American Chemical Society, 125, (37), 11269-11275, (2003)
Sibrian-Vazquez M et al., Synthesis and characterization of a novel L-serine based crosslinking monomer for molecular imprinting.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 90-90, (2003)
Sibrian-Vazquez M et al., Enhanced enantioselectivity of molecularly imprinted polymers formulated with novel cross-linking monomers.
Macromolecules, 36, (14), 5105-5113, (2003)
Sibrian-Vazquez M et al., Improving the strategy and performance of molecularly imprinted polymers using cross-linking functional monomers.
Journal of Organic Chemistry, 68, (25), 9604-9611, (2003)
Simon RL et al., Origins of selectivity in noncovalent molecular imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (ORGN), 89-89, (2003)
Spivak DA et al., Shape selectivity in non-covalently imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 712-712, (2003)
Spivak DA et al., Influence of template-monomer ratio on binding sites within molecular imprinted polymers.
Abstracts of Papers of the American Chemical Society, 225, (POLY), 714-714, (2003)
Sibrian-Vazquez M et al., Characterization of molecularly imprinted polymers employing crosslinkers with nonsymmetric polymerizable groups.
Journal of Polymer Science Part A: Polymer Chemistry, 42, (15), 3668-3675, (2004)
Sibrian-Vazquez M et al., Molecular imprinting made easy.
Journal of the American Chemical Society, 126, (25), 7827-7833, (2004)
Simon RL et al., Performance analysis of molecularly imprinted polymers for carboxylate and aminophosphate templates using commercially available basic functional monomers.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 203-209, (2004)
Spivak DA et al., Evidence for shape selectivity in non-covalently imprinted polymers.
Analytica Chimica Acta, 504, (1), 23-30, (2004)
Spivak DA, Book chapter, A new mechanistic diagram for molecularly imprinted polymers,
In: Molecularly Imprinted Materials-2003, Kofinas P, Sellergren B, Roberts MJ (Eds.) Materials Research Society: Warrendale, Ch. 4, 23-28, (2004)
Simon R et al., Comparison of particle size and flow rate optimization for chromatography using one-monomer molecularly imprinted polymers versus traditional non-covalent molecularly imprinted polymers.
Analytica Chimica Acta, 542, (1), 104-110, (2005)
Spivak DA, Optimization, evaluation, and characterization of molecularly imprinted polymers.
Advanced Drug Delivery Reviews, 57, (12), 1779-1794, (2005)
Spivak DA, Book chapter, Selectivity in molecularly imprinted matrices,
In: Molecularly Imprinted Materials: Science and Technology, Yan M, Ramström O (Eds.) Marcel Dekker: New York, Ch. 15, 395-417, (2005)
Spivak DA et al., Development of one monomer molecularly imprinted polymers (OmniMIPs).
Polymer Preprints, 46, (2), 1103-1104, (2005)
Spivak DA et al., Development of one monomer molecularly imprinted polymers (OMNiMIPs).
Abstracts of Papers of the American Chemical Society, 230, 297-POLY, (2005)
Spivak DA et al., Omnimips: One monomer molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 229, U526-U527, (2005)
Spivak DA, Corrigendum to "Optimization, evaluation, and characterization of molecularly imprinted polymers" [Advanced Drug Delivery Reviews 57 (2005) 1779-1794].
Advanced Drug Delivery Reviews, 58, (1), 116-116, (2006)
Spivak DA, Book chapter, MIPs in biotechnology, perspective and reality,
In: Molecular imprinting of polymers, Piletsky S, Turner A (Eds.) Landes Bioscience: Georgetown, Texas, Ch. 13, 182-190, (2006)
Le Jeune J et al., Chiral effects of alkyl-substituted derivatives of N, O-bismethacryloyl ethanolamine on the performance of one monomer molecularly imprinted polymers (OMNiMIPs).
Analytical and Bioanalytical Chemistry, 389, (2), 433-440, (2007)
Simon R et al., Shape selectivity versus functional group pre-organization in molecularly imprinted polymers.
Analytica Chimica Acta, 591, (1), 7-16, (2007)
Spivak DA et al., Proceeding, Discovery and Development of OMNiMIPs: One MoNomer Molecularly Imprinted Polymers,
Guymon A, Hoyle C, Shirai M, Nelson E (Eds.), Paper No. 1005-Q05-05, (2007)
Spivak DA, Discovery-based materials approach to development of molecularly imprinted polymers.
Abstracts of Papers of the American Chemical Society, 235, (ORGN), 335-(2008)
Yoshimatsu K et al., Molecularly imprinted polymer microspheres (spherical OMNiMIPs) prepared by precipitation polymerization using a single bifunctional monomer.
Abstracts of Papers of the American Chemical Society, 236, (ANYL), 388-(2008)
LeJeune J et al., Analyte separation by OMNiMIPs imprinted with multiple templates.
Biosensors and Bioelectronics, 25, (3), 604-608, (2009)
Meng AC et al., Multi-analyte imprinting capability of OMNiMIPs versus traditional molecularly imprinted polymers.
Journal of Molecular Recognition, 22, (2), 121-128, (2009)
Yoshimatsu K et al., Peptide-imprinted polymer microspheres prepared by precipitation polymerization using a single bi-functional monomer.
Analyst, 134, (4), 719-724, (2009)
Balamurugan S et al., Molecular imprinting in monolayer surfaces.
Journal of Molecular Recognition, 24, (6), 915-929, (2011)
Mondal R et al., Thin-film molecularly imprinted chemosensors based on fluorescent conjugated polymers.
Abstracts of Papers of the American Chemical Society, 241, (POLY), 70-(2011)
Spivak DA, Novel approaches to molecular imprinting in different matrices.
Abstracts of Papers of the American Chemical Society, 241, (POLY), 18-(2011)
Spivak DA et al., MIP2010: The Future of Molecular Imprinting.
Journal of Molecular Recognition, 25, (6), 319-319, (2012)
Bai W et al., Macromolecular Amplification of Binding Response in Superaptamer Hydrogels.
Journal of the American Chemical Society, 135, (18), 6977-6984, (2013)
Spivak DA, Book chapter, Enantioseparations by high-performance liquid chromatography using molecularly imprinted polymers,
In: Chiral Separations, Methods and Protocols, Scriba GKE (Ed.) Humana Press: 209-220, (2013)
Bai W et al., A Double-Imprinted Diffraction-Grating Sensor Based on a Virus-Responsive Super-Aptamer Hydrogel Derived from an Impure Extract.
Angewandte Chemie International Edition, 53, (8), 2095-2098, (2014)
Krupadam RJ et al., Highly selective detection of oil spill polycyclic aromatic hydrocarbons using molecularly imprinted polymers for marine ecosystems.
Journal of Hazardous Materials, 274, 1-7, (2014)
Meador DS et al., Absolute Configuration Determination Using Enantiomeric Pairs of Molecularly Imprinted Polymers.
Organic Letters, 16, (5), 1402-1405, (2014)
Hebert B et al., Scalemic and racemic imprinting with a chiral crosslinker.
Analytica Chimica Acta, 890, 157-164, (2015)
Díaz-Álvarez M et al., Preparation of molecularly imprinted polymeric fibers using a single bifunctional monomer for the solid-phase microextraction of parabens from environmental solid samples.
Journal of Separation Science, 39, (3), 552-558, (2016)
Hamdan S et al., Ionic liquid crosslinkers for chiral imprinted nanoGUMBOS.
Journal of Colloid and Interface Science, 463, 29-36, (2016)
Bodoki AE et al., Improved Enantioselectivity for Atenolol Employing Pivot Based Molecular Imprinting.
Molecules, 23, (8), ArticleNo1875-(2018)
Spivak DA, Editorial.
Journal of Molecular Recognition, 31, (3), ArticleNoe2700-(2018)
Spivey AC
Spivey AC et al., Synthetic methods: Part (III) protecting groups.Annual Reports on the Progress of Chemistry - Section B, 97, 41-59, (2001)
Piletsky SS et al., Snapshot imprinting: rapid identification of cancer cell surface proteins and epitopes using molecularly imprinted polymers.
Nano Today, 41, Article101304-(2021)
Spizzirri UG
Puoci F et al., Spherical molecularly imprinted polymers (SMIPs) via a novel precipitation polymerization in the controlled delivery of sulfasalazine.Macromolecular Bioscience, 4, (1), 22-26, (2004)
Puoci F et al., Molecularly imprinted solid phase extraction for detection of sudan I in food matrices.
Food Chemistry, 93, (2), 349-353, (2005)
Spizzirri UG et al., Structural analysis and diffusional behavior of molecularly imprinted polymer networks for cholesterol recognition.
Chemistry of Materials, 17, (26), 6719-6727, (2005)
Puoci F et al., Molecularly imprinted solid phase extraction for the selective HPLC determination of [alpha]-tocopherol in bay leaves.
Analytica Chimica Acta, 593, (2), 164-170, (2007)
Puoci F et al., Molecularly imprinted solid-phase extraction for cholesterol determination in cheese products.
Food Chemistry, 106, (2), 836-842, (2008)
Cirillo G et al., Imprinted hydrophilic nanospheres as drug delivery systems for 5-fluorouracil sustained release.
Journal of Drug Targeting, 17, (1), 72-77, (2009)
Curcio M et al., Selective recognition of methotrexate by molecularly imprinted polymers.
E-Polymers, Art. No. 078-(2009)
Puoci F et al., New restricted access materials combined to molecularly imprinted polymers for selective recognition/release in water media.
European Polymer Journal, 45, (6), 1634-1640, (2009)
Cirillo G et al., Gastro-intestinal sustained release of phytic acid by molecularly imprinted microparticles.
Pharmaceutical Development and Technology, 15, (5), 526-531, (2010)
Cirillo G et al., Molecularly imprinted polymers as drug delivery systems for the sustained release of glycyrrhizic acid.
Journal of Pharmacy and Pharmacology, 62, (5), 577-582, (2010)
Cirillo G et al., Molecular imprinting polymerization by Fenton reaction.
Colloid & Polymer Science, 288, (6), 689-693, (2010)
Curcio M et al., Selective Determination of Melamine in Aqueous Medium by Molecularly Imprinted Solid Phase Extraction.
Journal of Agricultural and Food Chemistry, 58, (22), 11883-11887, (2010)
Parisi OI et al., Surface modifications of molecularly imprinted polymers for improved template recognition in water media.
Journal of Polymer Research, 17, (3), 355-362, (2010)
Puoci F et al., Book chapter, Molecularly Imprinted Polymers (MIPs) in Biomedical Applications,
In: Biopolymers, Elnashar M (Ed.) InTech: Ch. 28, 547-574, (2010)
Cirillo G et al., Molecularly imprinted polymers for the selective extraction of glycyrrhizic acid from liquorice roots.
Food Chemistry, 125, (3), 1058-1063, (2011)
Spiská L
Hrobonová K et al., Application of umbelliferone molecularly imprinted polymer in analysis of plant samples.Chemical Papers, 67, (5), 477-483, (2013)
Spolnik G
Ayerdurai V et al., Selective Impedimetric Chemosensing of Carcinogenic Heterocyclic Aromatic Amine in Pork by dsDNA-Mimicking Molecularly Imprinted Polymer Film-Coated Electrodes.Journal of Agricultural and Food Chemistry, 69, (48), 14689-14698, (2021)
Spoorthy P
Rao RN et al., Molecularly imprinted polymer-based, solid-phase extraction followed by liquid chromatographic determination of lacosamide in rat plasma.Analytical Methods, 6, (9), 3101-3107, (2014)
Sproß J
Sproß J et al., Monolithic media for applications in affinity chromatography.Journal of Separation Science, 34, (16-17), 1958-1973, (2011)
Spurlin TA
Lemcoff NG et al., Organic nanoparticles whose size and rigidity are finely tuned by cross-linking the end groups of dendrimers.Journal of the American Chemical Society, 126, (37), 11420-11421, (2004)
Spurlock LD
Spurlock LD et al., Selectivity and sensitivity of ultrathin purine-templated overoxidized polypyrrole film electrodes.Analytica Chimica Acta, 336, (1-3), 37-46, (1996)
Spyridopoulos I
McClements J et al., Immobilization of Molecularly Imprinted Polymer Nanoparticles onto Surfaces Using Different Strategies: Evaluating the Influence of the Functionalized Interface on the Performance of a Thermal Assay for the Detection of the Cardiac Biomarker Troponin I.ACS Applied Materials & Interfaces, 13, (24), 27868-27879, (2021)
Spégel P
Schweitz L et al., Molecularly imprinted microparticles for capillary electrochromatographic enantiomer separation of propranolol.Analyst, 125, (11), 1899-1901, (2000)
Schweitz L et al., Approaches to molecular imprinting based selectivity in capillary electrochromatography.
Electrophoresis, 22, (19), 4053-4063, (2001)
Spégel P et al., Molecularly imprinted microparticles for capillary electrochromatography: Studies on microparticle synthesis and electrolyte composition.
Electrophoresis, 22, (17), 3833-3841, (2001)
Spégel P et al., A new approach to capillary electrochromatography: Disposable molecularly imprinted nanoparticles.
American Laboratory, 34, (14), 29-+, (2002)
Spégel P et al., Molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 372, (1), 37-38, (2002)
Viberg P et al., Nanoparticles as pseudostationary phase in capillary electrochrornatography/ESI-MS.
Analytical Chemistry, 74, (18), 4595-4601, (2002)
Spégel P et al., Book chapter, Chiral separations by HPLC using molecularly imprinted polymers,
In: Chiral separations: methods and protocols, Gübitz G, Schmid MG (Eds.) Humana Press Inc.: Totowa, NJ, Ch. 9, 217-229, (2003)
Spégel P et al., Book chapter, Chiral separations by capillary electrochromatography using molecularly imprinted polymers,
In: Chiral separations: methods and protocols, Gübitz G, Schmid MG (Eds.) Humana Press Inc.: Totowa, Ch. 25, 411-424, (2003)
Spégel P et al., Molecularly imprinted polymers in capillary electrochromatography: Recent developments and future trends.
Electrophoresis, 24, (22-23), 3892-3899, (2003)
Spégel P et al., Selectivity toward multiple predetermined targets in nanoparticle capillary electrochromatography.
Analytical Chemistry, 75, (23), 6608-6613, (2003)
Nilsson J et al., Molecularly imprinted polymer formats for capillary electrochromatography.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 3-12, (2004)
Spégel P et al., Novel Vinylpyridine Based Cationic MIP Monoliths for Enantiomer Separation in CEC.
Chromatographia, 69, (3), 277-285, (2009)
Spörl R
Spörl R, Proceeding, Computer Simulation of Enantioselective Adsorption in A Simple Model of Molecularly Imprinted Polymers,Kaskel S, Llewellyn P, Rodriguez-Reinoso F, Seaton NA (Eds.), 204-210, (2009)
Squella JA
Jara-Ulloa P et al., Polypyrrole Molecularly Imprinted Modified Glassy Carbon Electrode for the Recognition of Gallic Acid.Journal of The Electrochemical Society, 160, (4), H243-H246, (2013)
Sravan B
Rao RN et al., Molecularly imprinted polymer-based, solid-phase extraction followed by liquid chromatographic determination of lacosamide in rat plasma.Analytical Methods, 6, (9), 3101-3107, (2014)
Srebnik S
Srebnik S, Book chapter, Induced porosity in cross-linked polymer networks: Mean field theory and simulations,In: Characterization Of Porous Solids VI, Rodríguez-Reinoso F, McEnaney B, Rouquerol J, Unger KK (Eds.) Elsevier: Amsterdam, 43-50, (2002)
Srebnik S et al., Toward establishing criteria for polymer imprinting using mean-field theory.
Journal of Chemical Physics, 116, (24), 10967-10972, (2002)
Srebnik S et al., Theoretical investigation of imprinted crosslinked silicates.
Journal of Sol-Gel Science and Technology, 26, (1-3), 107-113, (2003)
Srebnik S, Theoretical investigation of the imprinting efficiency of molecularly imprinted polymers.
Chemistry of Materials, 16, (5), 883-888, (2004)
Rossinsky E et al., Monte Carlo simulation of protein folding in the presence of residue-specific binding sites.
Biopolymers, 79, (5), 259-268, (2005)
Srebnik S, Phase behavior of physically cross-linked asymmetric random heteropolymers.
Physical Review E, 72, (5), Art. No. 051802-(2005)
Yungerman I et al., Factors contributing to binding-site imperfections in imprinted polymers.
Chemistry of Materials, 18, (3), 657-663, (2006)
Levi L et al., Simulation of Protein-Imprinted Polymers. 1. Imprinted Pore Properties.
Journal of Physical Chemistry B, 114, (1), 107-114, (2010)
Levi L et al., Structural Characterization of Protein-Imprinted Gels Using Lattice Monte Carlo Simulation.
Macromolecular Symposia, 291-292, (1), 258-270, (2010)
Levi L et al., Simulation of Protein-Imprinted Polymers. 2. Imprinting Efficiency.
Journal of Physical Chemistry B, 114, (50), 16744-16751, (2010)
Levi L et al., Simulation of Protein-Imprinted Polymers. 3. Imprinting Selectivity.
Journal of Physical Chemistry B, 115, (49), 14469-14474, (2011)
Levi L et al., A brief review of coarse-grained and other computational studies of molecularly imprinted polymers.
Journal of Molecular Recognition, 24, (6), 883-891, (2011)
Huynh TP et al., Cytosine derivatized bis(2, 2'-bithienyl)methane molecularly imprinted polymer for selective recognition of 6-thioguanine, an antitumor drug.
Biosensors and Bioelectronics, 70, 153-160, (2015)
Raim V et al., Comparison of descriptors for predicting selectivity of protein-imprinted polymers.
Journal of Molecular Recognition, 29, (8), 391-400, (2016)
Yankelov R et al., The selectivity of protein-imprinted gels and its relation to protein properties: A computer simulation study.
Journal of Molecular Recognition, 30, (7), ArticleNoe2607-(2017)
Zadok I et al., Coarse-Grained Simulation of Protein-Imprinted Hydrogels.
The Journal of Physical Chemistry B, 122, (28), 7091-7101, (2018)
Sree U
Shiigi H et al., Fabrication process and characterization of a novel structural isomer sensor - Molecularly imprinted overoxidized polypyrrole film.Electrochemical and Solid State Letters, 6, (1), H1-H3, (2003)
Shiigi H et al., Molecularly imprinted overoxidized polypyrrole colloids: Promising materials for molecular recognition.
Microchimica Acta, 143, (2-3), 155-162, (2003)
Sreeja PB
Jose J et al., Fabrication of Anchored Complexes as Electrodes for Sensing Heavy Metal Ions by Electrochemical Method.Oriental Journal of Chemistry, 33, (3), 1438-1446, (2017)
Sreenivasan K
Sreenivasan K, Application of molecularly imprinted polymer as a drug retaining matrix.Angewandte Makromolekulare Chemie, 246, (1), 65-69, (1997)
Sreenivasan K, A note on the selectivity of g-radiation polymerised molecularly imprinted poly (HEMA).
Polymer Gels And Networks, 5, (1), 17-22, (1997)
Sreenivasan K et al., Interaction of molecularly imprinted polymers with creatinine.
Journal of Applied Polymer Science, 66, (13), 2539-2542, (1997)
Sreenivasan K, Imparting cholesterol recognition sites in radiation polymerised poly(2-hydroxyethyl methacrylate) by molecular imprinting.
Polymer International, 42, (2), 169-172, (1997)
Sreenivasan K, On the feasibility of using molecularly imprinted poly (HEMA) as a sensor component.
Talanta, 44, (6), 1137-1140, (1997)
Sreenivasan K et al., Book chapter, Evaluation of a methyl b-cyclodextrin based molecularly imprinted copolymer as novel adsorbent for steroids,
In: Macromolecules - New Frontiers. Peoc. IUPAC Int. Symp. Adv. Polym. Sci. Technol, Srinivasan K (Ed.) Allied Publishers, Ltd: New Delhi, Ch. 2, 594-596, (1998)
Sreenivasan K, Effect of the type of monomers of molecularly imprinted polymers on the interaction with steroids.
Journal of Applied Polymer Science, 68, (11), 1863-1866, (1998)
Sreenivasan K, Synthesis and evaluation of a molecularly imprinted polyurethane-poly(HEMA) semi-interpenetrating polymer networks as membrane.
Journal of Applied Polymer Science, 70, (1), 19-22, (1998)
Sreenivasan K, Synthesis and evaluation of a b-cyclodextrin-based molecularly imprinted copolymer.
Journal of Applied Polymer Science, 70, (1), 15-18, (1998)
Sreenivasan K, On the application of molecularly imprinted poly(HEMA) as a template responsive release system.
Journal of Applied Polymer Science, 71, (11), 1819-1821, (1999)
Sreenivasan K et al., Imparting recognition sites in poly(HEMA) for two compounds through molecular imprinting.
Journal of Applied Polymer Science, 71, (11), 1823-1826, (1999)
Sreenivasan K, The effect of polymerisation methods on the adsorption capacity of HEMA based molecularly imprinted polymers.
Journal of Polymer Research, 8, (3), 197-200, (2001)
Sreenivasan K, The use of metal-containing monomer in the preparation of molecularly imprinted polymer to increase the adsorption capacity.
Journal of Applied Polymer Science, 80, (14), 2795-2799, (2001)
Sreenivasan K, Molecularly imprinted polyacrylic acid containing multiple recognition sites for steroids.
Journal of Applied Polymer Science, 82, (4), 889-893, (2001)
Sreenivasan K, Molecularly imprinted polymer as storage medium for an analyte.
Bioseparation, 10, (6), 395-398, (2002)
Sreenivasan K et al., Ferric iron-containing molecularly imprinted polymer as an adsorbent for cholesterol.
Adsorption Science & Technology, 21, (3), 261-268, (2003)
Sreenivasan K, Imparting affinity sites for adenosine triphosphate on the surface of polyurethane through molecular imprinting.
Journal of Applied Polymer Science, 94, (5), 2088-2090, (2004)
Sreenivasan K, Surface-imprinted polyurethane having affinity sites for ampicillin.
Macromolecular Bioscience, 5, (3), 187-191, (2005)
Sreenivasan K, Detection of creatinine enriched on a surface imprinted polystyrene film using FT-ATR-IR.
Journal of Molecular Recognition, 19, (5), 408-412, (2006)
Sreenivasan K, Surface imprinted polyurethane film as a chiral discriminator.
Talanta, 68, (3), 1037-1039, (2006)
Sreenivasan K, Synthesis and evaluation of multiply templated molecularly imprinted polyaniline.
Journal of Materials Science, 42, (17), 7575-7578, (2007)
Sreenivasan K, Synthesis and evaluation of molecularly imprinted polymers for nucleic acid bases using aniline as a monomer.
Reactive and Functional Polymers, 67, (10), 859-864, (2007)
Sreenivasan K, Identification of salicylic acid using surface modified polyurethane film using an imprinted layer of polyaniline.
Analytica Chimica Acta, 583, (2), 284-288, (2007)
Sreenivasan K, Improving the efficiency of imprinting in poly(HEMA) for polyaromatic hydrocarbon using silver ions.
Journal of Applied Polymer Science, 109, (5), 3275-3278, (2008)
Manju S et al., Fluorescent molecularly imprinted polymer film binds glucose with a concomitant changes in fluorescence.
Biosensors and Bioelectronics, 26, (2), 894-897, (2010)
Srichana R
Saenkasa Z et al., Comparison of molecular adsorption ability of the molecularly imprinted polymers prepared by ethylene glycol dimethacrylate and trimethylolpropane trimethacrylate as cross linkers.Journal of Applied Polymer Science, 103, (4), 2325-2330, (2007)
Srichana RS
Obinna O et al., Chitosan molecularly imprinted polymers cross linked with (E)-3, 7-Dimethyl-2, 6-octadienoic acid, With Binding Sites For Phenylalanine Amide.International Journal of Applied Science and Technology, 9, (2), 55-66, (2019)
Ofoegbu O et al., Molecularly Imprinted Chitosan-Based Thin Films with Selectivity for Nicotine Derivatives for Application as a Bio-Sensor and Filter.
Polymers, 13, (19), ArticleNo3363-(2021)
Srichana T
Suedee R et al., Chiral determination of various adrenergic drugs by thin-layer chromatography using molecularly imprinted chiral stationary phases prepared with a-agonists.Analyst, 124, (7), 1003-1009, (1999)
Suedee R et al., Evaluation of matrices containing molecularly imprinted polymers in the enantioselective-controlled delivery of b-blockers.
Journal of Controlled Release, 66, (2-3), 135-147, (2000)
Suedee R et al., Thin-layer chromatographic separation of chiral drugs on molecularly imprinted chiral stationary phases.
Jpc-Journal Of Planar Chromatography-Modern Tlc, 14, (3), 194-198, (2001)
Suedee R et al., Enantioselective release of controlled delivery granules based on molecularly imprinted polymers.
Drug Delivery, 9, (1), 19-30, (2002)
Suedee R et al., Stereoselective release behaviors of imprinted bead matrices.
Drug Development and Industrial Pharmacy, 28, (5), 545-554, (2002)
Suedee R et al., Development of trichloroacetic acid sensor based on molecularly imprinted polymer membrane for the screening of complex mixture of haloacetic acids in drinking water.
Analytica Chimica Acta, 504, (1), 89-100, (2004)
Suedee R et al., Use of molecularly imprinted polymers from a mixture of tetracycline and its degradation products to produce affinity membranes for the removal of tetracycline from water.
Journal of Chromatography B, 811, (2), 191-200, (2004)
Bodhibukkana C et al., Composite membrane of bacterially-derived cellulose and molecularly imprinted polymer for use as a transdermal enantioselective controlled-release system of racemic propranolol.
Journal of Controlled Release, 113, (1), 43-56, (2006)
Suedee R et al., Development of a reservoir-type transdermal enantioselective-controlled delivery system for racemic propranolol using a molecularly imprinted polymer composite membrane.
Journal of Controlled Release, 129, (3), 170-178, (2008)
Suedee R et al., Development of a pH-responsive drug delivery system for enantioselective-controlled delivery of racemic drugs.
Journal of Controlled Release, 142, (1), 122-131, (2010)
Jaiswal L et al., A thalidomide templated molecularly imprinted polymer that promotes a biologically active chiral entity tagged in colon carcinoma cells and protein-related immune activation.
Process Biochemistry, 50, (12), 2035-2050, (2015)
Sricharoen P
Areerob Y et al., Core-shell SiO2-coated Fe3O4 with a surface molecularly imprinted polymer coating of folic acid and its applicable magnetic solid-phase extraction prior to determination of folates in tomatoes.Journal of Separation Science, 39, (15), 3037-3045, (2016)
Srikaran R
Spivey AC et al., Synthetic methods: Part (III) protecting groups.Annual Reports on the Progress of Chemistry - Section B, 97, 41-59, (2001)
Sriprachuabwong C
Dechtrirat D et al., An electrochemical MIP sensor for selective detection of salbutamol based on a graphene/PEDOT:PSS modified screen printed carbon electrode.RSC Advances, 8, (1), 206-212, (2018)
Dechtrirat D et al., A screen-printed carbon electrode modified with gold nanoparticles, poly(3, 4-ethylenedioxythiophene), poly(styrene sulfonate) and a molecular imprint for voltammetric determination of nitrofurantoin.
Microchimica Acta, 185, (5), ArticleNo261-(2018)
Sritongkham P
Tuantranont A et al., A review of monolithic multichannel quartz crystal microbalance: A review.Analytica Chimica Acta, 687, (2), 114-128, (2011)
Srivaro S
Jantarat C et al., Molecularly imprinted bacterial cellulose for sustained-release delivery of quercetin.Journal of Biomaterials Science-Polymer Edition, 31, (15), 1961-1976, (2020)
Srivastava A
Singh S et al., Recent trends in development of biosensors for detection of microcystin.Toxicon, 60, (5), 878-894, (2012)
Prasad BB et al., Multiwalled carbon nanotubes-based pencil graphite electrode modified with an electrosynthesized molecularly imprinted nanofilm for electrochemical sensing of methionine enantiomers.
Sensors and Actuators B: Chemical, 176, 863-874, (2013)
Prasad BB et al., Electrochemically grown imprinted polybenzidine nanofilm on multiwalled carbon nanotubes anchored pencil graphite fibers for enantioselective micro-solid phase extraction coupled with ultratrace sensing of d- and l-methionine.
Journal of Chromatography B, 912, 65-74, (2013)
Prasad BB et al., Highly sensitive and selective hyphenated technique (molecularly imprinted polymer solid-phase microextraction-molecularly imprinted polymer sensor) for ultra trace analysis of aspartic acid enantiomers.
Journal of Chromatography A, 1283, 9-19, (2013)
Prasad BB et al., Molecularly imprinted polymer-matrix nanocomposite for enantioselective electrochemical sensing of d- and l-aspartic acid.
Materials Science and Engineering: C, 33, (7), 4071-4080, (2013)
Prasad BB et al., Highly selective and sensitive analysis of dopamine by molecularly imprinted stir bar sorptive extraction technique coupled with complementary molecularly imprinted polymer sensor.
Journal of Colloid and Interface Science, 396, 234-241, (2013)
Prasad BB et al., Molecularly imprinted micro solid-phase extraction technique coupled with complementary molecularly imprinted polymer-sensor for ultra trace analysis of epinephrine in real samples.
Colloids and Surfaces B: Biointerfaces, 113, 69-76, (2014)
Singh AK et al., Book chapter, Molecularly Imprinted Polymers for Pharmaceutical Applications,
In: Handbook of Polymers for Pharmaceutical Technologies, Bioactive and Compatible Synthetic/Hybrid Polymers, Thakur VK, Thakur MK (Eds.) John Wiley & Sons: Ch. 2, 17-66, (2015)
Srivastava J et al., Highly sensitive and selective estimation of aspartame by chitosan nanoparticles - graphene nanocomposite tailored EQCM-MIP sensor.
Polymer Bulletin, 76, (9), 4431-4449, (2019)
Srivastava J et al., Glycoprotein imprinted RGO-starch nanocomposite modified EQCM sensor for sensitive and specific detection of transferrin.
Journal of Electroanalytical Chemistry, 835, 169-177, (2019)
Srivastava AK
Rawool CR et al., A dual template imprinted polymer modified electrochemical sensor based on Cu metal organic framework/mesoporous carbon for highly sensitive and selective recognition of rifampicin and isoniazid.Sensors and Actuators B: Chemical, 288, 493-506, (2019)
Srivastava B
Joshi M et al., Nanomedicine to improve drug delivery outcomes.Chronicles of Young Scientists, 3, (4), 258-268, (2012)
Srivastava J
Srivastava J et al., A biopolymeric nano-receptor for sensitive and selective recognition of albendazole.Analytical Methods, 8, (5), 1026-1033, (2016)
Kushwaha A et al., Epitope imprinting of Mycobacterium leprae bacteria via molecularly imprinted nanoparticles using multiple monomers approach.
Biosensors and Bioelectronics, 145, Article111698-(2019)
Srivastava J et al., Highly sensitive and selective estimation of aspartame by chitosan nanoparticles - graphene nanocomposite tailored EQCM-MIP sensor.
Polymer Bulletin, 76, (9), 4431-4449, (2019)
Srivastava J et al., Glycoprotein imprinted RGO-starch nanocomposite modified EQCM sensor for sensitive and specific detection of transferrin.
Journal of Electroanalytical Chemistry, 835, 169-177, (2019)
Kushwaha A et al., Development of highly sensitive and selective sensor for ethionamide guided by molecular modelling via electropolymerized molecularly imprinted films.
Microchemical Journal, 152, Article104355-(2020)
Srivastava M
Srivastava J et al., Glycoprotein imprinted RGO-starch nanocomposite modified EQCM sensor for sensitive and specific detection of transferrin.Journal of Electroanalytical Chemistry, 835, 169-177, (2019)
Srivastava S
Prasad BB et al., Molecularly imprinted polymer-based solid-phase microextraction fiber coupled with molecularly imprinted polymer-based sensor for ultratrace analysis of ascorbic acid.Journal of Chromatography A, 1198-1199, (1-2), 59-66, (2008)
Prasad BB et al., Zwitterionic molecularly imprinted polymer-based solid-phase micro-extraction coupled with molecularly imprinted polymer sensor for ultra-trace sensing of L-histidine.
Journal of Separation Science, 32, (7), 1096-1105, (2009)
Prasad BB et al., Ascorbic acid sensor based on molecularly imprinted polymer-modified hanging mercury drop electrode.
Materials Science and Engineering: C, 29, (4), 1082-1087, (2009)
Prasad BB et al., Ultratrace analysis of uracil and 5-fluorouracil by molecularly imprinted polymer brushes grafted to silylated solid-phase microextraction fiber in combination with complementary molecularly imprinted polymer-based sensor.
Biomedical Chromatography, 23, (5), 499-509, (2009)
Prasad BB et al., Trace-level sensing of dopamine in real samples using molecularly imprinted polymer-sensor.
Biochemical Engineering Journal, 44, (2-3), 232-239, (2009)
Prasad BB et al., Ultratrace Analysis of Dopamine Using a Combination of Imprinted Polymer-Brush-Coated SPME and Imprinted Polymer Sensor Techniques.
Chromatographia, 69, (9), 949-957, (2009)
Prasad BB et al., A new zwitterionic imprinted polymer sensor using ethylenediamine tetraacetic acid and chloranil precursors for the trace analysis of l-histidine.
Materials Science and Engineering: C, 29, (6), 1781-1789, (2009)
Prasad BB et al., Development of Uracil and 5-Fluorouracil Sensors Based on Molecularly Imprinted Polymer-Modified Hanging Mercury Drop Electrode.
Sensors and Materials, 21, (6), 291-306, (2009)
Srivastava SK
Gupta BD et al., Book chapter, Fabrication and Functionalization Method,In: Fiber Optic Sesors Based on Plasmonics, Gupta BD, Srivastava SK, Verma R (Eds.) World Scientific Publishing Co. Pte. Ltd.: Singapore, Ch. 5, 119-154, (2015)
Srivastava V
Iftekhar S et al., Fabrication of novel metal ion imprinted xanthan gum-layered double hydroxide nanocomposite for adsorption of rare earth elements.Carbohydrate Polymers, 194, 274-284, (2018)
Sriwimol W
Phonklam K et al., A novel molecularly imprinted polymer PMB/MWCNTs sensor for highly-sensitive cardiac troponin T detection.Sensors and Actuators B: Chemical, 308, Article127630-(2020)
Sroysee W
Amatatongchai M et al., Selective amperometric flow-injection analysis of carbofuran using a molecularly-imprinted polymer and gold-coated-magnetite modified carbon nanotube-paste electrode.Talanta, 179, 700-709, (2018)
Amatatongchai M et al., Novel three-Dimensional molecularly imprinted polymer-coated carbon nanotubes (3D-CNTs@MIP) for selective detection of profenofos in food.
Analytica Chimica Acta, 1076, 64-72, (2019)
Amatatongchai M et al., Highly sensitive and selective electrochemical paper-based device using a graphite screen-printed electrode modified with molecularly imprinted polymers coated Fe3O4@Au@SiO2 for serotonin determination.
Analytica Chimica Acta, 1077, 255-265, (2019)
Sroysee W et al., Molecularly imprinted polymers to detect profenofos and carbofuran selectively with QCM sensors.
Physics in Medicine, 7, Article100016-(2019)
Stacey KA
Weatherhead RH et al., Polyethyleneimine derivatives as catalysts - dye-binding capacity and reactivity are not diminished on extensive internal cross-linking of the polymers.Journal of Molecular Catalysis, 85, (1), 33-44, (1993)
Stack TDP
Terry TJ et al., Covalent Heterogenization of a Discrete Mn(II) Bis-Phen Complex by a Metal-Template/Metal-Exchange Method: An Epoxidation Catalyst with Enhanced Reactivity.Journal of the American Chemical Society, 130, (14), 4945-4953, (2008)
Stadlbauer S
Gruber B et al., Dynamic Interface Imprinting: High-Affinity Peptide Binding Sites Assembled by Analyte-Induced Recruiting of Membrane Receptors.Angewandte Chemie International Edition, 51, (40), 10060-10063, (2012)
Stadnik P
Polyakov MV et al., On the structure of silica.Zhurnal Fizieskoj Khimii/Akademiya SSSR, 4, 454-456, (1933)
Stafford K
Petrikovics I et al., Determining the biomarker cyanide metabolite 2-aminothiazoline-4-carboxylic acid in mice liver after cyanide exposure.Toxicology Letters, 196, (Supplement 1), S295-S296, (2010)
Stahl J
Hirsch T et al., Size-controlled electrochemical synthesis of metal nanoparticles on monomolecular templates.Angewandte Chemie International Edition, 44, (41), 6775-6778, (2005)
Stair PC
Canlas CP et al., Shape-selective sieving layers on an oxide catalyst surface.Nature Chemistry, 4, (12), 1030-1036, (2012)
Stalberg S
Biffis A et al., The synthesis, characterization and molecular recognition properties of imprinted microgels.Macromolecular Chemistry And Physics, 202, (1), 163-171, (2001)
Stalcup AM
Schneiderman E et al., Cyclodextrins: a versatile tool in separation science.Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 745, (1), 83-102, (2000)
Stamatin I
Kiss L et al., Electropolymerized molecular imprinting on glassy carbon electrode for voltammetric detection of dopamine in biological samples.Talanta, 160, 489-498, (2016)
Stampachiacchiere S
Capriotti AL et al., Recent advances and developments in matrix solid-phase dispersion.TrAC Trends in Analytical Chemistry, 71, 186-193, (2015)
Stancil KA
Stancil KA et al., Correlation and cross-linking effects in imprinting sites for divalent adsorption in gels.Journal of Physical Chemistry B, 109, (14), 6636-6639, (2005)
Stanker LH
Muldoon MT et al., Polymer synthesis and characterization of a molecularly imprinted sorbent assay for atrazine.Journal of Agricultural and Food Chemistry, 43, (6), 1424-1427, (1995)
Muldoon MT et al., Plastic antibodies: Molecularly-imprinted polymers.
Chemistry and Industry, 204-207, (1996)
Stanker LH et al., Development of molecular imprints for residue analysis.
Journal of Automatic Chemistry, 18, (3), 71-(1996)
Muldoon MT et al., Book chapter, Development and application of molecular imprinting technology for residue analysis,
In: Immunochemical Technology for Environmental Applications, Aga DS, Thurman EM (Eds.) The American Chemical Society: Washington DC, Ch. 26, 314-330, (1997)
Muldoon MT et al., Molecularly imprinted solid phase extraction of atrazine from beef liver extracts.
Analytical Chemistry, 69, (5), 803-808, (1997)
Stankiewicz AI
Özkan L et al., Towards Perfect Reactors: Gaining full control of chemical transformations at molecular level.Chemical Engineering and Processing: Process Intensification, 51, (1), 109-116, (2012)
Stanley BJ
Stanley BJ et al., Affinity distributions of a molecularly imprinted polymer calculated numerically by the expectation-maximization method.Langmuir, 19, (3), 772-778, (2003)
Stanley S
Percival CJ et al., Molecular-imprinted, polymer-coated quartz crystal microbalances for the detection of terpenes.Analytical Chemistry, 73, (17), 4225-4228, (2001)
Percival CJ et al., Molecular imprinted polymer coated QCM for the detection of nandrolone.
Analyst, 127, (8), 1024-1026, (2002)
Stanley S et al., Enantioselective detection of L-serine.
Sensors and Actuators B: Chemical, 89, (1-2), 103-106, (2003)
Stanley S et al., Detection of polycyclic aromatic hydrocarbons using quartz crystal microbalances.
Analytical Chemistry, 75, (7), 1573-1577, (2003)
Stanly N
Anirudhan TS et al., Fabrication of a molecularly imprinted silylated graphene oxide polymer for sensing and quantification of creatinine in blood and urine samples.Applied Surface Science, 466, 28-39, (2019)
Stannek M
Stannek M et al., Molecular Recognition Within Imprinted PVA/PAA Hydrogels.Chemie Ingenieur Technik, 80, (9), 1440-1440, (2008)
Starnes SD
Starnes SD et al., Cavitand-porphyrins.Journal of the American Chemical Society, 123, (20), 4659-4669, (2001)
Starodub NF
Piletskii SA et al., Formation of selective surface of silica-based sensor for low-molecular organic-substances.Journal of Analytical Chemistry, 47, (4), 454-458, (1992)
Starodub NF et al., Template sensors for low weight organic molecules based on SiO2 surfaces.
Sensors and Actuators B: Chemical, 14, (1-3), 708-710, (1993)
Starosvetsky J
Cohen T et al., Whole Cell Imprinting in Sol-Gel Thin Films for Bacterial Recognition in Liquids: Macromolecular Fingerprinting.International Journal of Molecular Sciences, 11, (4), 1236-1252, (2010)
Starosvetsky J et al., Effects of Physical Parameters on Bacterial Cell Adsorption onto Pre-Imprinted Sol-Gel Films.
Journal of Biomaterials and Nanobiotechnology, 3, (4A), 499-507, (2012)
Stathopulos H
Mujahid A et al., Solvent Vapour Detection with Cholesteric Liquid Crystals-Optical and Mass-Sensitive Evaluation of the Sensor Mechanism.Sensors, 10, (5), 4887-4897, (2010)
Statkus MA
Oliferova LA et al., On-line coupling of sorption preconcentration to liquid-chromatographic methods of analysis.Journal of Analytical Chemistry, 61, (5), 416-441, (2006)
Stavrou IJ
Kapnissi-Christodoulou CP et al., Enantioseparations in open-tubular capillary electrochromatography: Recent advances and applications.Journal of Chromatography A, 1467, 145-154, (2016)
Stavroulakis G
Piletska EV et al., Passive Control of Quorum Sensing: Prevention of Pseudomonas aeruginosa Biofilm Formation by Imprinted Polymers.Biomacromolecules, 12, (4), 1067-1071, (2011)
Steen Redeker E
Heidt B et al., Biomimetic Bacterial Identification Platform Based on Thermal Transport Analysis Through Surface Imprinted Polymers: From Proof of Principle to Proof of Application.physica status solidi (a), 216, (12), Article1800688-(2019)
Stefan RI
Aboul-Enein HY et al., Enantioselective sensors and biosensors in the analysis of chiral drugs.Critical Reviews in Analytical Chemistry, 28, (3), 259-266, (1998)
Stefan RI et al., Design and use of electrochemical sensors in enantioselective high throughput screening of drugs. A minireview.
Combinatorial Chemistry & High Throughput Screening, 3, (6), 445-454, (2000)
Stefanescu CD
Kiss L et al., Electropolymerized molecular imprinting on glassy carbon electrode for voltammetric detection of dopamine in biological samples.Talanta, 160, 489-498, (2016)
Stefaniak F
Iskierko Z et al., Molecularly Imprinted Polymer (MIP) Film with Improved Surface Area Developed by Using Metal-Organic Framework (MOF) for Sensitive Lipocalin (NGAL) Determination.ACS Applied Materials & Interfaces, 8, (31), 19860-19865, (2016)
Stefanucci E
Cowen T et al., Synthetic Mechanism of Molecular Imprinting at the Solid Phase.Macromolecules, 53, (4), 1435-1442, (2020)
Stegmaier M
Eppler S et al., A novel extraction device for efficient clean-up of molecularly imprinted polymers.Analytical Methods, 4, (8), 2296-2299, (2012)
Stegmeier S
Pohle R et al., Detection of Explosives based on the Work Function Read-out of Molecularly Imprinted Polymers.Procedia Engineering, 47, 1370-1373, (2012)
Steiakaki MA
Steiakaki MA et al., An insight into the recognition mechanisms of Molecularly Imprinted Polymers (MIPs) for flavonoids quercetin, kaempferol and hydroxytyrosol.Planta Medica, 74, (9), 1152-1152, (2008)
Steichen SD
Koetting MC et al., Stimulus-responsive hydrogels: Theory, modern advances, and applications.Materials Science and Engineering: R: Reports, 93, 1-49, (2015)
Culver HR et al., A Closer Look at the Impact of Molecular Imprinting on Adsorption Capacity and Selectivity for Protein Templates.
Biomacromolecules, 17, (12), 4045-4053, (2016)
Stein C
Bers K et al., Heat-Transfer Resistance Measurement Method (HTM)-Based Cell Detection at Trace Levels Using a Progressive Enrichment Approach with Highly Selective Cell-Binding Surface Imprints.Langmuir, 30, (12), 3631-3639, (2014)
Eersels K et al., Improving the sensitivity of the heat-transfer method (HTM) for cancer cell detection with optimized sensor chips.
physica status solidi (a), 212, (6), 1320-1326, (2015)
Eersels K et al., Heat-Transfer-Method-Based Cell Culture Quality Assay through Cell Detection by Surface Imprinted Polymers.
Langmuir, 31, (6), 2043-2050, (2015)
Steinberg S
Rubinstein I et al., Ionic recognition and selective response in self-assembling monolayer membranes on electrodes.Nature, 332, (6163), 426-429, (1988)
Steinberg S et al., Ion-selective monolayer membranes based upon self-assembling tetradentate ligand monolayers on gold electrodes .2. Effect of applied potential on ion binding.
Journal of the American Chemical Society, 113, (14), 5176-5182, (1991)
Steinfeld U
Valtchev M et al., Development of sulfamethoxazole-imprinted polymers for the selective extraction from waters.Journal of Hazardous Materials, 170, (2-3), 722-728, (2009)
Steinhart M
Steinhart M et al., Polymer nanotubes by wetting of ordered porous templates.Science, 296, (5575), 1997-1997, (2002)
Steinke J
Steinke J et al., Imprinting of synthetic polymers using molecular templates.Advances in Polymer Science, 123, 81-125, (1995)
Steinke JHG
Steinke JHG et al., Molecularly imprinted anisotropic polymer monoliths.Macromolecules, 29, (1), 407-415, (1996)
Steinke JHG et al., A simple polymerisable carboxylic acid receptor: 2-acrylamido pyridine.
TrAC Trends in Analytical Chemistry, 18, (3), 159-164, (1999)
Patel A et al., Enantioselective molecularly imprinted polymers via ring-opening metathesis polymerisation.
Chemical Communications, (1), 88-89, (2003)
Patel A et al., Novel stereoselective molecularly imprinted polymers via ring-opening metathesis polymerisation.
Analytica Chimica Acta, 504, (1), 53-62, (2004)
Sagawa T et al., Proceeding, Surface molecularly imprinted TiO2 nanoparticle for photoreduction of viologen,
Ellingson R (Ed.), 25-30, (2006)
Ewen SL et al., Book chapter, Molecularly Imprinted Polymers Using Anions as Templates,
In: Recognition of Anions, Vilar R (Ed.) Springer: Berlin / Heidelberg, 207-248, (2008)
Stellbrink H
Wulff G et al., On the chemistry of binding-sites .7. Enantioselective binding using chiral boronic acids.Recueil Des Travaux Chimiques Des Pays-Bas-Journal Of The Royal Netherlands Chemical Society, 109, 216-221, (1990)
Stenerson K
Shimelis O et al., Extraction and Analysis of PAHs in Olive Oil using Molecularly Imprinted Polymer SPE and GC-MS.The Reporter, 27, (5), 12-13, (2010)
Stenlund P
Yoshimatsu K et al., A simple method for preparation of molecularly imprinted nanofiber materials with signal transduction ability.Chemical Communications, (17), 2022-2024, (2008)
Stepanova MA
Vlakh EG et al., Preparation and characterization of macroporous monoliths imprinted with erythromycin.Journal of Separation Science, 38, (16), 2763-2771, (2015)
Vlakh EG et al., Molecularly imprinted macroporous monoliths for solid-phase extraction: Effect of pore size and column length on recognition properties.
Journal of Chromatography B, 1029-1030, 198-204, (2016)
Stepanova MA et al., Cholesterol-imprinted macroporous monoliths: Preparation and characterization.
Electrophoresis, 38, (22-23), 2965-2974, (2017)
Stephany RW
Kootstra PR et al., The analysis of [beta]-agonists in bovine muscle using molecular imprinted polymers with ion trap LCMS screening.Analytica Chimica Acta, 529, (1-2), 75-81, (2005)
Stephenson CJ
Stephenson CJ et al., Virus imprinting and reuptake in polymer films.Polymer Preprints, 47, (2), 463-463, (2006)
Stephenson CJ et al., Colormetric imprinted polymers as sensors.
Polymer Preprints, 47, (1), 7-7, (2006)
Stephenson CJ et al., Formation of multi-channel colorimetric polymers as a sensor for biogenic amines.
Polymer Preprints, 47, (2), 1084-1084, (2006)
Stephenson CJ et al., Online method for dye displacement MIP array analysis.
Abstracts of Papers of the American Chemical Society, 231, (ANYL), 208-208, (2006)
Stephenson CJ et al., Colorimetric imprinted polymers as sensors.
Abstracts of Papers of the American Chemical Society, 231, (POLY), 191-191, (2006)
Stephenson CJ et al., In focus: Colorimetric and fluorometric molecularly imprinted polymer sensors and binding assays.
Polymer International, 56, (4), 482-488, (2007)
Shimizu KD et al., Molecularly imprinted polymer sensor arrays.
Current Opinion in Chemical Biology, 14, (6), 743-750, (2010)
Stephenson GR
Holmes AB et al., Molecular imprinting.Chemistry and Industry, 18, (april), 304-304, (1994)
Stephenson-Brown A
Stephenson-Brown A et al., Selective glycoprotein detection through covalent templating and allosteric click-imprinting.Chemical Science, 6, (9), 5114-5119, (2015)
Sterk SS
Kootstra PR et al., The analysis of [beta]-agonists in bovine muscle using molecular imprinted polymers with ion trap LCMS screening.Analytica Chimica Acta, 529, (1-2), 75-81, (2005)
Stevens M
Stevens M et al., Selective and Simultaneous Removal of Ni (II) and Cu (II) Ions from Industrial Wastewater Employing a Double Ni-Cu-Ion Imprinted Polymer.International Journal of Advanced Engineering Research and Science, 5, (6), 222-230, (2018)
Stevens MG
Stevens MG et al., Preparation of Highly Selective Sorbents Composed of Peptides and Silica Using Novel Molecular Imprinting Technology for Target Metal Ions.Journal of Chemical Engineering of Japan, 53, (9), 485-493, (2020)
Stevens MGF
Stevens MGF et al., Multi-templated Pb-Zn-Hg Ion Imprinted Polymer for the Selective and Simultaneous Removal of Toxic Metallic Ions from Wastewater.International Journal of Chemistry, 9, (2), 10-22, (2017)
Stevenson D
Rashid BA et al., Preliminary evaluation of a molecular imprinted polymer for solid-phase extraction of tamoxifen.Analytical Communications, 34, (10), 303-305, (1997)
Stevenson D et al., Book chapter, Molecular imprinted polymer for solid phase extraction of tamoxifen,
In: Drug-development assay approaches including molecular imprinting and biomarkers, Reid E, Hill HM, Wilson ID (Eds.) Royal Society of Chemistry: Ch. A-7, 49-54, (1998)
Stevenson D, Selective extraction via immunoaffinity sorbents and molecular imprinted polymers.
Journal de Pharmacie de Belgique, 53, (3), 122-122, (1998)
Stevenson D, Molecular imprinted polymers for solid-phase extraction.
TrAC Trends in Analytical Chemistry, 18, (3), 154-158, (1999)
Stevenson D, Immuno-affinity solid-phase extraction.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 745, (1), 39-48, (2000)
Martín-Esteban A et al., Effect of template size on the selectivity of molecularly imprinted polymers for phenylurea herbicides.
Chromatographia, 53, (Supplement 1), S434-S437, (2001)
Hawkins DM et al., Investigation of protein imprinting in hydrogel-based molecularly imprinted polymers (HydroMIPs).
Analytica Chimica Acta, 542, (1), 61-65, (2005)
Hawkins DM et al., Quantification and Confocal Imaging of Protein Specific Molecularly Imprinted Polymers.
Biomacromolecules, 7, (9), 2560-2564, (2006)
Hawkins DM et al., Novel critical point drying (CPD) based preparation and transmission electron microscopy (TEM) imaging of protein specific molecularly imprinted polymers (HydroMIPs).
Journal of Materials Science, 42, (22), 9465-9468, (2007)
Reddy SM et al., Protein Crystallization and Biosensor Applications of Hydrogel-Based Molecularly Imprinted Polymers.
Biomacromolecules, 13, (12), 3959-3965, (2012)
Reddy SM et al., Protein detection using hydrogel-based molecularly imprinted polymers integrated with dual polarisation interferometry.
Sensors and Actuators B: Chemical, 176, 190-197, (2013)
El-Sharif HF et al., Book chapter, Hydrogel-Based Molecularly Imprinted Polymers for Biological Detection,
In: Advanced Synthetic Materials in Detection Science, Reddy SM (Ed.) The Royal Society of Chemistry: Cambridge, 75-115, (2014)
El-Sharif HF et al., Determination of protein binding affinities within hydrogel-based molecularly imprinted polymers (HydroMIPs).
Physical Chemistry Chemical Physics, 16, (29), 15483-15489, (2014)
Stevenson D et al., Selective extraction of proteins and other macromolecules from biological samples using molecular imprinted polymers.
Bioanalysis, 8, (21), 2255-2263, (2016)
El-Sharif HF et al., MIP-based protein profiling: A method for interspecies discrimination.
Sensors and Actuators B: Chemical, 241, 33-39, (2017)
Stevenson JD
Stevenson JD et al., Catalytic antibodies and other biomimetic catalysts.Natural Product Reports, 17, (6), 535-577, (2000)
Stevenson R
Stevenson R et al., CEC '98: The state-of-the-art.American Laboratory, 30, 16A-16L, (1998)
Krull IS et al., Specific applications of capillary electrochromatography to biopolymers, including proteins, nucleic acids, peptide mapping, antibodies, and so forth.
Journal of Chromatography A, 887, (1-2), 137-163, (2000)
Stewart NAS
Stewart NAS et al., Imprinting of lyophilized a-chymotrypsin affects the reactivity of the active-site imidazole.Biochemical and Biophysical Research Communications, 240, (1), 27-31, (1997)
Stidham HD
Duffy DJ et al., Molecularly imprinted polymer systems for selective recognition via hydrogen-bonding interactions.Abstracts of Papers of the American Chemical Society, 219, (MSE), 151-151, (2000)
Duffy DJ et al., Binding efficiency and transport properties of molecularly imprinted polymer thin films.
Journal of the American Chemical Society, 124, (28), 8290-8296, (2002)
Stikeman A
Stikeman A, Molecular Bloodhounds: Artificial antibodies could sniff out viruses and toxins.Technology Review, (November), 31-31, (2002)
Stille W
Stille W, Deformation of cholesteric elastomers by uniaxial stress along the helix axis.European Physical Journal E, 28, (1), 57-71, (2009)
Stilman W
Stilman W et al., Optimization and characterization of a flow cell for heat-transfer-based biosensing.physica status solidi (a), 214, (9), ArticleNo1600758-(2017)
Stilman W et al., Detection of yeast strains by combining surface-imprinted polymers with impedance-based readout.
Sensors and Actuators B: Chemical, 340, Article129917-(2021)
Stires JC
Ives JT et al., Book chapter, Fiber optic immunosensors to monitor small molecule analytes in groundwater,In: Chemical, Biochemical, and Environmental Fiber Sensors X, Lieberman RA (Ed.) The International Society for Optical Engineering: Bellingham, 36-44, (1999)
Stobaugh JF
Moring SE et al., Target specific sample preparation from aqueous extracts with molecular imprinted polymers.Journal of Pharmaceutical and Biomedical Analysis, 27, (5), 719-728, (2002)
Stobiecka A
Kowalska A et al., A computational investigation of the interactions between harmane and the functional monomers commonly used in molecular imprinting.Journal of Molecular Structure: THEOCHEM, 901, (1-3), 88-95, (2009)
Stobiecka M
Stobiecka M et al., Molecularly Templated Polymer Matrix Films for Biorecognition Processes: Sensors for Evaluating Oxidative Stress and Redox Buffering Capacity.ECS Transactions, 19, (28), 15-32, (2009)
Hepel M et al., Book chapter, Detection of Oxidative Stress Biomarkers Using Functional Gold Nanoparticles,
In: Fine Particles in Medicine and Pharmacy, Matijevic E (Ed.) Springer US: Ch. 9, 241-281, (2012)
Stocchero G
Vogliardi S et al., Sample preparation methods for determination of drugs of abuse in hair samples: A review.Analytica Chimica Acta, 857, 1-27, (2015)
Stocka J
Stocka J et al., Green Aspects of Techniques for the Determination of Currently Used Pesticides in Environmental Samples.International Journal of Molecular Sciences, 12, (11), 7785-7805, (2011)
Stockenhuber M
Allender CJ et al., A glimpse of the inner workings of the templated site.Chemical Communications, (2), 165-167, (2009)
Stoddard GJ
Shea KJ et al., Fluorescence probes for the evaluation of diffusion of ionic reagents through network polymers - chemical quenching of the fluorescence emission of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.Macromolecules, 22, (11), 4303-4308, (1989)
Shea KJ et al., Fluorescence probes for evaluating chain solvation in network polymers - An analysis of the solvatochromic shift of the dansyl probe in macroporous styrene divinylbenzene and styrene diisopropenylbenzene copolymers.
Macromolecules, 22, (4), 1722-1730, (1989)
Shea KJ et al., Synthesis and characterization of highly cross-linked polyacrylamides and polymethacrylamides - a new class of macroporous polyamides.
Macromolecules, 23, (21), 4497-4507, (1990)
Stoddart JF
Philp D et al., Self-assembly in natural and unnatural systems.Angewandte Chemie International Edition, 35, (11), 1155-1196, (1996)
Stoddart PR
Seniutinas G et al., Versatile SERS sensing based on black silicon.Optics Express, 23, (5), 6763-6772, (2015)
Stoica EB
Gavrila AM et al., Molecularly Imprinted Polymer Pearls Obtained by Phase Inversion for the Selective Recognition of Hypericin.Materiale Plastice, 56, (2), 315-320, (2019)
Stoica-Guzun A
Dima SO et al., Molecularly Imprinted Bio-Membranes Based on Cellulose Nano-Fibers for Drug Release and Selective Separations.Macromolecular Symposia, 359, (1), 124-128, (2016)
Stojanovic Z
Stojanovic Z et al., Electrosynthesized molecularly imprinted polyscopoletin nanofilms for human serum albumin detection.Analytica Chimica Acta, 977, 1-9, (2017)
Stokes DL
Stokes DL et al., Demonstration of a separations-based fiberoptic sensor for bioanalysis.Analytica Chimica Acta, 399, (3), 201-212, (1999)
Stokes J
Chassaing C et al., Molecularly imprinted polymers for the determination of a pharmaceutical development compound in plasma using 96-well MISPE technology.Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 71-81, (2004)
Stokke BT
Tierney S et al., Development of an Oligonucleotide Functionalized Hydrogel Integrated on a High Resolution Interferometric Readout Platform as a Label-Free Macromolecule Sensing Device.Biomacromolecules, 10, (6), 1619-1626, (2009)
Gawel K et al., Responsive Hydrogels for Label-Free Signal Transduction within Biosensors.
Sensors, 10, (5), 4381-4409, (2010)
Storer CS
Storer CS et al., Towards Phosphate Detection in Hydroponics Using Molecularly Imprinted Polymer Sensors.Sensors, 18, (2), ArticleNo531-(2018)
Storozhenko PA
Yakhkind MI et al., Molecular imprinted polymers for macrolides, aminoglycosides and some other biosynthetic antibiotics.Antibiotiki i Khimioterapiya, 59, (7-8), 37-40, (2014)
Yakhkind MI et al., Molecularly imprinted polymers: possible use for isolation of biosynthetic antibiotics.
Russian Chemical Bulletin, 63, (5), 1049-1056, (2014)
Stortini AM
Ugo P et al., Trace Electroanalysis of Perfluorinated Alkyl Substances with Molecularly Imprinted Polymer Sensors.Proceedings, 1, (8), ArticleNo798-(2017)
Karimian N et al., Electrochemosensor for Trace Analysis of Perfluorooctanesulfonate in Water Based on a Molecularly Imprinted Poly(o-phenylenediamine) Polymer.
ACS Sensors, 3, (7), 1291-1298, (2018)
Stossova A
Vaneckova T et al., CdS quantum dots-based immunoassay combined with particle imprinted polymer technology and laser ablation ICP-MS as a versatile tool for protein detection.Scientific Reports, 9, (1), Article11840-(2019)
Stoukides M
Gkementzoglou C et al., On the Synthesis of Molecularly Imprinted Polymers for Analytical and Sensor Applications.Macromolecular Symposia, 331-332, (1), 26-33, (2013)
Stover HDH
Li K et al., New crown-ether resins prepared by cationic template polymerization.Macromolecular Chemistry And Physics, 195, (2), 391-399, (1994)
Stoyanov SD
Borovicka J et al., Shape recognition of microbial cells by colloidal cell imprints.Nanoscale, 5, (18), 8560-8568, (2013)
Borovicka J et al., Photothermal Colloid Antibodies for Shape-Selective Recognition and Killing of Microorganisms.
Journal of the American Chemical Society, 135, (14), 5282-5285, (2013)
Stradiotto NR
Wang QA et al., An Electrochemical Sensor for Reducing Sugars Based on a Glassy Carbon Electrode Modified with Electropolymerized Molecularly Imprinted Poly-o-phenylenediamine Film.Electroanalysis, 26, (7), 1612-1622, (2014)
Beluomini MA et al., D-mannitol sensor based on molecularly imprinted polymer on electrode modified with reduced graphene oxide decorated with gold nanoparticles.
Talanta, 165, 231-239, (2017)
Beluomini MA et al., Amperometric determination of myo-inositol by using a glassy carbon electrode modified with molecularly imprinted polypyrrole, reduced graphene oxide and nickel nanoparticles.
Microchimica Acta, 185, (3), ArticleNo170-(2018)
Beluomini MA et al., Electrochemical sensors based on molecularly imprinted polymer on nanostructured carbon materials: A review.
Journal of Electroanalytical Chemistry, 840, 343-366, (2019)
Beluomini MA et al., Tailor-made 3D-nanoelectrode ensembles modified with molecularly imprinted poly(o-phenylenediamine) for the sensitive detection of L-arabitol.
Sensors and Actuators B: Chemical, 284, 250-257, (2019)
Buffon E et al., Electrochemical sensor based on molecularly imprinted poly(ortho-phenylenediamine) for determination of hexahydrofarnesol in aviation biokerosene.
Sensors and Actuators B: Chemical, 287, 371-379, (2019)
Pereira TC et al., Electrochemical sensing of lactate by using an electrode modified with molecularly imprinted polymers, reduced graphene oxide and gold nanoparticles.
Microchimica Acta, 186, (12), Article764-(2019)
Buffon E et al., Spectroscopic ellipsometry studies of an electrochemically synthesized molecularly imprinted polymer for the detection of an aviation biokerosene contaminant.
Reactive and Functional Polymers, 155, Article104698-(2020)
Pompeu Prado Moreira LF et al., Electrochemical sensor based on reduced graphene oxide and molecularly imprinted poly(phenol) for d-xylose determination.
Talanta, 208, Article120379-(2020)
Buffon E et al., A molecularly imprinted polymer on reduced graphene oxide-gold nanoparticles modified screen-printed electrode for selective determination of ferulic acid in orange peels.
Microchemical Journal, 167, Article106339-(2021)
da Silva JL et al., Non-enzymatic lactose molecularly imprinted sensor based on disposable graphite paper electrode.
Analytica Chimica Acta, 1143, 53-64, (2021)
Mariano TM et al., Molecularly Imprinted Polypyrrole on Glassy Carbon Electrode Modified with Reduced Graphene Oxide and Gold Nanoparticles for Isoamyl Alcohol Analysis in Fusel Oil.
Journal of the Brazilian Chemical Society, 32, (2), 249-259, (2021)
Moreira LFPP et al., Fructose determination in fruit juices using an electrosynthesized molecularly imprinted polymer on reduced graphene oxide modified electrode.
Food Chemistry, 352, Article129430-(2021)
Falone MF et al., Molecularly imprinted electrochemical sensor for monitoring mercaptan sulfur in aviation biofuel.
Fuel, 307, Article121783-(2022)
Strallhofer AE
Strallhofer AE et al., Development of a Novel Platelets Functional Assay Using QCM.Proceedings, 1, (4), ArticleNo514-(2017)
Strandh M
Strandh M et al., Book chapter, Weak Affinity Chromatography,In: Affinity Chromatography, Bailon P, Ehrlich GK, Fung WJ, Berthold W (Eds.) 7-23, (2000)
Strano-Rossi S
Sánchez-González J et al., Development of a micro-solid-phase extraction molecularly imprinted polymer technique for synthetic cannabinoids assessment in urine followed by liquid chromatography-tandem mass spectrometry.Journal of Chromatography A, 1550, 8-20, (2018)
Sánchez-González J et al., HPLC-MS/MS combined with membrane-protected molecularly imprinted polymer micro-solid-phase extraction for synthetic cathinones monitoring in urine.
Drug Testing and Analysis, 11, (1), 33-44, (2019)
Stratis-Cullum DN
Holthoff EL et al., Proceeding, Xerogel-based molecularly imprinted polymers for explosives detection,Fountain AWI, Gardner PJ (Eds.), Art. No. 76650W, (2010)
Holthoff EL et al., A Nanosensor for TNT Detection Based on Molecularly Imprinted Polymers and Surface Enhanced Raman Scattering.
Sensors, 11, (3), 2700-2714, (2011)
Straub M
Froidevaux P et al., Ion-imprinted resin for use in an automated solid phase extraction system for determining 90Sr in environmental and human samples.Journal of Radioanalytical and Nuclear Chemistry, 330, (3), 797-804, (2021)
Strauss E
Strauss E, After the genome - IV - New ways to probe the molecules of life.Science, 282, (5393), 1406-1407, (1998)
Strazhesko DN
Galinskaya VI et al., Possible use of specifically formed silica gel for evaluating the degree of molecule structural similarity.Doklady Akademii Nauk SSSR, 210, (2), 468-471, (1973)
Stred'anska S
Pizzariello A et al., A solid binding matrix/molecularly imprinted polymer-based sensor system for the determination of clenbuterol in bovine liver using differential-pulse voltammetry.Sensors and Actuators B: Chemical, 76, (1-3), 286-294, (2001)
Stred'ansky M
Pizzariello A et al., A solid binding matrix/molecularly imprinted polymer-based sensor system for the determination of clenbuterol in bovine liver using differential-pulse voltammetry.Sensors and Actuators B: Chemical, 76, (1-3), 286-294, (2001)
Street RJ
Crapnell RD et al., Electrospun Nylon Fibers with Integrated Polypyrrole Molecularly Imprinted Polymers for the Detection of Glucose.Analytical Chemistry, 93, (39), 13235-13241, (2021)
Strelko VV
Galinskaya VI et al., Possible use of specifically formed silica gel for evaluating the degree of molecule structural similarity.Doklady Akademii Nauk SSSR, 210, (2), 468-471, (1973)
Kosmatyi ES et al., Determination of dikvat and parakvat in a mixture by method of thin-layer chromatography with use of a specific silica-gel.
Zh. Anal. Khim., 29, (1), 168-170, (1974)
Strelkova TV
Morgalyuk VP et al., Novel Template Sorbents for Separation of Americium(III) from Nitric Acid Solutions: Search of Optimal Ion-Imitator of AmIII.Helvetica Chimica Acta, 97, (12), 1644-1651, (2014)
Striegler S
Arnold FH et al., Book chapter, Chiral ligand exchange adsorbents for amines and underivatized amino acids: "bait-and-switch" molecular imprinting,In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 7, 109-118, (1998)
Striegler S, Selective discrimination of closely related monosaccharides at physiological pH by a polymeric receptor.
Tetrahedron, 57, (12), 2349-2354, (2001)
Striegler S et al., Investigation of sugar-binding sites in ternary ligand-copper(II)-carbohydrate complexes.
European Journal of Inorganic Chemistry, (2), 487-495, (2002)
Striegler S, Investigation of disaccharide recognition by molecularly imprinted polymers.
Bioseparation, 10, (6), 307-314, (2002)
Striegler S et al., Evaluation of new strategies to prepare templated polymers with sufficient oligosaccharide recognition capacity.
Analytica Chimica Acta, 484, (1), 53-62, (2003)
Striegler S, Selective carbohydrate recognition by synthetic receptors in aqueous solution.
Current Organic Chemistry, 7, (1), 81-102, (2003)
Striegler S et al., A sugar discriminating binuclear copper(II) complex.
Journal of the American Chemical Society, 125, (38), 11518-11524, (2003)
Striegler S, Carbohydrate recognition in cross-linked sugar-templated poly(acrylates).
Macromolecules, 36, (4), 1310-1317, (2003)
Striegler S, Designing selective sites in templated polymers utilizing coordinative bonds.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 183-195, (2004)
Striegler S, Discrimination of epimeric disaccharides by templated polymers.
Analytica Chimica Acta, 539, (1-2), 91-95, (2005)
Striegler S, Emulsion and Miniemulsion Polymers in Catalysis.
Mini-Reviews in Organic Chemistry, 6, (3), 234-240, (2009)
Striegler S et al., Glycoside Hydrolysis with Sugar-Templated Microgel Catalysts.
ACS Catalysis, 2, (1), 50-55, (2011)
Barnett JD et al., Tuning Templated Microgel Catalysts for Selective Glycoside Hydrolysis.
Topics In Catalysis, 55, (7), 460-465, (2012)
Sharma B et al., Biomimetic Glycoside Hydrolysis by a Microgel Templated with a Competitive Glycosidase Inhibitor.
ACS Catalysis, 8788-8795, (2018)
Sharma B et al., Modulating the Catalytic Performance of an Immobilized Catalyst with Matrix Effects - A Critical Evaluation.
ACS Catalysis, 7710-7718, (2018)
Strikovsky A
Strikovsky A et al., Catalytically active, molecularly imprinted polymers in bead form.Reactive and Functional Polymers, 54, (1-3), 49-61, (2003)
Green BS et al., Selective molecularly imprinted polymers for fluorophosphonate nerve gases: Proof of concept.
Abstracts of Papers of the American Chemical Society, 230, 623-POLY, (2005)
Strikovsky AG
Strikovsky AG et al., Catalytic molecularly imprinted polymers using conventional bulk polymerization or suspension polymerization: Selective hydrolysis of diphenyl carbonate and diphenyl carbamate.Journal of the American Chemical Society, 122, (26), 6295-6296, (2000)
Kim JM et al., Polymer catalysts by molecular imprinting: A labile covalent bonding approach.
Bulletin of the Korean Chemical Society, 22, (7), 689-692, (2001)
Green BS et al., Selective molecularly imprinted polymers for fluorophosphonate nerve gases Proof of principle.
Polymer Preprints, 46, (2), 1209-1210, (2005)
Stringer F
Martin PD et al., Comparison of normal and reversed-phase solid phase extraction methods for extraction of b-blockers from plasma using molecularly imprinted polymers.Analyst, 128, (4), 345-350, (2003)
Martin PD et al., Comparison of extraction of a b-blocker from plasma onto a molecularly imprinted polymer with liquid-liquid extraction and solid phase extraction methods.
Journal of Pharmaceutical and Biomedical Analysis, 35, (5), 1231-1239, (2004)
Stringer RC
Stringer RC et al., Proceeding, Fluorescent imprinted polymers for detection of explosive nitroaromatic compounds,Art. No. 73031R, (2009)
Stringer RC et al., Proceeding, Use of dot-labeled imprinted polymer microparticles for detection of nitroaromatic compounds,
Vo-Dinh T, Lieberman RA, Gauglitz G (Eds.), 767304-767306, (2010)
Stringer RC et al., Detection of Nitroaromatic Explosives Using a Fluorescent-Labeled Imprinted Polymer.
Analytical Chemistry, 82, (10), 4015-4019, (2010)
Stringer RC et al., Comparison of molecular imprinted particles prepared using precipitation polymerization in water and chloroform for fluorescent detection of nitroaromatics.
Analytica Chimica Acta, 703, (2), 239-244, (2011)
Stroink T
Stroink T et al., On-line sample preconcentration in capillary electrophoresis, focused on the determination of proteins and peptides.Electrophoresis, 22, (12), 2375-2383, (2001)
Strojny M
Walas S et al., Application of a metal ion-imprinted polymer based on salen-Cu complex to flow injection preconcentration and FAAS determination of copper.Talanta, 76, (1), 96-101, (2008)
Strongin RM
Schneider HJ et al., Supramolecular Interactions in Chemomechanical Polymers.Accounts of Chemical Research, 42, (10), 1489-1500, (2009)
Wang JL et al., Templated polymers enable selective capture and release of lysophosphatidic acid in human plasma via optimization of non-covalent binding to functional monomers.
Analyst, 140, (22), 7572-7577, (2015)
Struck-Lewicka W
Bujak R et al., New sorbent materials for selective extraction of cocaine and benzoylecgonine from human urine samples.Journal of Pharmaceutical and Biomedical Analysis, 120, 397-401, (2016)
Bujak R et al., Selective determination of cocaine and its metabolite benzoylecgonine in environmental samples by newly developed sorbent materials.
Talanta, 146, 401-409, (2016)
Strumia MC
Arrua RD et al., Macroporous Monolithic Polymers: Preparation and Applications.Materials, 2, 2429-2466, (2009)
Student J
Randhawa M et al., Imprinted polymers for water purification.Journal of Applied Polymer Science, 106, (5), 3321-3326, (2007)
Stuerga D
Rossignol J et al., In situ Pesticide Detection in Food Processing by Microwave Transduction Combined with Molecularly Imprinted Polymers.Procedia Engineering, 168, 550-552, (2016)
Bou-Maroun E et al., Feasibility of a microwave liquid sensor based on molecularly imprinted sol-gel polymer for the detection of iprodione fungicide.
Sensors and Actuators B: Chemical, 244, 24-30, (2017)
Sturini M
Sturini M et al., Environmental photochemistry of fluoroquinolones in soil and in aqueous soil suspensions under solar light.Environmental Science and Pollution Research, 21, (23), 13215-13221, (2014)
Speltini A et al., Newest applications of molecularly imprinted polymers for extraction of contaminants from environmental and food matrices: A review.
Analytica Chimica Acta, 974, 1-26, (2017)
Stute J
Nematollahzadeh A et al., High-Capacity Hierarchically Imprinted Polymer Beads for Protein Recognition and Capture.Angewandte Chemie International Edition, 50, (2), 495-498, (2011)
Nematollahzadeh A et al., Robust and selective nano cavities for protein separation: An interpenetrating polymer network modified hierarchically protein imprinted hydrogel.
Journal of Chromatography A, 1345, 154-163, (2014)
Schwark S et al., Monoclonal antibody capture from cell culture supernatants using epitope imprinted macroporous membranes.
RSC Advances, 6, (58), 53162-53169, (2016)
Stĺhl M
Stĺhl M et al., The synthesis of a d-amino-acid ester in an organic media with a-chymotrypsin modified by a bio-imprinting procedure.Biotechnology Letters, 12, 161-166, (1990)
Stĺhl M et al., Induced stereoselectivity and substrate selectivity of bio-imprinted a-chymotrypsin in anhydrous organic media.
Journal of the American Chemical Society, 113, (24), 9366-9368, (1991)
Stĺhl M et al., Bio-imprinting changes the stereospecificity of l-amino-acid oxidase from crotalus-adamanteus in organic-solvents.
Protein Engineering, 6, (Supplement), 51-51, (1993)
Stöcklein WFM
Dechtrirat D et al., Protein Rebinding to a Surface-Confined Imprint.Advanced Functional Materials, 22, (24), 5231-5237, (2012)
Su AX
Cui YX et al., Development of silica molecularly imprinted polymer on carbon dots as a fluorescence probe for selective and sensitive determination of cetirizine in saliva and urine.Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 264, Article120293-(2022)
Su B
Gong JL et al., Preparation and recognition property of molecularly imprinted nanofiber membranes of bisphenol A.Acta Polymerica Sinica, (11), 1266-1272, (2011)
Cui KY et al., A facile bionic strategy towards Gd (III)-imprinted membranes via interlaced stacking of one-dimensional/two-dimensional nanocomposite materials.
Journal of the Taiwan Institute of Chemical Engineers, 95, 652-659, (2019)
Su C
Han S et al., A core-shell Fe3O4 nanoparticle-CdTe quantum dot-molecularly imprinted polymer composite for recognition and separation of 4-nonylphenol.Analytical Methods, 6, (9), 2855-2861, (2014)
He HL et al., Fluorescent turn-on assay of C-type natriuretic peptide using a molecularly imprinted ratiometric fluorescent probe with high selectivity and sensitivity.
Microchimica Acta, 187, (11), Article614-(2020)
Su CC
Huang SY et al., Novel Fluorescence Sensor Based on All-Inorganic Perovskite Quantum Dots Coated with Molecularly Imprinted Polymers for Highly Selective and Sensitive Detection of Omethoate.ACS Applied Materials & Interfaces, 10, (45), 39056-39063, (2018)
Tan JA et al., Highly efficient fluorescent QDs sensor for specific detection of protein through double recognition of hybrid aptamer-molecular imprinted polymers.
Sensors and Actuators B: Chemical, 274, 627-635, (2018)
Tan L et al., Development of high-luminescence perovskite quantum dots coated with molecularly imprinted polymers for pesticide detection by slowly hydrolysing the organosilicon monomers in situ.
Sensors and Actuators B: Chemical, 291, 226-234, (2019)
Su CL
Su CL et al., A highly sensitive sensor based on a computer-designed magnetic molecularly imprinted membrane for the determination of acetaminophen.Biosensors and Bioelectronics, 148, Article111819-(2020)
Wang ZM et al., A highly sensitive and selective sensor for trace uranyl (VI) ion based on a graphene-coated carbon paste electrode modified with ion imprinted polymer.
Microchemical Journal, 155, Article104767-(2020)
Su CW
Wang N et al., Preparation of molecularly imprinted polymer for methylene blue and study on its molecular recognition mechanism.Colloid & Polymer Science, 294, (8), 1305-1314, (2016)
Su CY
Xu JQ et al., New materials in solid-phase microextraction.TrAC Trends in Analytical Chemistry, 47, 68-83, (2013)
Su DQ
Rathbone DL et al., Molecular recognition by fluorescent imprinted polymers.Tetrahedron Letters, 41, (1), 123-126, (2000)
Su F
Qi PP et al., Molecularly imprinted polymers synthesized via semi-covalent imprinting with sacrificial spacer for imprinting phenols.Polymer, 51, (23), 5417-5423, (2010)
Qi PP et al., 2, 4-Dimethylphenol imprinted polymers as a solid-phase extraction sorbent for class-selective extraction of phenolic compounds from environmental water.
Talanta, 81, (4-5), 1630-1635, (2010)
Qi PP et al., Molecularly imprinted solid-phase extraction coupled with HPLC for the selective determination of monobutyl phthalate in bottled water.
Journal of Separation Science, 34, (19), 2712-2718, (2011)
Wu X et al., Recent advances in green reagents for molecularly imprinted polymers.
RSC Advances, 8, (1), 311-327, (2018)
Su FH
Gao RX et al., Synthesis and evaluation of molecularly imprinted core-shell carbon nanotubes for the determination of triclosan in environmental water samples.Journal of Chromatography A, 1217, (52), 8095-8102, (2010)
Su H
Su H et al., Selective adsorption of surface molecular imprinted adsorbent based on mycelium.Journal of Chemical Industry and Engineering (China), 58, (6), 1473-1477, (2007)
Jiang W et al., Adsorption properties for heavy metal ions of molecular imprinting chitosan-coated diatomite beads in water-extraction liquid of Rhodiola L.
Journal of Chemical Industry and Engineering (China), 59, (5), 1179-1183, (2008)
Zhan J et al., Adsorption of Cr(III) by a membrane molecularly imprinted with Penicillium mycelium.
Journal of Beijing University of Chemical Technology (Natural Science Edition), 37, (4), 94-97, (2010)
Meng L et al., Preparation of bisphenol A molecular-imprinted materials and its recognition characteristic.
Chinese Journal of Analysis Laboratory, 33, (12), 1397-1401, (2014)
Lu ZY et al., Facile microwave synthesis of a Z-scheme imprinted ZnFe2O4/Ag/PEDOT with the specific recognition ability towards improving photocatalytic activity and selectivity for tetracycline.
Chemical Engineering Journal, 337, 228-241, (2018)
Su HH
Su HH et al., Study on Preparation and Recognition Characteristics of Nicardipine Molecularly Imprinted Polymer.Journal of Analytical Science, 28, (1), 71-74, (2012)
Su HJ
Su HJ et al., Adsorption of Ni2+ on the surface of molecularly imprinted adsorbent from Penicillium chysogenum mycelium.Biotechnology Letters, 25, (12), 949-953, (2003)
Fu ZG et al., Preparation and adsorption behavior of molecular imprinting chitosan resin on surface of mycelium.
Journal of Chemical Industry and Engineering (China), 55, (6), 958-962, (2004)
Su HJ et al., Preparation of a surface molecular-imprinted adsorbent for Ni2+ based on Penicillium chrysogenum.
Journal of Chemical Technology & Biotechnology, 80, (4), 439-444, (2005)
Su HJ et al., Double-functional characteristics of a surface molecular imprinted adsorbent with immobilization of nano-TiO2.
Journal of Chemical Technology & Biotechnology, 81, (11), 1797-1802, (2006)
Su HJ et al., Biosorption of Ni2+ by the surface molecular imprinting adsorbent.
Process Biochemistry, 41, (6), 1422-1426, (2006)
Yang Q et al., Removal of Cr3+ by the surface molecularly imprinted adsorbent by penicillium chysogenum mycelium in wastewater.
Environmental Pollution and Control, 28, (1), 14-16, 27, (2006)
Li Q et al., Application of surface molecular imprinting adsorbent in expanded bed for the adsorption of Ni2+ and adsorption model.
Journal of Environmental Management, 85, (4), 900-907, (2007)
Li Q et al., Studies of adsorption for heavy metal ions and degradation of methyl orange based on the surface of ion-imprinted adsorbent.
Process Biochemistry, 42, (3), 379-383, (2007)
Su HJ et al., Surface active site model for Ni2+ adsorption of the surface imprinted adsorbent.
Process Biochemistry, 42, (4), 612-619, (2007)
Huo HY et al., The influence of trace TiO2 on adsorption of Ag+-imprinted adsorbents made from chitosan and mycelium.
Biotechnology and Bioprocess Engineering, 13, (1), 77-83, (2008)
Li Q et al., Synthesis of ion-imprinted chitosan-TiO2 adsorbent and its multi-functional performances.
Biochemical Engineering Journal, 38, (2), 212-218, (2008)
Su HJ et al., Adsorption mechanism for imprinted ion (Ni2+) of the surface molecular imprinting adsorbent (SMIA).
Biochemical Engineering Journal, 39, (3), 503-509, (2008)
Huo HY et al., Effect of trace Ag+ adsorption on degradation of organic dye wastes.
Biochemical Engineering Journal, 43, (1), 2-7, (2009)
Huo HY et al., Adsorption of Ag+ by a surface molecular-imprinted biosorbent.
Chemical Engineering Journal, 150, (1), 139-144, (2009)
Jiang W et al., Synthesis and Properties of Surface Molecular Imprinting Adsorbent for Removal of Pb2+.
Applied Biochemistry and Biotechnology, 160, (2), 467-476, (2010)
Chen EZ et al., A novel shape-controlled synthesis of dispersed silver nanoparticles by combined bioaffinity adsorption and TiO2 photocatalysis.
Powder Technology, 212, (1), 166-172, (2011)
Chen EZ et al., Antimicrobial properties of silver nanoparticles synthesized by bioaffinity adsorption coupled with TiO2 photocatalysis.
Journal of Chemical Technology & Biotechnology, 86, (3), 421-427, (2011)
Geng LY et al., Synthesis and evaluation of molecularly imprinted polymer microspheres for Erythromycin Ethylsuccinate.
Ion Exchange and Adsorption, 27, (6), 495-501, (2011)
Geng LY et al., Preparation, characterization and adsorption performance of molecularly imprinted microspheres for erythromycin using suspension polymerization.
Journal of Chemical Technology & Biotechnology, 87, (5), 635-642, (2012)
Xiao G et al., Synthesis of core-shell bioaffinity chitosan-TiO2 composite and its environmental applications.
Journal of Hazardous Materials, 283, 888-896, (2015)
Xiao G et al., Visible-light-mediated synergistic photocatalytic antimicrobial effects and mechanism of Ag-nanoparticles@chitosan-TiO2 organic-inorganic composites for water disinfection.
Applied Catalysis B: Environmental, 170-171, 255-262, (2015)
Xiao G et al., Advances in molecularly imprinted supramolecular technology for monitoring and controlling trace environmental pollutants.
Scientia Sinica Chimica, 48, (3), 266-276, (2018)
Zhao YL et al., Self-assembled selenium nanoparticles and their application in the rapid diagnostic detection of small cell lung cancer biomarkers.
Soft Matter, 14, (4), 481-489, (2018)
Su HL
Su HH et al., Study on Preparation and Recognition Characteristics of Nicardipine Molecularly Imprinted Polymer.Journal of Analytical Science, 28, (1), 71-74, (2012)
Su HP
Peng YY et al., Recent Innovations of Molecularly Imprinted Electrochemical Sensors Based on Electropolymerization Technique.Current Analytical Chemistry, 11, (4), 307-317, (2015)
Su J
Liu ZS et al., Application of molecular imprinted monolith in drug separation.Chinese Journal of Pharmaceutical Analysis, 26, (11), 1684-1688, (2006)
Su J et al., Molecular imprinted polymer(MIP)and its application.
Journal of Shandong University of Technology (Natural Science Edition), 22, (6), 90-95, (2008)
Li F et al., A strategy of utilizing Cu2+-mediating interaction to prepare magnetic imprinted polymers for the selective detection of celastrol in traditional Chinese medicines.
Talanta, 231, Article122339-(2021)
Li F et al., Hydrophilic molecularly imprinted polymers functionalized magnetic carbon nanotubes for selective extraction of cyclic adenosine monophosphate from winter jujube.
Journal of Separation Science, 44, (10), 2131-2142, (2021)
Su JH
Su JH et al., Application of Molecular Imprinting Technique in Separation and Analysis of Pharmaceutical.Journal of Hebei Institute of Technology, 32, (3), 99-101, (2010)
Su JJ
Qian J et al., A strategy for effective recovery of salvianolic acid a from Salvia miltiorrhiza (Danshen) through multiple interactions.Composites Part B: Engineering, 231, Article109563-(2022)
Su JW
Wang HW et al., Molecularly imprinted electrochemical sensor based on Au nanoparticles in carboxylated multi-walled carbon nanotubes for sensitive determination of olaquindox in food and feedstuffs.Biosensors and Bioelectronics, 87, 417-421, (2017)
Su K
Su K et al., Selectively encapsulating Ag nanoparticles on the surface of two-dimensional graphene for surface-enhanced Raman scattering.Applied Surface Science, 492, 108-115, (2019)
Su KH
Wang YF et al., Preparation of Anti-Nonspecific Adsorption Chitosan-Based Bovine Serum Albumin Imprinted Polymers with Outstanding Adsorption Capacity and Selective Recognition Ability Based on Magnetic Microspheres.Macromolecular Materials And Engineering, 304, (4), Article1800731-(2019)
Wang YF et al., Thermo-sensitive surface molecularly imprinted magnetic microspheres based on bio-macromolecules and their specific recognition of bovine serum albumin.
Journal of Separation Science, 43, (5), 996-1002, (2020)
Su KW
Ye HP et al., Magnetic molecularly imprinted polymers for extraction of S-phenylmercapturic acid from urine samples followed by high-performance liquid chromatography.Journal of Molecular Recognition, 34, (11), Article_e2930-(2021)
Su L
Cao XW et al., Optimization of the lipase imprinting with fat acid in silane matrix.Applied Chemical Industry, 37, (7), 717-720, 724, (2008)
Su L et al., Preparation and Property of Microspheric Cu(II) Ion Imprinted Polymer.
Journal of Anqing Teachers College (Natural Science Edition), 16, (1), 81-84, (2010)
Hu YL et al., Application of Molecular Imprinting Technique in Veterinary Drug Residue Analysis.
Progress in Veterinary Medicine, 32, (1), 103-106, (2011)
Zhao Y et al., Progressive Macromolecular Self-Assembly: From Biomimetic Chemistry to Bio-Inspired Materials.
Advanced Materials, 25, (37), 5215-5256, (2013)
Su LH
Liu XY et al., Novel hybrid probe based on double recognition of aptamer-molecularly imprinted polymer grafted on upconversion nanoparticles for enrofloxacin sensing.Biosensors and Bioelectronics, 87, 203-208, (2017)
Su LJ
Hu NN et al., Enrichment and Chemiluminescence Detection of Cd2+ in a Cd2+ Imprinted Polymer Monolith Integrated in a Polydimethylsiloxane Microchip.Journal of Analytical Science, 29, (1), 1-5, (2013)
Xiao DL et al., Fluorescent nanomaterials combined with molecular imprinting polymer: synthesis, analytical applications, and challenges.
Microchimica Acta, 187, (7), Article399-(2020)
Su LM
Hou HQ et al., Recent applications of surface molecularly imprinting materials and techniques for separation and analysis.Chinese Journal of Chromatography, 34, (12), 1206-1214, (2016)
Su LM et al., Surface-imprinted magnetic nanoparticles for the selective enrichment and fast separation of fluoroquinolones in human serum.
Journal of Separation Science, 40, (10), 2269-2277, (2017)
Su LQ
Su LQ et al., The condition of special selectivity forming molecular imprint stationary phase.Journal of Qiqihar University (Natural Science Edition), 16, (4), 1-3, (2000)
Su LQ et al., Investigation of separation of caffeine and theophylline on molecular imprinted polymer stationary phases by high performance liquid chromatography.
Chemical Journal of Chinese Universities, 22, (7), 1122-1124, (2001)
Sun J et al., The synthesis of a new chiral separation functionnal monomer on molecular imprinted polymer.
Journal of Qiqihar University (Natural Science Edition), 20, (4), 1-3, (2004)
Wang ST et al., Study on preparing molecular imprinting polymer in polar solvent.
Chemical Engineer, 20, (10), 18-20, (2004)
Zhao LJ et al., Synthesis of Molecularly Imprinted Polymer Microspheres with Salicylic Acid as Template and the Study of Their Binding Characteristics.
Journal of Qiqihar University (Natural Science Edition), 21, (4), 14-16, (2005)
He DF et al., Preparation of 4-hydroxybenzoic acid imprinted polymers and recognization of its isomeric compound in aqueous media.
Journal of Qiqihar University (Natural Science Edition), 22, (1), 31-33, (2006)
Su LQ et al., Preparation and chromatographic study of salicylic acid imprinted polymers in aqueous media.
Chemistry Bulletin, 69, (3), 216-219, (2006)
Han S et al., Preparation and properties of triflumuron molecularly imprinted polymer.
Chemical Engineer, 23, (11), 4-5, 16, (2007)
Su LQ et al., Studies on the synthesis and properties of malachite green imprinted polymer.
Chinese Chemical Letters, 18, (2), 229-232, (2007)
Wang Y et al., Preparation and chromatographic study of P-Aminobenzoic acid imprinted polymers in aqueous media.
Journal of Qiqihar University (Natural Science Edition), 23, (5), 1-4, (2007)
Zhao L et al., Synthesis and properties study of heppuric acid molecularly imprinted polymer.
Chemical Engineer, 23, (10), 4-6, (2007)
Ding Y et al., Synthesis and Properties Study of 2, 2', 4, 4'Tetrahydroxybenzophenone Molecularly Imprinted Polymer.
Chemical Industry Times, 22, (10), 21-23, (2008)
He DF et al., Application study of separation of fluoroquinolone drugs imprinted polymers.
Journal of Science of Teachers' College and University, 28, (1), 65-68, (2008)
Liang YK et al., Synthesis and Poroperties Study of Vanillin Molecular Imprinted Polymer.
Chemical Industry Times, 22, (11), 28-30, (2008)
Su LQ et al., Synthesis and Characterization of 2-(Methacryloylamino) ethyoxyl-2-methacrylate Ethandiol Ester Matrix Molecular Imprinting Chiral Separation Medium.
Chinese Journal of Analytical Chemistry, 36, (12), 1732-1734, (2008)
Wu ZY et al., Preparation of molecularly imprinted polymer and their recognition for armillarisin A.
Chemical Engineer, 22, (9), 48-49, 59, (2008)
Chi DM et al., Development in the Research of the Selection Methods of Functional Monomer in Molecular Imprinting.
Chemical Industry Times, 23, (12), 55-57, (2009)
Deng XS et al., Synthesis and Properties Study of Hesperetin Molecular Imprinted Polymer.
Chemical Industry Times, 23, (4), 28-30, (2009)
Guo XJ et al., The Synthesis of Tetrabromobisphenol A Molecularly Imprinted Polymers and Investigation of Its Binding Characteristics.
Chemical Industry Times, 23, (3), 13-16, (2009)
Su LQ et al., Synthesis and evaluation of Armillarisin A -imprinted polymer on silica surface.
Chemistry Bulletin, 72, (8), 749-753, (2009)
Wang LL et al., Preparation of Molecularly Imprinted Polymer of Cyprodinil and Its Characteristics.
Chemical Industry Times, 23, (3), 47-49, (2009)
Xing ZF et al., Preparation of Molecularly Imprinted Polymer with Racemic Cefradine as Template and Study on Its Chiral Resolution.
Liaoning Chemical Industry, 38, (1), 17-20, (2009)
Yu Y et al., Study on the Preparation and Recognition Property of Molecular Imprinted Polymer of Osalmide.
Chemical Industry Times, 23, (6), 18-20, (2009)
Yu Y et al., Study on the preparation and recognition property of molecular imprinted polymer of salicylanilide.
Chemical Engineer, 23, (4), 63-(2009)
Zhai MH et al., Synthesis and Properties Study of 2, 4-Dihydroxybenzophenone Molecularly Imprinted Polymer.
Chemical Industry Times, 23, (1), 33-35, (2009)
Han Y et al., Synthesis of Boc-L-phenylalanine Imprinted Polymer via Precipitation Polymerization.
Chemical Industry Times, 24, (12), 15-7, (2010)
Ma HL et al., Preparation of Nicotinamide Molecularly Imprinted Polymer Microspheres via Precipitation Polymerization.
Chemical Industry Times, 24, (12), 18-20, (2010)
Zhang JP et al., Preparation of molecularly imprinted polymer of hippuric acid and its characteristics in the aqueous phase.
Chemical Engineer, 24, (9), 10-12, (2010)
Zhang Y et al., Selective Enrichment of Iysozyme from the Protein Samples in the Molecularly Imprinted Polymer System.
Chemical Industry Times, 24, (8), 9-11, (2010)
Zhao YF et al., Synthesis and Characterization of Molecularly Imprinted Polymer as p-aminobenzoic acid.
Chemical Industry Times, 24, (6), 5-7, (2010)
Chen CN et al., Synthesis of Molecularly Imprinted Polymer as Sulfamethazine via Precipitation Polymerization.
Chemical Industry Times, 25, (12), 9-11, (2011)
Ning ZX et al., Performance Evaluation Based on Molecularly Imprinted Polymer of BHb on Surface of Silica Graft by the Termination of Transfer Agent.
Chemical Industry Times, 25, (10), 12-14, (2011)
Su LQ et al., Study of core-Shell structural amino acids molecularly imprinted separation medium.
Chemistry Bulletin, 74, (12), 1145-1149, (2011)
Su LQ et al., Study on the preparation and characterization of sol-gel molecularly imprinted monolithic column.
Chemical Research and Application, 23, (2), 221-224, (2011)
Su LQ et al., Proceeding, Chiral Separation of Amino Acid Derivatives by Molecular Imprinting Technique,
Cao Z, Cao XQ, Sun LX, He YH (Eds.), 2545-2548, (2011)
Yu SM et al., Molecular Imprinting Polymers for Chiral Separation of N-BOC-L-Trp.
Chemical Industry Times, 25, (10), 18-20, (2011)
Qin SL et al., Simultaneous determination of five sulfonamides in wastewater using group-selective molecularly imprinted solid-phase extraction coupled with HPLC-DAD.
Analytical Methods, 4, (12), 4278-4283, (2012)
Su LQ et al., Preparation of Vanillin Molecularly Imprinted Polymeric Microspheres by Seed Swelling Suspension Polymerization.
Chemistry Bulletin, 75, (2), 176-179, (2012)
Su LQ et al., Preparation and recognition characters of the gatifloxacin molecularly imprinted polymer on silica surface.
Chemistry Bulletin, 75, (10), 908-913, (2012)
Su LQ et al., Preparation and evaluation of vanillin molecularly imprinted polymer microspheres by reversible addition-fragmentation chain transfer precipitation polymerization.
Analytical Methods, 6, (8), 2512-2517, (2014)
Qin SL et al., Rapid and selective extraction of multiple sulfonamides from aqueous samples based on Fe3O4-chitosan molecularly imprinted polymers.
Analytical Methods, 7, (20), 8704-8713, (2015)
Qin SL et al., Mixed templates molecularly imprinted solid-phase extraction for the detection of sulfonamides in fish farming water.
Journal of Applied Polymer Science, 132, (8), Article No 41491-(2015)
Su LQ et al., Controlled Preparation and Characterization of Aspirin Surface Molecularly Imprinted Separating Medium Based on Halloysite Nanotubes.
Chinese Journal of Analytical Chemistry, 43, (11), 1772-1776, (2015)
Qin SL et al., Preparation and application research of sulfonamides mixed templates molecularly imprinted polymers.
Chinese Journal of Analysis Laboratory, 35, (5), 590-595, (2016)
Su LQ et al., Determination of Atrazine in Vegetables with Extraction by a Magnetite-Chitosan Molecularly Imprinted Polymer and Gas Chromatography.
Analytical Letters, 49, (14), 2177-2192, (2016)
Zu GQ et al., Preparation and characterization of sulfadimethoxine molecularly imprinted polymer.
Chinese Journal of Analysis Laboratory, 35, (8), 936-940, (2016)
Li J et al., Molecularly imprinted solid phase extraction-high performance liquid chromatography method for the determination of ofloxacin in chicken gizzards.
Chinese Journal of Analysis Laboratory, 36, (7), 815-818, (2017)
Su LQ et al., Applications of the malachite green imprinted material prepared by RAFT radical precipitation polymerization.
Chinese Journal of Analysis Laboratory, 36, (8), 938-942, (2017)
Su LQ et al., Study on preparation and adsorption properties of magnetic-chitosan surface imprinted tetracycline.
Chinese Journal of Analysis Laboratory, 36, (9), 1071-1075, (2017)
Su LQ et al., Reversible addition fragmentation chain transfer preparation and performance evaluation of aspirin imprinted material.
Chinese Journal of Analysis Laboratory, 36, (2), 168-172, (2017)
Zhai MH et al., The preparation and application of hydrophilic molecularly imprinted solid phase extraction medium.
Chinese Journal of Analysis Laboratory, 36, (6), 681-684, (2017)
Zu GQ et al., Molecularly imprinted solid phase extraction-ultra performance liquid chromatography tandem mass spectrometry for the determination of sulfadimethoxine in pork.
Chinese Journal of Analysis Laboratory, 36, (3), 292-296, (2017)
Lv YR et al., Preparation and application of molecularly imprinted polymers of trichlorfon.
Journal of Food Safety and Quality, 9, (16), 4393-4396, (2018)
Teng Y et al., Synthesis and application of tetracycline imprinted polymer based on chitosan.
Chinese Journal of Analysis Laboratory, 37, (5), 579-583, (2018)
Han S et al., A molecularly imprinted composite based on graphene oxide for targeted drug delivery to tumor cells.
Journal of Materials Science, 54, (4), 3331-3341, (2019)
Qin SL et al., Determination of sulfamerazine in aquatic products by molecularly imprinted capillary electrochromatography.
Royal Society Open Science, 6, (6), Article190119-(2019)
Su LQ et al., Controllable Preparation and Application of Quercetin Molecularly Imprinted Polymer.
Russian Journal of Applied Chemistry, 92, (7), 972-981, (2019)
Han S et al., A two-dimensional molecularly imprinted photonic crystal sensor for highly efficient tetracycline detection.
Analytical Methods, 12, (10), 1374-1379, (2020)
Han S et al., Drug-loaded dual targeting graphene oxide-based molecularly imprinted composite and recognition of carcino-embryonic antigen.
RSC Advances, 10, (19), 10980-10988, (2020)
Su M
Ge XS et al., Trace residue analysis of dicyandiamide, cyromazine, and melamine in animal tissue foods by ultra-performance liquid chromatography.Journal of Food and Drug Analysis, 24, (3), 579-585, (2016)
Su M et al., Residue investigation of some phenylureas and tebuthiuron herbicides in vegetables by ultra-performance liquid chromatography coupled with integrated selective accelerated solvent extraction-clean up in situ.
Journal of the Science of Food and Agriculture, 98, (13), 4845-4853, (2018)
Su MX
Tian XQ et al., Preparation and chromatographic performance of phenylalanine molecularly imprinted polymers on silica gel in aqueous medium.Journal of China Pharmaceutical University, 40, (5), 435-439, (2009)
Yang QQ et al., Preparation of baicalein molecularly imprinted monolithic columns.
Chinese Journal of Pharmaceutical Analysis, 31, (1), 1-5, (2011)
Di B et al., Anionic surfactant templated chiral nanospheres and their enantioselective adsorption.
New Journal of Chemistry, 37, (5), 1603-1609, (2013)
Su MX et al., Stereoselective adsorption utilizing l-phenylalanine imprinting chiral ordered mesoporous silica.
RSC Advances, 4, (98), 54998-55002, (2014)
Su PG
Su PG et al., Fabrication, characterization and sensing properties of Cu(II) ion imprinted sol-gel thin film on QCM.Materials Chemistry and Physics, 135, (1), 130-136, (2012)
Su Q
Li ZH et al., Synthesis and characterization of a surface-grafted Pb(II)-imprinted polymer based on activated carbon for selective separation and pre-concentration of Pb(II) ions from environmental water samples.RSC Advances, 9, (9), 5110-5120, (2019)
Su QD
Zhu XL et al., Selective solid-phase extraction using molecularly imprinted polymer for the analysis of polar organophosphorus pesticides in water and soil samples.Journal of Chromatography A, 1092, (2), 161-169, (2005)
Zhu XL et al., Molecularly imprinted polymer for monocrotophos and its binding characteristics for organophosphorus pesticides.
Annali di Chimica, 95, (11-12), 877-885, (2005)
Yang J et al., A new molecularly imprinted polymer for selective extraction of cotinine from urine samples by solid-phase extraction.
Analytical and Bioanalytical Chemistry, 384, (3), 761-768, (2006)
Zhu XL et al., Molecularly imprinted polymer membranes for substance-selective solid-phase extraction from aqueous solutions.
Journal of Applied Polymer Science, 101, (6), 4468-4473, (2006)
Zhu XL et al., Films coated with molecular imprinted polymers for the selective stir bar sorption extraction of monocrotophos.
Journal of Chromatography A, 1131, (1-2), 37-44, (2006)
Zhu XL et al., Spectroscopy study of molecular recognition of a molecular imprinted monocrotophos-specific polymer.
Spectroscopy and Spectral Analysis, 26, (10), 1817-1820, (2006)
Wu PJ et al., Rapid Removal of Template from Molecularly Imprinted Polymers by Accelerated Solvent Extraction.
Chinese Journal of Analytical Chemistry, 35, (4), 484-488, (2007)
Yang J et al., Spectroscopy and XPS studies on molecular recognition of a molecularly imprinted cotinine-specific polymer.
Spectroscopy and Spectral Analysis, 27, (6), 1152-1155, (2007)
Yang J et al., Selective hair analysis of nicotine by molecular imprinted solid-phase extraction: An application for evaluating tobacco smoke exposure.
Food and Chemical Toxicology, 45, (6), 896-903, (2007)
Liang FX et al., Accelerated solvent extraction and matrix solid phase dispersion using molecularly imprinted polymer for the analysis of monocrotophos in soil.
Asian Journal of Chemistry, 20, (5), 3954-3960, (2008)
Shen ZL et al., Study on the Binding Characteristic of Methamidophos-specific Molecularly Imprinted Polymer and the Interactions between Template and Monomers.
Journal of the Chinese Chemical Society, 55, (3), 587-593, (2008)
Guo JJ et al., On-line Selective Solid-Phase Extraction of Copper with a Surface Ion Imprinted Silica Gel Sorbent.
Journal of the Chinese Chemical Society, 56, (4), 763-770, (2009)
Guo JJ et al., Ion imprinted polymer particles of neodymium: synthesis, characterization and selective recognition.
Journal of Rare Earths, 27, (1), 22-27, (2009)
Shen ZL et al., Spectroscopy Study of Binding Mechanisms and Molecular Recognition of Methamidophos-Specific Moleculary Imprinted Polymer.
Spectroscopy and Spectral Analysis, 29, (1), 78-81, (2009)
Guo JJ et al., Erbium(III)-ion imprinted silica gel sorbent: synthesis and selective solid-phase extraction.
Journal of Functional Materials, 41, (Suppl. 2), 288-291, (2010)
Tang PP et al., An Indirect Inhibitive Immunoassay for Detection of Low Concentration Sulfamethoxazole in Aqueous Solution.
Chinese Journal of Analytical Chemistry, 38, (7), 1019-1022, (2010)
Tang PP et al., Synthesis and Adsorption Study of BSA Surface Imprinted Polymer on CdS Quantum Dots.
Chinese Journal of Chemical Physics, 23, (2), 195-200, (2010)
Tang PP et al., A novel indirect inhibitive immunoassay for sulfamethoxazole.
Chinese Chemical Letters, 21, (8), 955-958, (2010)
Tang ZZ et al., Spectroscopy Study on Molecular Recognition of 1-Naphthalenamine Molecularly Imprinted Polymer.
Chinese Journal of Spectroscopy Laboratory, 27, (2), 761-765, (2010)
Shen ZL et al., Selective Solid-Phase Extraction Using Molecularly Imprinted Polymer for Analysis of Methamidophos in Water and Soil Samples.
Bioscience Biotechnology and Biochemistry, 75, (3), 473-479, (2011)
Su QL
Su QL et al., Evaluation of novel solid-phase extraction microspheres prepared by a surface imprinting technique and its application to the separation of diethylstilbestrol from chicken samples.Journal of Liquid Chromatography & Related Technologies, 34, (18), 2063-2073, (2011)
Su QL et al., Evaluation of Diazepam-Molecularly Imprinted Microspheres for the Separation of Diazepam and its Main Metabolite from Body Fluid Samples.
Journal of Chromatographic Science, 50, (7), 608-614, (2012)
Yu ZR et al., Preparation and evaluation of aconitine imprinted microspheres and its application to body fluid samples.
Journal of Applied Polymer Science, 128, (5), 3425-3431, (2013)
Su R
Zhang H et al., Internal Extractive Electrospray Ionization Mass Spectrometry for Quantitative Determination of Fluoroquinolones Captured by Magnetic Molecularly Imprinted Polymers from Raw Milk.Scientific Reports, 7, (1), ArticleNo14714-(2017)
Kou W et al., Fast quantification of fluoroquinolones in environmental water samples using molecularly imprinted polymers coupled with internal extractive electrospray ionization mass spectrometry.
RSC Advances, 8, (31), 17293-17299, (2018)
Su RN
Sun KJ et al., High selectivity and sensitivity fluorescence sensing of melamine based on the combination of a fluorescent chemosensor and molecularly imprinted polymers.RSC Advances, 5, (114), 94084-94090, (2015)
Su RR
Lv KQ et al., Application and Research Development of Molecular Imprinting in Analysis of Drug Residues in Food.Guangzhou Chemical Industry, 45, (2), 18-19, 44, (2017)
Su RX
Wang MF et al., Advances in Cross-Linked Enzyme Aggregates.Progress In Chemistry, 22, (1), 173-178, (2010)
Lan XB et al., Preparation of Molecular Imprinted Photonic Crystal Sensor and Its Application in Determination of Phthalate Esters.
Chinese Journal of Analytical Chemistry, 43, (4), 471-478, (2015)
Wang MF et al., Enhancing the Activity of Peptide-Based Artificial Hydrolase with Catalytic Ser/His/Asp Triad and Molecular Imprinting.
ACS Applied Materials & Interfaces, 8, (22), 14133-14141, (2016)
Liu MY et al., Molecularly Imprinted Core-Shell CdSe@SiO2/CDs as a Ratiometric Fluorescent Probe for 4-Nitrophenol Sensing.
Nanoscale Research Letters, 13, (1), ArticleNo27-(2018)
Zhu MJ et al., Constructing peptide-based artificial hydrolases with customized selectivity.
Journal of Materials Chemistry B, 7, (24), 3804-3810, (2019)
Su SF
Su SF et al., HPLC determination of sulfamethazine in milk using surface-imprinted silica synthesized with iniferter technique.Talanta, 76, (5), 1141-1146, (2008)
Xu WJ et al., Determination of sulfonamides in bovine milk with column-switching high performance liquid chromatography using surface imprinted silica with hydrophilic external layer as restricted access and selective extraction material.
Journal of Chromatography A, 1217, (46), 7198-7207, (2010)
Su SJ
Guo N et al., Separation of nickel and cobalt in aqueous solution by Ni2+-imprinted chitosan beads: behavior and mechanism.Desalination and Water Treatment, 58, 93-105, (2017)
Guo N et al., Preparation and properties of a novel macro porous Ni2+-imprinted chitosan foam adsorbents for adsorption of nickel ions from aqueous solution.
Carbohydrate Polymers, 165, 376-383, (2017)
Su TJ
Jiang XN et al., Preparation and properties of lincomycin A molecular imprinted polymer microspheres.Journal of Wuhan Institute of Technology, 34, (5), 16-19, (2012)
Su TT
Su TT et al., Theoretical Design and Experimental Performance Research on Barbital Imprinting Polymer.Chemical Journal of Chinese Universities-Chinese, 35, (10), 2146-2155, (2014)
Su TT et al., Theoretical Study on the Structures and Properties of Phenobarbital Imprinted Polymers.
Chinese Journal of Structural Chemistry, 33, (10), 1421-1430, (2014)
Liu JB et al., Theoretical and experimental studies on the performances of barbital-imprinted systems.
Journal of Separation Science, 38, (23), 4105-4110, (2015)
Su TT et al., Design and Properties of Barbital Imprinting System with 4-Vinylpyridine as Functional Monomer.
Polymer Materials Science and Engineering, 31, (2), 5-10, (2015)
Su WH
Huang Y et al., Removal of Typical Industrial Gaseous Pollutants: From Carbon, Zeolite, and Metal-organic Frameworks to Molecularly Imprinted Adsorbents.Aerosol and Air Quality Research, 19, (9), 2130-2150, (2019)
Su WK
Wang P et al., Molecularly imprinted poly (methacrylamide-co-methacrylic acid) composite membranes for recognition of curcumin.Analytica Chimica Acta, 615, (1), 54-62, (2008)
Su WX
Su WX et al., Selective recognition of ovalbumin using a molecularly imprinted polymer.Microchemical Journal, 92, (2), 123-128, (2009)
Su X
Liu YB et al., Enhancing the Selectivity of Enzyme Detection by Using Tailor-Made Nanoparticles.Analytical Chemistry, 85, (10), 4853-4857, (2013)
Chen SJ et al., Preparation and application of magnetic molecular imprinted polymers for extraction of cephalexin from pork and milk samples.
Journal of Chromatography A, 1602, 124-134, (2019)
Chen SJ et al., A phosphorescent probe for cephalexin consisting of mesoporous thioglycolic acid-modified Mn:ZnS quantum dots coated with a molecularly imprinted polymer.
Microchimica Acta, 187, (1), Article40-(2019)
Chen SJ et al., Preparation and characterization of magnetic molecular imprinted polymers with ionic liquid for the extraction of carbaryl in food.
Analytical and Bioanalytical Chemistry, 412, (5), 1049-1062, (2020)
Su XF
Su XF et al., Study on the preparation of lead ion imprinted polymer and its specific adsorption performance.Metallurgical Analysis, 29, (8), 16-20, (2009)
Su XG
Yan X et al., Review of optical sensors for pesticides.TrAC Trends in Analytical Chemistry, 103, 1-20, (2018)
Nie YX et al., Nitrogen-rich quantum dots-based fluorescence molecularly imprinted paper strip for p-nitroaniline detection.
Microchemical Journal, 148, 162-168, (2019)
Shah SM et al., Highly Selective Solid-Phase Extraction of Pb(II) by Ion-Imprinted Superparamagnetic Mesoporous Silica.
ChemistrySelect, 4, (1), 259-264, (2019)
Su XH
Tong LY et al., A novel lead ion-imprinted chelating nanofiber: Preparation, characterization, and performance evaluation.Journal of Applied Polymer Science, 132, (8), Article No 41507-(2015)
Su XK
Ma MM et al., Preparation and Application of Molecular Imprinting Polymer Based Zero Current Potential Sensor for Benzidine.Chinese Journal of Analytical Chemistry, 43, (7), 1021-1026, (2015)
Su XM
Han S et al., Preparation and properties of triflumuron molecularly imprinted polymer.Chemical Engineer, 23, (11), 4-5, 16, (2007)
Li XY et al., Synthesis and characterization of molecularly imprinted polymers with modified rosin as a cross-linker and selective SPE-HPLC detection of basic orange II in foods.
Analytical Methods, 6, (16), 6397-6406, (2014)
Su XM et al., Synthesis and characterization of core-shell magnetic molecularly imprinted polymers for solid-phase extraction of Rhodamine 6G.
Journal of Functional Materials, 45, (23), 23080-23085+23090, (2014)
Su XM et al., Preparation and Adsorption Performance of Core-Shell Magnetic Molecularly Imprinted Polymer Microspheres for Solid Phase Extraction and Detection of Rhodamine 6G in Foods.
Food Science, 35, (24), 9-14, (2014)
Wu ZY et al., Study of online molecularly imprinted solid phase extraction techniques in food safety analysis.
Journal of Food Safety and Quality, 5, (5), 1297-1304, (2014)
Liu M et al., Synthesis of magnetic molecularly imprinted polymers for the selective separation and determination of metronidazole in cosmetic samples.
Analytical and Bioanalytical Chemistry, 407, (13), 3875-3880, (2015)
Su XM et al., Synthesis and characterization of core-shell magnetic molecularly imprinted polymers for solid-phase extraction and determination of Rhodamine B in food.
Food Chemistry, 171, 292-297, (2015)
Su XO
Wang PL et al., Molecularly imprinted polymer solid phase extraction coupled with gas chromatography-mass spectrometry for the determination of trace clenbuterol hydrochloric in animal urine.Chinese Journal of Analytical Chemistry, 35, (9), 1319-1322, (2007)
Wang PL et al., Determination of Four Kinds of [beta]-Agonists in Swine Urine by Molecularly Imprinted Solid Phase Extraction Followed Gas Chromatography Coupled Mass Spectrometry.
Chinese Journal of Analytical Chemistry, 40, (3), 470-473, (2012)
Cheng J et al., Simultaneous Identification and Quantification of 20 [beta]-Receptor Agonists in Feed Using Gas Chromatography-Tandem Mass Spectrometry.
PLoS ONE, 8, (10), e76400-(2013)
Wang PL et al., Synthesis of ractopamine molecularly imprinted membrane and its application in the rapid determination of three [beta]-agonists in porcine urine samples.
Journal of Separation Science, 36, (8), 1455-1462, (2013)
Wang PL et al., Determination of [beta]2-Agonists in Porcine Urine by Molecularly Imprinted Solid Phase Extraction Followed Ultra-Performance Liquid Chromatography-Tandem Mass Spectrometry Detection.
Analytical Letters, 46, (5), 734-744, (2013)
Wang PL et al., Sensitive detection of [beta]-agonists in pork tissue with novel molecularly imprinted polymer extraction followed liquid chromatography coupled tandem mass spectrometry detection.
Food Chemistry, 184, 72-79, (2015)
Wang PL et al., Advancements of molecularly imprinted polymers in the food safety field.
Analyst, 141, (12), 3540-3553, (2016)
Wang PL et al., An aptamer based assay for the [beta]-adrenergic agonist ractopamine based on aggregation of gold nanoparticles in combination with a molecularly imprinted polymer.
Microchimica Acta, 183, (11), 2899-2905, (2016)
Zhang CY et al., Molecularly Imprinting Polymer Electrochemical Sensor Based on Structure of Metal Organic Frameworks for Determination of Phenylethanolamine A in Swine Urine.
Chinese Journal of Analytical Chemistry, 44, (12), 1859-1866, (2016)
Zhang W et al., Current advancement in analysis of [beta]-agonists.
TrAC Trends in Analytical Chemistry, 85, (Part C), 1-16, (2016)
Suo DC et al., Pseudo template molecularly imprinted polymer for determination of 14 kind of [beta]-agonists in animal urine by ultra-high-performance liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1526, 23-30, (2017)
Su XQ
Gao RX et al., Preparation and characterisation of core-shell CNTs@MIPs nanocomposites and selective removal of estrone from water samples.Talanta, 83, (3), 757-764, (2011)
Su XR
Wang D et al., Simultaneous electrochemical immunoassay using graphene-Au grafted recombinant apoferritin-encoded metallic labels as signal tags and dual-template magnetic molecular imprinted polymer as capture probes.Biosensors and Bioelectronics, 65, 78-82, (2015)
Su XS
Zeng SM et al., Molecularly imprinted polymer for selective extraction and simultaneous determination of four tropane alkaloids from Przewalskia tangutica Maxim. fruit extracts using LC-MS/MS.RSC Advances, 5, (115), 94997-95006, (2015)
Zeng SM et al., Analysis of Four Tropane Alkaloids in Przewalskia Tangutica Maxim.by Analogous-specific Molecularly Imprinted Solid-phase Extraction Combined with High Performance Liquid Chromatography.
Journal of Instrumental Analysis, 35, (4), 373-379, (2016)
Su XX
Luan CL et al., Progress of molecularly imprinted electrochemical sensor.Chemical Industry and Engineering Progress, 30, (2), 353-358, 370, (2011)
Wei SL et al., Study and Application of Acid Orange II Sensor Based on Molecularly Imprinted Electropolymerized Membrane.
Journal of Instrumental Analysis, 33, (6), 683-687, (2014)
Su XY
Ou JJ et al., Determination of dl-tetrahydropalmatine in Corydalis yanhusuo by l-tetrahydropalmatine imprinted monolithic column coupling with reversed-phase high performance liquid chromatography.Journal of Chromatography A, 1117, (2), 163-169, (2006)
Su Y
Liang RN et al., Determination of hydroxylated polychlorinated biphenyls by offline solid-phase extraction-liquid chromatography-tandem mass spectrometry using a molecularly imprinted polymer as a sorbent for sample preconcentration.Talanta, 144, 115-121, (2015)
Lin ZK et al., Selective extraction of bisphenol A from water by one-monomer molecularly imprinted magnetic nanoparticles.
Journal of Separation Science, 41, (9), 2029-2036, (2018)
Su YD
Lee KH et al., Proceeding, 2-dimensional SPR detection system integrated with molecular imprinting polymer microarrays using microfluidic technology,430-433, (2006)
Su YJ
He LM et al., Novel cyromazine imprinted polymer applied to the solid-phase extraction of melamine from feed and milk samples.Journal of Chromatography A, 1216, (34), 6196-6203, (2009)
Zhang QJ et al., Molecularly imprinted solid-phase extraction for the selective HPLC determination of ractopamine in pig urine.
Journal of Separation Science, 34, (23), 3399-3409, (2011)
Wang LQ et al., Matrix Effects in Analysis of [beta]-Agonists with LC-MS/MS: Influence of Analyte Concentration, Sample Source, and SPE Type.
Journal of Agricultural and Food Chemistry, 60, (25), 6359-6363, (2012)
He QQ et al., Simultaneous determination of quinoxaline-1, 4-dioxides in feeds using molecularly imprinted solid-phase extraction coupled with HPLC.
Journal of Separation Science, 36, (2), 301-310, (2013)
Song XQ et al., Determination of macrolide antibiotics residues in pork using molecularly imprinted dispersive solid-phase extraction coupled with LC-MS/MS.
Journal of Separation Science, 41, (5), 1138-1148, (2018)
Su YJ et al., Separation of bovine hemoglobin using novel magnetic molecular imprinted nanoparticles.
RSC Advances, 8, (11), 6192-6199, (2018)
Song XQ et al., Preparation and Application of Molecularly Imprinted Monolithic Extraction Column for the Selective Microextraction of Multiple Macrolide Antibiotics from Animal Muscles.
Polymers, 11, (7), ArticleNo1109-(2019)
Zhou H et al., Preparation of surface molecularly imprinted polymer and its application for the selective extraction of teicoplanin from water.
RSC Advances, 11, (22), 13615-13623, (2021)
Su YK
Lin CF et al., Proceeding, A CMOS-Compatible Biological Transducer for Creatinine Detection: MIP-Gate ISFET,525-528, (2009)
Su YQ
He LM et al., Solid-phase extraction of melamine from aqueous samples using water-compatible molecularly imprinted polymers.Journal of Separation Science, 32, (19), 3310-3318, (2009)
Su YY
Deng DL et al., Monolithic molecular imprinted polymer fiber for recognition and solid phase microextraction of ephedrine and pseudoephedrine in biological samples prior to capillary electrophoresis analysis.Journal of Chromatography A, 1219, (1), 195-200, (2012)
Su ZC
Wang HY et al., H2O2 self-supplying degradable epitope imprinted polymers for targeted fluorescence imaging and chemodynamic therapy.Nanoscale, 13, (29), 12553-12564, (2021)
Su ZG
Zhang CL et al., Synthesis of molecularly imprinted polymer for Rifampicin and its adsorption.The Chinese Journal of Process Engineering, 9, (3), 608-612, (2009)
Zhou YM et al., Molecular imprinting-flow injection chemiluminescence method for determination of doxycycline hydrochloride.
Spectroscopy and Spectral Analysis, 29, (7), 1745-1749, (2009)
Geng LY et al., Synthesis and evaluation of molecularly imprinted polymer microspheres for Erythromycin Ethylsuccinate.
Ion Exchange and Adsorption, 27, (6), 495-501, (2011)
Kou X et al., Preparation of molecularly imprinted nanoparticles for erythromycin and their adsorption characteristics.
The Chinese Journal of Process Engineering, 11, (3), 481-486, (2011)
Geng LY et al., Preparation, characterization and adsorption performance of molecularly imprinted microspheres for erythromycin using suspension polymerization.
Journal of Chemical Technology & Biotechnology, 87, (5), 635-642, (2012)
Kou X et al., Synthesis, Characterization and Adsorption Behavior of Molecularly Imprinted Nanospheres for Erythromycin Using Precipitation Polymerization.
Journal of Nanoscience and Nanotechnology, 12, (9), 7388-7394, (2012)
Kou X et al., Preparation of molecularly imprinted nanospheres by premix membrane emulsification technique.
Journal of Membrane Science, 417-418, 87-95, (2012)
Yun YB et al., Synthesis and Adsorption Performance of Molecularly Imprinted Microspheres for Quercetin by Suspension Polymerization.
Pharmaceutica Analytica Acta, 3, (3), Art.No. 151-(2012)
Su ZH
Li JM et al., Preparation and evaluation of a novel molecularly imprinted SPE monolithic capillary column for the determination of auramine O in shrimp.Journal of Separation Science, 36, (21-22), 3608-3614, (2013)
Su ZH et al., Molecularly imprinted solid-phase extraction monolithic capillary column for selective extraction and sensitive determination of safranine T in wolfberry.
Analytical and Bioanalytical Chemistry, 406, (5), 1551-1556, (2014)
Zhai HY et al., A glass/PDMS electrophoresis microchip embedded with molecular imprinting SPE monolith for contactless conductivity detection.
Microchemical Journal, 114, 223-228, (2014)
Yuan KS et al., Sensitive determination of rose bengal in brown sugar by a molecularly imprinted solid-phase extraction monolithic capillary column coupled with capillary electrophoresis.
Analytical Methods, 7, (19), 8297-8303, (2015)
Zhai HY et al., Molecularly imprinted coated graphene oxide solid-phase extraction monolithic capillary column for selective extraction and sensitive determination of phloxine B in coffee bean.
Analytica Chimica Acta, 865, 16-21, (2015)
Huang L et al., Chip-based dual-molecularly imprinted monolithic capillary array columns coated Ag/GO for selective extraction and simultaneous determination of bisphenol A and nonyl phenol in fish samples.
Journal of Chromatography A, 1474, 14-22, (2016)
Zhai HY et al., Chip-based molecularly imprinted monolithic capillary array columns coated GO/SiO2 for selective extraction and sensitive determination of rhodamine B in chili powder.
Food Chemistry, 214, 664-669, (2017)
Su ZL
Lee MH et al., Doping of transition metal dichalcogenides in molecularly imprinted conductive polymers for the ultrasensitive determination of 17[beta]-estradiol in eel serum.Biosensors and Bioelectronics, 150, Article111901-(2020)
Lee MH et al., Epitope imprinting of alpha-synuclein for sensing in Parkinson's brain organoid culture medium.
Biosensors and Bioelectronics, 175, Article112852-(2021)
Lee MH et al., Transition metal dichalcogenides to optimize the performance of peptide-imprinted conductive polymers as electrochemical sensors.
Microchimica Acta, 188, (6), Article203-(2021)
Su ZP
Lyu HX et al., Preparation of ionic liquid mediated molecularly imprinted polymer and specific recognition for bisphenol A from aqueous solution.Microchemical Journal, 158, Article105293-(2020)
Liu Y et al., Molecularly imprinted polymer with mixed-mode mechanism for selective extraction and on-line detection of ochratoxin A in beer sample.
Microchemical Journal, 170, Article106696-(2021)
Su ZQ
Luo K et al., A sensitive and visual molecularly imprinted fluorescent sensor incorporating CaF2 quantum dots and [beta]-cyclodextrins for 5-hydroxymethylfurfural detection.Analytica Chimica Acta, 1124, 113-120, (2020)
Su ZY
Guo XX et al., Multi-functional magnetic molecular imprinting probe for visual detection of IgY antibodies.Microchimica Acta, 188, (11), Article378-(2021)
Su ZZ
Cao ZY et al., Study on contribution of main components in Guizhi Fuling capsule based on molecular imprinting technique and activity screening.China Journal of Chinese Materia Medica, 40, (12), 2420-2427, (2015)
Suah FBM
Suah FBM et al., Proceeding, Preliminary study towards the fabrication of the nanoscale optical pH sensor with tailored pKa value by using molecularly imprinting technique,Ghodgaonkar DK, Ahmad M, Heng LY, Habash RW, Wui WT, Taib MN (Eds.), 61-63, (2005)
Yusof NF et al., Ion-imprinted polymer-based on picolinic acid as a co-functional monomer for highly selective sorption of Cu(II) ions in an aqueous solution.
AIP Conference Proceedings, 1885, (1), ArticleNo020017-(2017)
Mehamod FS et al., Pyrogallol-imprinted polymers with methyl methacrylate via precipitation polymerization.
AIP Conference Proceedings, 1972, (1), ArticleNo020003-(2018)
Yusof NF et al., Characteristics of adsorption isotherm and kinetic study for newly prepared Co2+-imprinted polymer linkage with dipicolinic acid.
IOP Conference Series: Materials Science and Engineering, 440, ArticleNo.012005-(2018)
Suares D
Prabhu P et al., Book chapter, Recent progress on nanofabrication of molecularly imprinted polymers,In: Emerging Applications of Nanoparticles and Architecture Nanostructures, Barhoum A, Makhlouf ASH (Eds.) Elsevier: Ch. 13, 385-409, (2018)
Subat M
Subat M et al., Synthetic creatinine receptor: Imprinting of a Lewis acidic zinc(II)cyclen binding site to shape its molecular recognition selectivity.Journal of the American Chemical Society, 126, (10), 3185-3190, (2004)
Subbaraman L
Phan CM et al., Contact lenses for antifungal ocular drug delivery: a review.Expert Opinion on Drug Delivery, 11, (4), 537-546, (2014)
Subbiahraj S
Regasa MB et al., Novel multifunctional molecular recognition elements based on molecularly imprinted poly (aniline-co-itaconic acid) composite thin film for melamine electrochemical detection.Sensing and Bio-Sensing Research, 27, Article100318-(2020)
Subedi P
Chen J et al., Low-bias phosphopeptide enrichment from scarce samples using plastic antibodies.Scientific Reports, 5, ArticleNo11438-(2015)
Chen J et al., Validation of molecularly imprinted polymers for side chain selective phosphopeptide enrichment.
Journal of Chromatography A, 1471, 45-50, (2016)
Duarte M et al., Molecularly imprinted polymers synthesized via template immobilization on fumed silica nanoparticles for the enrichment of phosphopeptides.
Journal of Molecular Recognition, 31, (3), ArticleNoe2677-(2018)
Subrahmanyam S
Subrahmanyam S et al., Bite-and-switch approach to creatine recognition by use of molecularly imprinted polymers.Advanced Materials, 12, (10), 722-724, (2000)
Piletska EV et al., A new reactive polymer suitable for covalent immobilisation and monitoring of primary amines.
Polymer, 42, (8), 3603-3608, (2001)
Piletsky SA et al., Application of molecularly imprinted polymers in sensors for the environment and biotechnology.
Sensor Review, 21, (4), 292-296, (2001)
Subrahmanyam S et al., Bite-and-switch approach using computationally designed molecularly imprinted polymers for sensing of creatinine.
Biosensors and Bioelectronics, 16, (9-12), 631-637, (2001)
Lakshmi D et al., Electrochemical Sensor for Catechol and Dopamine Based on a Catalytic Molecularly Imprinted Polymer-Conducting Polymer Hybrid Recognition Element.
Analytical Chemistry, 81, (9), 3576-3584, (2009)
Subrahmanyam S et al., Book chapter, Computational Design of Molecularly Imprinted Polymers,
In: Combinatorial Methods for Chemical and Biological Sensors, Potyrailo RA, Mirsky VM (Eds.) Springer: New York, Ch. 6, 135-172, (2009)
Des Azevedo S et al., Molecularly Imprinted Polymer-Hybrid Electrochemical Sensor for the Detection of [beta]-Estradiol.
Industrial & Engineering Chemistry Research, 52, (39), 13917-13923, (2013)
Subrahmanyam S et al., Optimization of experimental conditions for synthesis of high affinity MIP nanoparticles.
European Polymer Journal, 49, 100-105, (2013)
Subrahmanyam S et al., Book chapter, Computational Approaches in the Design of Synthetic Receptors,
In: Designing Receptors for the Next Generation of Biosensors, Piletsky SA, Whitcombe MJ (Eds.) Springer: Berlin, Heidelberg, 131-165, (2013)
Suda N
Suda N et al., Oriented, molecularly imprinted cavities with dual binding sites for highly sensitive and selective recognition of cortisol.Royal Society Open Science, 4, (8), ArticleNo170300-(2017)
Sudhakar PP
Kushwaha S et al., Noncovalent surface grafting of uranium complexed cucurbit[5]uril oligomer onto palm shell powder: a novel approach for selective uranyl ion extraction.Analyst, 137, (14), 3242-3245, (2012)
Suedee R
Suedee R et al., Thin-layer chromatography using synthetic polymers imprinted with quinine as chiral stationary phase.Jpc-Journal Of Planar Chromatography-Modern Tlc, 11, 272-276, (1998)
Suedee R et al., Direct enantioseparation of adrenergic drugs via thin-layer chromatography using molecularly imprinted polymers.
Journal of Pharmaceutical and Biomedical Analysis, 19, (3), 519-527, (1999)
Suedee R et al., Chiral determination of various adrenergic drugs by thin-layer chromatography using molecularly imprinted chiral stationary phases prepared with a-agonists.
Analyst, 124, (7), 1003-1009, (1999)
Suedee R et al., Evaluation of matrices containing molecularly imprinted polymers in the enantioselective-controlled delivery of b-blockers.
Journal of Controlled Release, 66, (2-3), 135-147, (2000)
Suedee R et al., Thin-layer chromatographic separation of chiral drugs on molecularly imprinted chiral stationary phases.
Jpc-Journal Of Planar Chromatography-Modern Tlc, 14, (3), 194-198, (2001)
Suedee R et al., Enantioselective release of controlled delivery granules based on molecularly imprinted polymers.
Drug Delivery, 9, (1), 19-30, (2002)
Suedee R et al., Stereoselective release behaviors of imprinted bead matrices.
Drug Development and Industrial Pharmacy, 28, (5), 545-554, (2002)
Suedee R et al., Development of trichloroacetic acid sensor based on molecularly imprinted polymer membrane for the screening of complex mixture of haloacetic acids in drinking water.
Analytica Chimica Acta, 504, (1), 89-100, (2004)
Suedee R et al., Use of molecularly imprinted polymers from a mixture of tetracycline and its degradation products to produce affinity membranes for the removal of tetracycline from water.
Journal of Chromatography B, 811, (2), 191-200, (2004)
Bodhibukkana C et al., Composite membrane of bacterially-derived cellulose and molecularly imprinted polymer for use as a transdermal enantioselective controlled-release system of racemic propranolol.
Journal of Controlled Release, 113, (1), 43-56, (2006)
Suedee R et al., Molecularly imprinted polymer-modified electrode for on-line conductometric monitoring of haloacetic acids in chlorinated water.
Analytica Chimica Acta, 569, (1-2), 66-75, (2006)
Suedee R et al., Temperature sensitive dopamine-imprinted (N, N-methylene-bis-acrylamide cross-linked) polymer and its potential application to the selective extraction of adrenergic drugs from urine.
Journal of Chromatography A, 1114, (2), 239-249, (2006)
Suedee R et al., The use of trichloroacetic acid imprinted polymer coated quartz crystal microbalance as a screening method for determination of haloacetic acids in drinking water.
Talanta, 70, (1), 194-201, (2006)
Suedee R et al., Trichloroacetic acid-imprinted polypyrrole film and its property in piezoelectric quartz crystal microbalance and electrochemical sensors to application for determination of haloacetic acids disinfection by-product in drinking water.
Journal of Applied Polymer Science, 106, (6), 3861-3871, (2007)
Jantarat C et al., S-Propranolol imprinted polymer nanoparticle-on-microsphere composite porous cellulose membrane for the enantioselectively controlled delivery of racemic propranolol.
International Journal of Pharmaceutics, 349, (1-2), 212-225, (2008)
Suedee R et al., Development of a reservoir-type transdermal enantioselective-controlled delivery system for racemic propranolol using a molecularly imprinted polymer composite membrane.
Journal of Controlled Release, 129, (3), 170-178, (2008)
Suedee R et al., Recognition Properties and Competitive Assays of a Dual Dopamine/Serotonin Selective Molecularly Imprinted Polymer.
International Journal of Molecular Sciences, 9, (12), 2333-2356, (2008)
Suedee R et al., Development of a pH-responsive drug delivery system for enantioselective-controlled delivery of racemic drugs.
Journal of Controlled Release, 142, (1), 122-131, (2010)
Sontimuang C et al., Interdigitated capacitive biosensor based on molecularly imprinted polymer for rapid detection of Hev b1 latex allergen.
Analytical Biochemistry, 410, (2), 224-233, (2011)
Sontimuang C et al., Proceeding, Development of a Rubber Elongation Factor Surface-Quartz Crystal Microbalance Sensor for Determination of Natural Rubber Latex Allergens in Glove Samples,
26-29, (2011)
Sontimuang C et al., Proceeding, Development of Interdigitated Capacitance Electrodes Based on Rubber Elongation Factor-Imprinted Polymer for Determination of Rubber Elongation Factor Proteins in Rubber Latex Gloves,
53-56, (2011)
Sontimuang C et al., Development of a rubber elongation factor, surface-imprinted polymer-quartz crystal microbalance sensor, for quantitative determination of Hev b1 rubber latex allergens present in natural rubber latex products.
Analytica Chimica Acta, 687, (2), 184-192, (2011)
Seechamnanturakit V et al., The Synthesis and Characterisation of Retinol-molecularly Imprinted Polymers as a Selective Sorbent in Solid-phase Extraction.
International Journal of Applied Science and Technology, 2, (7), 81-93, (2012)
Suedee R, Novel Strategic Innovations for Designing Drug Delivery System Using Molecularly Imprinted Micro/Nanobeads.
International Journal of Pharmaceutical Sciences Review and Research, 20, (2), 235-268, (2013)
Suedee R, The Use of Molecularly Imprinted Polymers for Dermal Drug Delivery.
Pharmaceutica Analytica Acta, 4, (8), Art No. 264-(2013)
Jaiswal L et al., A thalidomide templated molecularly imprinted polymer that promotes a biologically active chiral entity tagged in colon carcinoma cells and protein-related immune activation.
Process Biochemistry, 50, (12), 2035-2050, (2015)
Naklua W et al., An imprinted dopamine receptor for discovery of highly potent and selective D3 analogues with neuroprotective effects.
Process Biochemistry, 50, (10), 1537-1556, (2015)
Suedee R et al., Investigation of a self-assembling microgel containing an (S)-propranolol molecularly imprinted polymer in a native tissue microenvironment: Part II. Biological application and testing.
Process Biochemistry, 50, (4), 523-544, (2015)
Suedee R et al., Investigation of a self-assembling microgel containing an (S)-propranolol molecularly imprinted polymer in a native tissue microenvironment: Part I. Preparation and characterization.
Process Biochemistry, 50, (4), 517-522, (2015)
Suksuwan A et al., The composite nanomaterials containing (R)-thalidomide-molecularly imprinted polymers as a recognition system for enantioselective-controlled release and targeted drug delivery.
Journal of Applied Polymer Science, 132, (18), Article No 41930-(2015)
Suksuwan A et al., Tracking the chemical surface properties of racemic thalidomide and its enantiomers using a biomimetic functional surface on a quartz crystal microbalance.
Journal of Applied Polymer Science, 132, (30), ArticleNo42309-(2015)
Chunta S et al., Low-Density Lipoprotein Sensor Based on Molecularly Imprinted Polymer.
Analytical Chemistry, 88, (2), 1419-1425, (2016)
Naklua W et al., Dopaminergic receptor-ligand binding assays based on molecularly imprinted polymers on quartz crystal microbalance sensors.
Biosensors and Bioelectronics, 81, 117-124, (2016)
Chunta S et al., Sensor Array Based on Molecularly Imprinted Polymers for Simultaneous Detection of Lipoproteins.
Proceedings, 1, (4), ArticleNo510-(2017)
Paul PK et al., Improvement in insulin absorption into gastrointestinal epithelial cells by using molecularly imprinted polymer nanoparticles: Microscopic evaluation and ultrastructure.
International Journal of Pharmaceutics, 530, (1-2), 279-290, (2017)
Paul PK et al., Biomimetic insulin-imprinted polymer nanoparticles as a potential oral drug delivery system.
Acta Pharmaceutica, 67, 149-168, (2017)
Suedee R et al., A Rapid and Effective Screening of Chiral Drug Delivery within the Effect of Vascular Environmentby Molecularly Imprinted Polymers.
International Journal of Applied Science and Technology, 7, (3), 19-31, (2017)
Chunta S et al., High-density lipoprotein sensor based on molecularly imprinted polymer.
Analytical and Bioanalytical Chemistry, 410, (3), 875-883, (2018)
Madhumanchi S et al., Efficient adsorptive extraction materials by surface protein-imprinted polymer over silica gel for selective recognition/separation of human serum albumin from urine.
Journal of Applied Polymer Science, 136, (1), Article46894-(2018)
Chunta S et al., Sensing array based on molecularly imprinted polymers for simultaneous assessment of lipoproteins.
Sensors and Actuators B: Chemical, 298, Article126828-(2019)
Jadda R et al., Novel adsorptive materials by adenosine 5'-triphosphate imprinted-polymer over the surface of polystyrene nanospheres for selective separation of adenosine 5'-triphosphate biomarker from urine.
Journal of Separation Science, 42, (24), 3662-3678, (2019)
Chunta S et al., Biomimetic sensors targeting oxidized-low-density lipoprotein with molecularly imprinted polymers.
Analytica Chimica Acta, 1116, 27-35, (2020)
Sueyoshi K
Kubo T et al., Effective determination of a pharmaceutical, sulpiride, in river water by online SPE-LC-MS using a molecularly imprinted polymer as a preconcentration medium.Journal of Pharmaceutical and Biomedical Analysis, 89, 111-117, (2014)
Sueyoshi Y
Sueyoshi Y et al., Molecularly imprinted nanofiber membranes from cellulose acetate aimed for chiral separation.Journal of Membrane Science, 357, (1-2), 90-97, (2010)
Sueyoshi Y et al., Chiral separation with molecularly imprinted polysulfone-aldehyde derivatized nanofiber membranes.
Journal of Membrane Science, 401-402, (1), 89-96, (2012)
Suga Y
Suga Y et al., Molecularly imprinted polymers prepared using protein-conjugated cleavable monomers followed by site-specific post-imprinting introduction of fluorescent reporter molecules.Chemical Communications, 49, (76), 8450-8452, (2013)
Sugai T
Fujii Y et al., Preparation of palladium(II) and copper(II) selective chelating resin bearing 2-acetylphenol ligand.Chemistry Letters, 21, (6), 995-998, (1992)
Sugimoto A
Haginaka J et al., Uniformly-sized, molecularly imprinted polymers for (-)-epigallocatechin gallate, -epicatechin gallate and -gallocatechin gallate by multi-step swelling and polymerization method.Journal of Chromatography A, 1156, (1-2), 45-50, (2007)
Sugimoto N
Matsui J et al., Biomimetic Chip Prepared by Linear Polymer-based Molecular Imprinting.Nippon Kagakkai Koen Yokoshu, 80, 237-(2001)
Matsui J et al., Molecular imprinting in alcohols: utility of a pre-polymer based strategy for synthesizing stereoselective artificial receptor polymers in hydrophilic media.
Analytica Chimica Acta, 466, (1), 11-15, (2002)
Matsui J et al., Solid-phase molecular imprinting utilizing poly(methacrylic acid)-modified resins.
Nippon Kagakkai Koen Yokoshu, 82, 273-(2002)
Nishimoto K et al., New Central Dogma in Molecular Ecology. (23): Thermodynamic assessment of molecularly imprinted polymers prepared by cross-linking poly(methacrylic acid) derivatives.
Nippon Kagakkai Koen Yokoshu, 81, (2), 864-(2002)
Ochi Y et al., New Central Dogma in Molecular Ecology. (22): Molecular imprinting utilizing water-soluble poly(methacrylic acid) derivatives for recognition of biologically active compounds.
Nippon Kagakkai Koen Yokoshu, 81, (2), 864-(2002)
Matsui J et al., Synthetic cinchonidine receptors obtained by cross-linking linear poly(methacrylic acid) derivatives as an alternative molecular imprinting technique.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 223-229, (2004)
Matsui J et al., Composite of Au nanoparticles and molecularly imprinted polymer as a sensing material.
Analytical Chemistry, 76, (5), 1310-1315, (2004)
Matsui J et al., SPR sensor chip for detection of small molecules using molecularly imprinted polymer with embedded gold nanoparticles.
Analytical Chemistry, 77, (13), 4282-4285, (2005)
Matsui J et al., Molecular Imprinting within a Single Peptide Molecule for Synthesizing a Water-Soluble ATP Receptor.
Pept. Sci., 396-397, (2006)
Matsui J et al., Development of a tailor-made functional peptide by template-directed intramolecular cross-linking.
Polymer Preprints, Japan, 55, (2), 5328-5329, (2006)
Matsui J et al., Molecularly-imprinted polymeric logic gates selective for predetermined chemical input species.
Chemical Communications, (30), 3217-3219, (2006)
Matsui J et al., Molecular Imprinting under Molecular Crowding Conditions: An Aid to the Synthesis of a High-Capacity Polymeric Sorbent for Triazine Herbicides.
Analytical Chemistry, 79, (4), 1749-1757, (2007)
Matsui J et al., An approach to peptide-based ATP receptors by a combination of random selection, rational design, and molecular imprinting.
Biosensors and Bioelectronics, 25, (3), 563-567, (2009)
Matsui J et al., Molecularly imprinted nanocomposites for highly sensitive SPR detection of a non-aqueous atrazine sample.
Analyst, 134, (1), 80-86, (2009)
Sugimoto T
Takagishi T et al., Thermodynamics of binding of methyl-orange by crosslinked vinylpyrrolidone-divinylbenzene copolymers - template effect.Journal of Polymer Science, Polymer Chemistry Edition, 22, (12), 4035-4039, (1984)
Takagishi T et al., Binding of methyl-orange by crosslinked vinylpyrrolidone-divinylbenzene copolymers - template effect.
Journal of Polymer Science, Polymer Letters Edition, 22, (5), 283-289, (1984)
Sugimura Y
Mine Y et al., Enhanced enzyme activity and enantioselectivity of lipases in organic solvents by crown ethers and cyclodextrins.Journal of Bioscience and Bioengineering, 95, (5), 441-447, (2003)
Mine Y et al., Structural effects of amphiphiles on Candida rugosa lipase activation by freeze-drying of aqueous solution of enzyme and amphiphile.
Journal of Bioscience and Bioengineering, 96, (6), 525-528, (2003)
Sugiyama S
Kobayashi T et al., Selective Removal of Bisphenol A From Serum Using Molecular Imprinted Polymer Membranes.Therapeutic Apheresis and Dialysis, 13, (1), 19-26, (2009)
Sugo T
Uezu K et al., Metal ion-imprinted polymer prepared by the combination of surface template polymerization with postirradiation by g-rays.Macromolecules, 30, (13), 3888-3891, (1997)
Suharso
Buhani et al., Adsorption kinetics and isotherm of Cd(II) ion on Nannochloropsis sp biomass imprinted ionic polymer.Desalination, 259, (1-3), 140-146, (2010)
Buhani et al., Production of Ionic Imprinted Polymer from Nannochloropsis sp Biomass and its Adsorption Characteristics Toward Cu(II) Ion in Solutions.
Asian Journal of Chemistry, 24, (1), 133-140, (2012)
Buhani et al., Comparative Study of Adsorption Ability of Ni(II) and Zn(II) Ionic Imprinted Amino-Silica Hybrid Toward Target Metal in Solution.
Asian Journal of Chemistry, 25, (5), 2875-2880, (2013)
Buhani et al., Adsorption competition of Cu(II) ion in ionic pair and multi-metal solution by ionic imprinted amino-silica hybrid adsorbent.
Desalination and Water Treatment, 55, (5), 1240-1252, (2015)
Suherman M
Suherman M et al., Performance Evaluation of Molecularly Imprinted Polymer using Propanol as Porogen for Atenolol Recognition in Human Serum.Indonesian Journal of Pharmaceutical Science and Technology, 6, (1), 27-35, (2019)
Sui C
Magennis EP et al., Bacteria-instructed synthesis of polymers for self-selective microbial binding and labelling.Nature Materials, 13, (7), 748-755, (2014)
Sui DP
Fan HT et al., Ion imprinted polymer and its application in the analytical chemistry.Chemistry Bulletin, 72, (1), 10-14, (2009)
Dong J et al., Preparation and characterization of p-chlorophenol- imprinted composite membrane.
Journal of Shanghai Normal University (Natural Sciences), 40, (6), 615-618, (2011)
Fan HT et al., Preparation of Cobalt(II) Ion Imprinted Silica Gel Sorbents by Surface Imprinting Technique and Its Adsorption Properties.
Chemical Journal of Chinese Universities, 32, (12), 2902-2907, (2011)
Dong J et al., Sampling 4-chlorophenol in water by DGT technique with molecularly imprinted polymer as binding agent and nylon membrane as diffusive layer.
Analytica Chimica Acta, 822, 69-77, (2014)
Sui DP et al., Ion-imprinted silica adsorbent modified diffusive gradients in thin films technique: Tool for speciation analysis of free lead species.
Talanta, 148, 285-291, (2016)
Sui F
Liu YT et al., Enhanced photocatalysis on TiO2 nanotube arrays modified with molecularly imprinted TiO2 thin film.Journal of Hazardous Materials, 182, (1-3), 912-918, (2010)
Sui GQ
Sui GQ et al., Synthesis of SERS imprinted membrane based on Ag/ESM with different morphologies for selective detection of antibiotics in aqueous sample.Optical Materials, 121, Article111581-(2021)
Xue Y et al., Rapid detection of orange II dyes in water with SERS imprinted sensor based on PDA-modified MOFs@Ag.
Journal of Environmental Chemical Engineering, 9, (6), Article106317-(2021)
Sui HY
Sui HY et al., Molecular Imprinting Technique - A New Affinity Separation Method.Chemical Industry and Engineering Progress, 19, (5), 43-46, (2000)
Sui HY et al., Chiral separation of amino acid derivatives by molecular imprinting technique (II) - Influence of the components of mobile phase on the chiral separation.
Fine Chemicals, 20, (7), 403-406, (2003)
Sui HY et al., Chiral separation of amino acid derivatives by molecular imprinting technique (I) - Preparation of molecularly imprinted polymers, chromatographical evaluation and physical and chemical character formulation.
Fine Chemicals, 20, (6), 345-348+373, (2003)
Liu J et al., The Research of Fluorescent Sensing to Endocrine Disruptor 17[beta]-Estradiol Measured by Microsphere Molecularly Imprinted Polymer.
Research of Environmental Sciences, 19, (5), 91-95, (2006)
Sui LF
Cui WK et al., Adsorption properties of dye imprinted polysiloxane composite microspheres using strong basic anion-exchange resin as matrix.Desalination and Water Treatment, 51, (40-42), 7604-7611, (2013)
Sui Q
Jiang HM et al., Removal of Cholesterol by [beta]-Cyclodextrin.Asian Journal of Chemistry, 23, (9), 3783-3786, (2011)
Sui W
Wang QW et al., Sensitive Molecularly Imprinted Fluorescence Determination of Pyrethroids using Green Zinc Oxide Quantum Dots.Analytical Letters, 50, (7), 1139-1149, (2017)
Sui X
Fan NW et al., Determination of vanillin in imprinted polymer's solution by the method of high performance liquid chromatography.Journal of Jilin Institute of Chemical Technology, 23, (1), 12-14, (2006)
Suib SL
Bhakta S et al., Antibody-like Biorecognition Sites for Proteins from Surface Imprinting on Nanoparticles.ACS Applied Materials & Interfaces, 7, (51), 28197-28206, (2015)
Bhakta S et al., Albumin removal from human serum using surface nanopockets on silica-coated magnetic nanoparticles.
Chemical Communications, 53, (66), 9254-9257, (2017)
Sukandar S
Setiyanto H et al., The Performance of Molecularly Imprinted Polymers (MIPs)-Modified Carbon Paste Electrode and Its Application in Detecting Phenol.International Journal of Electrochemical Science, 15, 5477-5486, (2020)
Sukenik CN
Pogorelova SP et al., Development of ion-sensitive field-effect transistor-based sensors for benzylphosphonic acids and thiophenols using molecularly imprinted TiO2 films.Analytica Chimica Acta, 504, (1), 113-122, (2004)
Sukhacheva NA
Belokon YN et al., Memory of a polymeric matrix, stabilizing the initial conformation of potassium bis[N-(5-methacryloylamino)-salicylidene-(S)-norvalinato]-cobaltate(III) in the deuterium-exchange.Makromolekulare Chemie-Macromolecular Chemistry And Physics, 184, (11), 2213-2223, (1983)
Sukhanov PT
Churilina EV et al., New N-vinylamide-based polymers for the preconcetration of nitrophenols from aqueous media (originally published as Zhurnal Analiticheskoi Khimii, 2012, Vol. 67, No. 9, pp. 855-859).Journal of Analytical Chemistry, 67, (9), 767-771, (2012)
Gubin AS et al., Use of Molecularly Imprinted Polymer for the Preconcentration of 4-Nitrophenol from Aqueous Media.
Journal of Analytical Chemistry, 74, (1), 11-17, (2019)
Sukhorukov GB
Donath E et al., Novel hollow polymer shells by colloid-templated assembly of polyelectrolytes.Angewandte Chemie International Edition, 37, (16), 2201-2205, (1998)
Sukjee W
Tancharoen C et al., Proceeding, Molecularly Imprinted Polymer for explosive detection,171-174, (2015)
Sangma C et al., Book chapter, H5N1 Virus Plastic Antibody Based on Molecularly Imprinted Polymers,
In: Synthetic Antibodies: Methods and Protocols, Tiller T (Ed.) Springer: New York, NY, 381-388, (2017)
Sukjee W et al., Small-Molecule Dengue Virus Co-imprinting and Its Application as an Electrochemical Sensor.
ChemistryOpen, 6, (3), 340-344, (2017)
Tancharoen C et al., Electrochemical Biosensor Based on Surface Imprinting for Zika Virus Detection in Serum.
ACS Sensors, 4, (1), 69-75, (2019)
Suksrichavalit T
Piacham T et al., Proceeding, Molecularly imprinted polymer as a tool for nanobiosensors and enzyme mimics,Art. No. E0119, (2005)
Piacham T et al., Synthesis and Theoretical Study of Molecularly Imprinted Nanospheres for Recognition of Tocopherols.
Molecules, 14, (8), 2985-3002, (2009)
Suksuwan A
Suedee R et al., Recognition Properties and Competitive Assays of a Dual Dopamine/Serotonin Selective Molecularly Imprinted Polymer.International Journal of Molecular Sciences, 9, (12), 2333-2356, (2008)
Suksuwan A et al., The composite nanomaterials containing (R)-thalidomide-molecularly imprinted polymers as a recognition system for enantioselective-controlled release and targeted drug delivery.
Journal of Applied Polymer Science, 132, (18), Article No 41930-(2015)
Suksuwan A et al., Tracking the chemical surface properties of racemic thalidomide and its enantiomers using a biomimetic functional surface on a quartz crystal microbalance.
Journal of Applied Polymer Science, 132, (30), ArticleNo42309-(2015)
Sulaiman A
Ibrahim WAW et al., Application of Solid-Phase Extraction for Trace Elements in Environmental and Biological Samples: A Review.Critical Reviews in Analytical Chemistry, 44, (3), 233-254, (2014)
Sulaiman Y
Sulaiman Y et al., Chiral acid selectivity displayed by PEDOT electropolymerised in the presence of chiral molecules.Analyst, 137, (10), 2386-2393, (2012)
Sulc R
Sulc R et al., Phospholipid imprinted polymers as selective endotoxin scavengers.Scientific Reports, 7, ArticleNo44299-(2017)
Suleiman JS
Zhang N et al., Chromium(III)-imprinted silica gel for speciation analysis of chromium in environmental water samples with ICP-MS detection.Talanta, 75, (2), 536-543, (2008)
Suliman FEO
Al-Kindy SMZ et al., Fluorimetric determination of aluminium using Sequential Injection Analysis (SIA): State of our art and future developments.Instrumentation Science & Technology, 34, (6), 619-633, (2006)
Sulistyaningsih E
Sulistyaningsih E, Application of Molecularly Imprinted Polymer Technique on Chitosan Membranes for Increasing Creatinine Transport Effectiveness.Research Journal of Chemistry and Environment, 22, (Special Issue II), 58-64, (2018)
Sulistyarti H
Mulyasuryani A et al., Molecularly Imprinted Polymers Chitosan-Glutaraldehyde for Monosodium Glutamate.IOP Conference Series: Materials Science and Engineering, 299, (1), ArticleNo012010-(2018)
Sulitzky C
Quaglia M et al., Surface initiated molecularly imprinted polymer films: a new approach in chiral capillary electrochromatography.Analyst, 126, (9), 1495-1498, (2001)
Sulitzky C et al., Grafting of molecularly imprinted polymer films on silica supports containing surface-bound free radical initiators (vol 35, pg 79, 2002).
Macromolecules, 35, (8), 3314-3314, (2002)
Sulitzky C et al., Grafting of molecularly imprinted polymer films on silica supports containing surface-bound free radical initiators.
Macromolecules, 35, (1), 79-91, (2002)
Quaglia M et al., Molecularly imprinted polymer films grafted from porous or nonporous silica: Novel affinity stationary phases in capillary electrochromatography.
Electrophoresis, 24, (6), 952-957, (2003)
Halhalli MR et al., An improved grafting technique for producing imprinted thin film composite beads.
Polymer Chemistry, 3, (4), 1033-1042, (2012)
Sullivan BJ
Ives JT et al., Book chapter, Fiber optic immunosensors to monitor small molecule analytes in groundwater,In: Chemical, Biochemical, and Environmental Fiber Sensors X, Lieberman RA (Ed.) The International Society for Optical Engineering: Bellingham, 36-44, (1999)
Sullivan MV
Graham SP et al., Evaluation of Molecularly Imprinted Polymers as Synthetic Virus Neutralizing Antibody Mimics.Frontiers in Bioengineering and Biotechnology, 7, Article115-(2019)
Sullivan MV et al., Toward Rational Design of Selective Molecularly Imprinted Polymers (MIPs) for Proteins: Computational and Experimental Studies of Acrylamide Based Polymers for Myoglobin.
The Journal of Physical Chemistry B, 123, (26), 5432-5443, (2019)
Sullivan MV et al., Evaluation of acrylamide-based molecularly imprinted polymer thin-sheets for specific protein capture-a myoglobin model.
Biomedical Physics & Engineering Express, 7, (4), Article045025-(2021)
Sultanov TM
Efendiev AA et al., Synthesis and study of complex-forming polymer sorbents on the basis of polyethylenepolyamines.Vysokomolekulyarnye Soedineniya Seriya B, 27, (4), 264-266, (1985)
Molochnikov LS et al., Synthesis and study of prearranged for nickel sorbents on the basis of polyethylene polyamines.
Polymer Science U. S. S. R., 31, (5), 1168-1172, (1989)
Efendiev AA et al., Book chapter, Metal-Containing Polymeric Materials, Pittman CU, Carraher CEJr, Culbertson BM, Sheats JE, Zeldin M (Eds.) Plenum Press: New York, 255-264, (1996)
Sultanov YM
Kabanov VA et al., An EPR study of copper(II) complexes with structured polymeric sorbents.Polymer Science U. S. S. R., 28, (11), 2736-2742, (1986)
Molochnikov LS et al., Thermochemical properties of polyvinylpyridine complex-forming sorbents for metals sorption.
Vysokomolekulyarnye Soedineniya Seriya B, 32, (12), 945-947, (1990)
Molochnikov LS et al., Coordination of Cu(II) and Ni(II) in polymers imprinted so as to optimize amine chelate formation.
Polymer, 44, (17), 4805-4815, (2003)
Suludere Z
Zengin A et al., Preparation of molecularly imprinted PDMS elastomer for selective detection of folic acid in orange juice.Applied Surface Science, 471, 168-175, (2019)
Turan E et al., Construction of a sensitive and selective plasmonic biosensor for prostate specific antigen by combining magnetic molecularly-imprinted polymer and surface-enhanced Raman spectroscopy.
Talanta, 237, Article122926-(2022)
Sumadi
Buhani et al., Adsorption kinetics and isotherm of Cd(II) ion on Nannochloropsis sp biomass imprinted ionic polymer.Desalination, 259, (1-3), 140-146, (2010)
Buhani et al., Production of Ionic Imprinted Polymer from Nannochloropsis sp Biomass and its Adsorption Characteristics Toward Cu(II) Ion in Solutions.
Asian Journal of Chemistry, 24, (1), 133-140, (2012)
Sumaoka J
Sumaoka J et al., Recognition of bioactive oligopeptide by imprinted cyclodextrin polymer in water.Polymer Preprints, Japan, 55, (1), 1668-(2006)
Song SH et al., Recognition of Solution Structures of Peptides by Molecularly Imprinted Cyclodextrin Polymers.
Macromolecules, 40, (10), 3530-3532, (2007)
Nagaoka S et al., Reconfirmation of Recognition Site in Composites of Imprinted beta-Cyclodextrin Polymer/Solid Support as Stationary Phase of HPLC.
Chemistry Letters, 37, (11), 1148-1149, (2008)
Sumaoka J et al., Molecularly Imprinted Polymers for the Recognition of Biomolecules in Water.
Kobunshi Ronbunshu, 66, (6), 191-201, (2009)
Song SH et al., Molecular imprinting of cyclodextrin to physiologically active oligopeptides in water.
Supramolecular Chemistry, 22, (3), 149-155, (2010)
Sumi VS
Sumi VS et al., Imprinted polymers as drug delivery vehicles for metal-based anti-inflammatory drug.International Journal of Pharmaceutics, 349, (1-2), 30-37, (2008)
Sun AL
Shi XZ et al., Determination of Chloramphenicol Residues in Foods by ELISA and LC-MS/MS Coupled with Molecularly Imprinted Solid Phase Extraction.Analytical Letters, 43, (17), 2798-2807, (2010)
Shi XZ et al., Preparation and Chromatographic Evaluation of Molecularly Imprinted Polymer Microspheres for Chloramphenicol.
Food Science, 31, (18), 95-98, (2010)
Shi XZ et al., Group-selective molecularly imprinted polymer solid-phase extraction for the simultaneous determination of six sulfonamides in aquaculture products.
Journal of Chromatography B, 879, (15-16), 1071-1076, (2011)
Shi XZ et al., Group-selective enrichment and determination of pyrethroid insecticides in aquaculture seawater via molecularly imprinted solid phase extraction coupled with gas chromatography-electron capture detection.
Journal of Chromatography A, 1227, (1), 60-66, (2012)
Shi XZ et al., Characterisation and application of molecularly imprinted polymers for group-selective recognition of antibiotics in food samples.
Analyst, 137, (14), 3381-3389, (2012)
Zhang RR et al., Highly Permselective Membrane Surface Modification by Cold Plasma-Induced Grafting Polymerization of Molecularly Imprinted Polymer for Recognition of Pyrethroid Insecticides in Fish.
Analytical Chemistry, 86, (23), 11705-11713, (2014)
Xiao TT et al., Selective and sensitive determination of cypermethrin in fish via enzyme-linked immunosorbent assay-like method based on molecularly imprinted artificial antibody-quantum dot optosensing materials.
Biosensors and Bioelectronics, 75, 34-40, (2016)
Ding H et al., Molecularly imprinted optosensing sensor for highly selective and sensitive recognition of sulfadiazine in seawater and shrimp samples.
Sensors and Actuators B: Chemical, 246, 510-517, (2017)
Li XJ et al., Development and application of a novel fluorescent nanosensor based on FeSe quantum dots embedded silica molecularly imprinted polymer for the rapid optosensing of cyfluthrin.
Biosensors and Bioelectronics, 99, 268-273, (2018)
Sun AL et al., Development of a selective fluorescence nanosensor based on molecularly imprinted-quantum dot optosensing materials for saxitoxin detection in shellfish samples.
Sensors and Actuators B: Chemical, 258, 408-414, (2018)
Wang XJ et al., Characterization and application of molecularly imprinted polymer-coated quantum dots for sensitive fluorescent determination of diethylstilbestrol in water samples.
Talanta, 197, 98-104, (2019)
Yu XR et al., Development and Application of the Dispersive Solid-Phase Extraction Method Based on Molecular Imprinted Polymers for Removal of Matrix Components of Bivalve Shellfish Extracts in the GC-MS/MS Analysis of Amide/Dinitroaniline/Substituted Urea Herbicides.
Chromatographia, 82, (6), 961-970, (2019)
Li W et al., Effective removal matrix interferences by a modified QuEChERS based on the molecularly imprinted polymers for determination of 84 polychlorinated biphenyls and organochlorine pesticides in shellfish samples.
Journal of Hazardous Materials, 384, Article121241-(2020)
Zhang RR et al., Application of a novel electrochemiluminescence sensor based on magnetic glassy carbon electrode modified with molecularly imprinted polymers for sensitive monitoring of bisphenol A in seawater and fish samples.
Sensors and Actuators B: Chemical, 317, Article128237-(2020)
Zhang RR et al., Ultrasensitive electrochemiluminescence sensor based on perovskite quantum dots coated with molecularly imprinted polymer for prometryn determination.
Food Chemistry, 370, Article131353-(2022)
Sun BC
Hu C et al., Extraction of the toluene exposure biomarkers hippuric acid and methylhippuric acid using a magnetic molecularly imprinted polymer, and their quantitation by LC-MS/MS.Microchimica Acta, 186, (3), Article135-(2019)
Sun BG
Liu HL et al., Application of an Optosensing Chip Based on Molecularly Imprinted Polymer Coated Quantum Dots for the Highly Selective and Sensitive Determination of Sesamol in Sesame Oils.Journal of Agricultural and Food Chemistry, 63, (9), 2545-2549, (2015)
Liu HL et al., Development and applications of molecularly imprinted polymers based on hydrophobic CdSe/ZnS quantum dots for optosensing of N[epsilon]-carboxymethyllysine in foods.
Food Chemistry, 211, 34-40, (2016)
Liu HL et al., Application of Quantum Dot-Molecularly Imprinted Polymer Core-Shell Particles Sensitized with Graphene for Optosensing of N[epsilon]-Carboxymethyllysine in Dairy Products.
Journal of Agricultural and Food Chemistry, 64, (23), 4801-4806, (2016)
Liu HL et al., A novel quantum dots-labeled on the surface of molecularly imprinted polymer for turn-off optosensing of dicyandiamide in dairy products.
Biosensors and Bioelectronics, 77, 512-517, (2016)
Liu HL et al., Optical Determination of Cholesterol in Milk with Molecularly Imprinted Polymer-Coated Quantum Dots.
Analytical Letters, 50, (12), 1964-1976, (2017)
Liu HL et al., Graphene oxide-sensitized molecularly imprinted opto-polymers for charge-transfer fluorescent sensing of cyanoguanidine.
Food Chemistry, 235, 14-20, (2017)
Liu HL et al., Core-Shell Metal-Organic Frameworks/Molecularly Imprinted Nanoparticles as Absorbents for the Detection of Pyrraline in Milk and Milk Powder.
Journal of Agricultural and Food Chemistry, 65, (4), 986-992, (2017)
Liu HL et al., Sensitive detection of pyrraline with a molecularly imprinted sensor based on metal-organic frameworks and quantum dots.
Sensors and Actuators B: Chemical, 256, 1038-1044, (2018)
Ni TH et al., Grafting of quantum dots on covalent organic frameworks via a reverse microemulsion for highly selective and sensitive protein optosensing.
Sensors and Actuators B: Chemical, 269, 340-345, (2018)
Liu HL et al., A fluorescent nanoprobe for 4-ethylguaiacol based on the use of a molecularly imprinted polymer doped with a covalent organic framework grafted onto carbon nanodots.
Microchimica Acta, 186, (3), Article182-(2019)
Wei J et al., Ionic liquid-sensitized molecularly imprinted polymers based on heteroatom co-doped quantum dots functionalized graphene for sensitive detection of [lambda]-cyhalothrin.
Analytica Chimica Acta, 1136, 9-18, (2020)
Yuan XY et al., High-Performance Multiporous Imprinted Microspheres Based on N-Doped Carbon Dots Exfoliated from Covalent Organic Framework for Flonicamid Optosensing.
ACS Applied Materials & Interfaces, 12, (22), 25150-25158, (2020)
Yuan XY et al., N-doped carbon dots derived from covalent organic frameworks embedded in molecularly imprinted polymers for optosensing of flonicamid.
Microchemical Journal, 159, Article105585-(2020)
Yuan XY et al., Molecularly Imprinted Dual-Responsive Extraction for Avenanthramides Using Covalent Organic Frameworks Doped with Polyethyleneimine-Modified Mn-ZnS Quantum Dots.
Food Analytical Methods, 14, (7), 1336-1344, (2021)
Sun BH
Sun BH et al., Electrochemical sensor based on magnetic molecularly imprinted nanoparticles modified magnetic electrode for determination of Hb.Biosensors and Bioelectronics, 91, 354-358, (2017)
Ni CQ et al., Selective removal and recovery of La(III) using a phosphonic-based ion imprinted polymer: Adsorption performance, regeneration, and mechanism.
Journal of Environmental Chemical Engineering, 9, (6), Article106701-(2021)
Sun BL
Zhao R et al., Preparation of molecularly imprinted sericin/poly(vinyl alcohol) electrospun fibers for selective removal of methylene blue.Chemical Research in Chinese Universities, 33, (6), 986-994, (2017)
Sun BW
Sun BW et al., Molecularly imprinted polymer using p-hydroxybenzoic acid, p- hydroxyphenylacetic acid and p-hydroxyphenylpropionic acid as templates.Journal of Molecular Recognition, 14, (6), 388-392, (2001)
Sun BW et al., Molecularly imprinted polymer for pyrazinamide.
Analytical Letters, 36, (8), 1501-1509, (2003)
Sun BW et al., Relationship between template structure and its imprinting efficiency.
Acta Chimica Sinica, 61, (6), 878-884, (2003)
Wu LQ et al., Study properties of molecular imprinting polymer using a computational approach.
Analyst, 128, (7), 944-949, (2003)
Wu LQ et al., Study of molecular imprinting effect by computational approach.
Journal of Guangxi Normal University (Natural Science Edition), 21, (z4), 8-9, (2003)
Sun BW et al., Experimental and theoretical study on p-hydroxybenzoic acid imprinted polymers with different functional monomers.
Acta Chimica Sinica, 62, (6), 598-602, (2004)
Sun BX
Lu C et al., Determination of amantadine residues in chicken by molecularly imprinted-liquid chromatography-tandem mass spectrometry.Journal of Food Safety and Quality, 8, (11), 4169-4173, (2017)
Sun C
Zhuang Y et al., Determination of Tetracyclines in Water and Milk by Solid-phase Microextraction Based on Tetracylines Molecularly Imprinted Polymers Coupled with HPLC.Journal of Analytical Science, 30, (4), 451-456, (2014)
Li GY et al., Rational design, preparation and adsorption study of a magnetic molecularly imprinted polymer using a dummy template and a bifunctional monomer.
New Journal of Chemistry, 41, (15), 7092-7101, (2017)
Niu MC et al., A simple extraction method for norfloxacin from pharmaceutical wastewater with a magnetic core-shell molecularly imprinted polymer with the aid of computer simulation.
New Journal of Chemistry, 41, (7), 2614-2624, (2017)
Dong ZQ et al., Antifouling molecularly imprinted membranes for pretreatment of milk samples: Selective separation and detection of lincomycin.
Food Chemistry, 333, Article127477-(2020)
Sun CH
Gu XL et al., Efficient discovery and capture of new neuronal nitric oxide synthase-postsynaptic density protein-95 uncouplers from herbal medicines using magnetic molecularly imprinted polymers as artificial antibodies.Journal of Separation Science, 40, (17), 3522-3534, (2017)
Sun CH et al., The Multi-Template Molecularly Imprinted Polymer Based on SBA-15 for Selective Separation and Determination of Panax notoginseng Saponins Simultaneously in Biological Samples.
Polymers, 9, (12), ArticleNo653-(2017)
Chen SN et al., Rapid and sensitive biomarker detection using molecular imprinting polymer hydrogel and surface-enhanced Raman scattering.
Royal Society Open Science, 5, (1), ArticleNo171488-(2018)
Huang JJ et al., Novel surface imprinted magnetic mesoporous silica as artificial antibodies for efficient discovery and capture of candidate nNOS-PSD-95 uncouplers for stroke treatment.
Journal of Materials Chemistry B, 6, (10), 1531-1542, (2018)
Yao DD et al., A surface magnetic imprinted polymers as artificial receptors for selective and efficient capturing of new neuronal nitric oxide synthase-post synaptic density protein-95 uncouplers.
Journal of Pharmaceutical and Biomedical Analysis, 154, 180-190, (2018)
Su K et al., Selectively encapsulating Ag nanoparticles on the surface of two-dimensional graphene for surface-enhanced Raman scattering.
Applied Surface Science, 492, 108-115, (2019)
Sun CH et al., A biomimetic fluorescent nanosensor based on imprinted polymers modified with carbon dots for sensitive detection of alpha-fetoprotein in clinical samples.
Analyst, 144, (22), 6760-6772, (2019)
Sun CJ
Sun CJ et al., Graphical Evaluation of the Favorability of Adsorption Processes by Using Conditional Langmuir Constant.Industrial & Engineering Chemistry Research, 52, (39), 14251-14260, (2013)
Sun LZ et al., Proceeding, Synthesis of Nimetazepam - Molecularly Imprinted Polymer and SPE Application,
Yun J, Zeng DH (Eds.), 200-206, (2013)
Yang JL et al., Recent advances in analysis of phthalate esters in foods.
TrAC Trends in Analytical Chemistry, 72, 10-26, (2015)
Yang BX et al., Simultaneous Determination of 11 Aminoglycoside Residues in Honey, Milk, and Pork by Liquid Chromatography with Tandem Mass Spectrometry and Molecularly Imprinted Polymer Solid Phase Extraction.
Journal of AOAC International, 100, (6), 1869-1878, (2017)
Sun CL
Yuan B et al., Pillar[6]arene Containing Multilayer Films: Reversible Uptake and Release of Guest Molecules with Methyl Viologen Moieties.ACS Applied Materials & Interfaces, 8, (6), 3679-3685, (2016)
Sun CM
Zhang SH et al., Progress in Syntheses and Investigation of Molecular Imprinting Polymers on Silica-Gel Surface.Chinese Polymer Bulletin, (4), 17-29, (2010)
Sun CM et al., Syntheses of polyamine-bridged polysilsesquioxanes hybrid materials combining sol-gel processing and molecular imprinting applied to selective adsorption for copper.
Materials Chemistry and Physics, 153, 307-315, (2015)
Sun CY
Li Y et al., Chemical sensors and biosensors for the detection of melamine.RSC Advances, 5, (2), 1125-1147, (2015)
Li SF et al., Study on the preparation and adsorption of the cesium ion imprinted polymer based on surface imprinting technique.
Journal of Functional Materials, 48, (7), 7062-7068, (2017)
Yang L et al., Selective adsorption and separation of Cs(I) from salt lake brine by a novel surface magnetic ion-imprinted polymer.
Journal of Dispersion Science and Technology, 38, (11), 1547-1555, (2017)
Yang L et al., Preparation of Cs(I) Magnetic Ion-Imprinted Polymer and its Adsorption Behavior.
Bulletin of the Chinese Ceramic Society, 36, (2), 1-8, (2017)
Wang ZM et al., Determination of cesium ions in environmental water samples with a magnetic multi-walled carbon nanotube imprinted potentiometric sensor.
RSC Advances, 11, (17), 10075-10082, (2021)
Sun DD
Yang YK et al., Magnetic molecularly imprinted electrochemical sensors: A review.Analytica Chimica Acta, 1106, 1-21, (2020)
Yang YK et al., Surface molecularly imprinted magnetic MOFs: A novel platform coupled with magneto electrode for high throughput electrochemical sensing analysis of oxytetracycline in foods.
Food Chemistry, 363, Article130337-(2021)
Sun DM
Tan F et al., Preparation of molecularly imprinted polymer nanoparticles for selective removal of fluoroquinolone antibiotics in aqueous solution.Journal of Hazardous Materials, 244-245, 750-757, (2013)
Tan F et al., Molecularly imprinted polymer/mesoporous carbon nanoparticles as electrode sensing material for selective detection of ofloxacin.
Materials Letters, 129, 95-97, (2014)
Sun DP
Xu XR et al., Film-like bacterial cellulose based molecularly imprinted materials for highly efficient recognition and adsorption of cresol isomers.Chemical Engineering Journal, 382, Article123007-(2020)
Sun DS
Zhu YZ et al., Fabrication of magnetic imprinted sorbents prepared by Pickering emulsion polymerization for adsorption of erythromycin from aqueous solution.Journal of Environmental Chemical Engineering, 4, (3), 3570-3579, (2016)
Cui YH et al., Facile synthesis of imprinted submicroparticles blend polyvinylidene fluoride membranes at ambient temperature for selective adsorption of methyl p-hydroxybenzoate.
Korean Journal of Chemical Engineering, 34, (3), 600-608, (2017)
Sun DS et al., Fabrication of highly selective ion imprinted macroporous membranes with crown ether for targeted separation of lithium ion.
Separation and Purification Technology, 175, 19-26, (2017)
Sun DS et al., Synthesis of ion imprinted nanocomposite membranes for selective adsorption of lithium.
Separation and Purification Technology, 194, 64-72, (2018)
Zhu YZ et al., Convenient synthesis of uncovered imprinted microspheres by Ganoderma lucidum spore-stabilized pickering emulsion polymerization and their enhanced recognition of spiramycin.
RSC Advances, 9, (60), 34772-34783, (2019)
Sun DX
Zhang HX et al., Magnetic Pb(II) Ion-Imprinted Polymer Prepared by Surface Imprinting Technique and its Adsorption Properties.Separation Science and Technology, 50, (6), 901-910, (2015)
Sun FQ
Wu YL et al., Efficient one-pot synthesis of artemisinin-imprinted membrane by direct surface-initiated AGET-ATRP.Separation and Purification Technology, 131, 117-125, (2014)
He ZH et al., Fabrication of new cellulose acetate blend imprinted membrane assisted with ionic liquid ([BMIM]Cl) for selective adsorption of salicylic acid from industrial wastewater.
Separation and Purification Technology, 145, 63-74, (2015)
Meng MJ et al., Fabrication of a novel cellulose acetate imprinted membrane assisted with chitosan-wrapped multi-walled carbon nanotubes for selective separation of salicylic acid from industrial wastewater.
Journal of Applied Polymer Science, 132, (42), ArticleNo42654-(2015)
Sun FQ et al., Fabrication of ordered microporous styrene-acrylonitrile copolymer blend imprinted membranes for selective adsorption of phenol from salicylic acid using breath figure method.
Journal of Applied Polymer Science, 132, (31), ArticleNo42350-(2015)
Mao YL et al., Fabrication of highly selective molecularly imprinted membranes for the selective adsorption of methyl salicylate from salicylic acid.
RSC Advances, 6, (94), 91659-91668, (2016)
Wang XY et al., Preparation and Application of the Core-Shell Carbon Nanotubes-Molecularly Imprinted Composite for Chloramphenicols.
Journal of Analytical Science, 32, (6), 758-762, (2016)
Wang XY et al., Preparation and Application of Molecularly Imprinted Polymers for Chloramphenicol Based on Ionic Liquids Assistance.
Journal of Instrumental Analysis, 36, (1), 18-24, (2017)
Sun FX
Sun FX et al., Analytical methods and recent developments in the detection of melamine.TrAC Trends in Analytical Chemistry, 29, (11), 1239-1249, (2010)
Sun FX et al., Recent advances and progress in the detection of bisphenol A.
Analytical and Bioanalytical Chemistry, 408, (25), 6913-6927, (2016)
Sun G
D’Oleo R et al., A new approach to design imprinted polymer gels without using a template.Macromolecules, 34, (14), 4965-4971, (2001)
Amaly N et al., Fabrication of polydopamine-based NIR-light responsive imprinted nanofibrous membrane for effective lysozyme extraction and controlled release from chicken egg white.
Food Chemistry, 357, Article129613-(2021)
Sun GB
Duan YQ et al., A computational approach to design an electrochemical sensor and determination of acephate in aqueous solution based on a molecularly imprinted poly(o-phenylenediamine) film.Analytical Methods, 5, (22), 6449-6456, (2013)
Duan YQ et al., Determination of epigallocatechin-3-gallate with a high-efficiency electrochemical sensor based on a molecularly imprinted poly(o-phenylenediamine) film.
Journal of Applied Polymer Science, 129, (5), 2882-2890, (2013)
Zhang HH et al., Proceeding, Selective Adsorption and Pre-Concentration of Morin by Molecularly Imprinted Polymers with Chitosan Beads as Functional Matrix,
Yu L, Guo JW, Yi GB, Yu Q (Eds.), 756-759, (2013)
Zhang HH et al., Selective Adsorption and Separation of (-)-Epigallocatechin Gallate (EGCG) based on Silica Gel Surface Molecularly Imprinted Polymers.
IERI Procedia, 5, 339-343, (2013)
Luo XP et al., Molecularly imprinted polymer prepared by Pickering emulsion polymerization for removal of acephate residues from contaminated waters.
Journal of Applied Polymer Science, 133, (15), ArticleNo43126-(2016)
Sun GH
Wang SQ et al., Constructing a novel composite of molecularly imprinted polymer-coated AuNPs electrochemical sensor for the determination of 3-nitrotyrosine.Electrochimica Acta, 259, 893-902, (2018)
Sun GQ
Wang PP et al., Photoelectrochemical lab-on-paper device based on molecularly imprinted polymer and porous Au-paper electrode.Analyst, 138, (17), 4802-4811, (2013)
Sun GQ et al., Photoelectrochemical sensor for pentachlorophenol on microfluidic paper-based analytical device based on the molecular imprinting technique.
Biosensors and Bioelectronics, 56, 97-103, (2014)
Sun GX
Liu WL et al., Molecularly imprinted polymers on graphene oxide surface for EIS sensing of testosterone.Biosensors and Bioelectronics, 92, 305-312, (2017)
Sun GY
Li XJ et al., Green synthesis and evaluation of isoquercitrin imprinted polymers for class-selective separation and purification of flavonol glycosides.Analytical Methods, 7, (11), 4717-4724, (2015)
Sun GY et al., Effect of minimizing amount of template by addition of macromolecular crowding agent on preparation of molecularly imprinted monolith.
Analytical and Bioanalytical Chemistry, 407, (24), 7401-7412, (2015)
Jia M et al., Effect of polyethylene glycol as a molecular crowding agent on reducing template consumption for preparation of molecularly imprinted polymers.
Analytical Methods, 8, (23), 4554-4562, (2016)
Sun GY et al., Cost-effective imprinting combining macromolecular crowding and a dummy template for the fast purification of punicalagin from pomegranate husk extract.
Journal of Separation Science, 39, (10), 1963-1970, (2016)
Sun GY et al., Two-dimensional Sun YK et al., Cost-effective imprinting to minimize consumption of template in room-temperature ionic liquid for fast purification of chlorogenic acid from the extract of E. ulmoides leaves.
Analytical and Bioanalytical Chemistry, 411, (6), 1261-1271, (2019)
Sun H
Wang H et al., Theophylline recognition copolymer membranes prepared by molecular imprinting method.Acta Scientiarum Naturalium Universitatis Pekinensis, 37, (2), 244-250, (2001)
Dong XC et al., Study on the isomer recognition and chromatographic behaviors of salicylic acid imprinted polymers.
Acta Chimica Sinica, 60, (11), 2035-2042, (2002)
Dong XC et al., Separation of ephedrine stereoisomers by molecularly imprinted polymers - influence of synthetic conditions and mobile phase compositions on the chromatographic performance.
Analyst, 127, (11), 1427-1432, (2002)
Zhang XW et al., Molecular Imprinting Technique and Its Application.
Journal of Tianjin Agricultural College, 9, (3), 23-28, (2002)
Sun H et al., Separation and Determination of Fluoroquinolones with a Molecularly Imprinted Polymer.
Chinese Journal of Chromatography, 21, (3), 233-238, (2003)
Xia SL et al., Preparation of molecular imprinted copolymer membrane for uracil recognition.
Chinese Chemical Letters, 14, (8), 794-796, (2003)
Wang HY et al., Molecularly imprinted copolymer membranes functionalized by phase inversion imprinting for uracil recognition and permselective binding.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 127-134, (2004)
Dong XC et al., Study of the influence of synthesis conditions on the morphology and binding property of (-)-ephedrine imprinted polymers.
Chinese Journal of Chromatography, 23, (1), 7-11, (2005)
Dong XC et al., Molecularly imprinted solid-phase extraction of (-)-ephedrine from Chinese Ephedra.
Journal of Chromatography A, 1070, (1-2), 125-130, (2005)
Liu YK et al., Interaction Between Molecular Imprinted Copolymer Membrane and Uracil Template.
Journal of Zhengzhou University (Natural Science Edition), 37, (3), 75-77, (2005)
Sun H et al., Piezoelectric quartz crystal sensor for rapid analysis of pirimicarb residues using molecularly imprinted polymers as recognition elements.
Analytica Chimica Acta, 576, (1), 67-76, (2006)
Liu YK et al., Dynamic rheological behavior of the P(AN-co-MAA) molecularly imprint cast solution with the template molecular of the uracil.
Polymer Materials Science and Engineering, 23, (4), 118-120, 124, (2007)
Xia SL et al., Ion Complex Membranes of Acrylonitrile Copolymers Having Methacrylic Acid and Amphiphilic Quaternized Ammonium Groups for Uracil Molecular Imprinting.
Journal of Materials Online, 3, (2007)
Xia SL et al., Review of Research on Molecular Recognition Polymeric Membranes.
Materials Review, 21, (4), 31-33, (2007)
Sun H et al., Piezoelectric quartz crystal sensor for sensing taste-causing compounds in food.
Sensors and Actuators B: Chemical, 131, (1), 148-158, (2008)
Han F et al., Determination of Triazines Residues in Food Samples Using Dummy Molecularly Imprinted Solid Phase Extraction Based on Molecular Simulation.
Chinese Journal of Analytical Chemistry, 40, (11), 1648-1653, (2012)
Lai JP et al., Progresses on Synthesis Methods of Molecularly Imprinted Microspheres and Their Applications in Solid phase Extraction.
Journal of Instrumental Analysis, 31, (9), 1161-1169, (2012)
Zhang L et al., Selective trace analysis of chloroacetamide herbicides in food samples using dummy molecularly imprinted solid phase extraction based on chemometrics and quantum chemistry.
Analytica Chimica Acta, 729, (1), 36-44, (2012)
Lai JP et al., Synthesis and evaluation of molecularly imprinted polymeric microspheres for highly selective extraction of an anti-AIDS drug emtricitabine.
Analytical and Bioanalytical Chemistry, 405, (12), 4269-4275, (2013)
Lai JP et al., Molecularly imprinted microspheres for the anticancer drug aminoglutethimide: Synthesis, characterization, and solid-phase extraction applications in human urine samples.
Journal of Separation Science, 37, (9-10), 1170-1176, (2014)
Sun H et al., Simultaneous determination of gaseous and particulate carbonyls in air by coupling micellar electrokinetic capillary chromatography with molecular imprinting solid-phase extraction.
Journal of Chromatography A, 1358, 303-308, (2014)
Lai JP et al., Hydrophilic molecularly imprinted microspheres functionalized with amino and carboxyl groups for highly selective recognition of human hemoglobin in aqueous solution.
RSC Advances, 5, (63), 51392-51398, (2015)
Sun H et al., Molecularly imprinted microspheres synthesized by a simple, fast, and universal suspension polymerization for selective extraction of the topical anesthetic benzocaine in human serum and fish tissues.
Analytical and Bioanalytical Chemistry, 407, (6), 1745-1752, (2015)
Sun H et al., Solid-phase extraction based on a molecularly imprinted polymer for the selective determination of four benzophenones in tap and river water.
Journal of Separation Science, 38, (19), 3412-3420, (2015)
Yang JJ et al., Molecularly imprinted polymer microspheres prepared by Pickering emulsion polymerization for selective solid-phase extraction of eight bisphenols from human urine samples.
Analytica Chimica Acta, 872, 35-45, (2015)
Sun H et al., A novel fluorescent multi-functional monomer for preparation of silver ion-imprinted fluorescent on-off chemosensor.
Sensors and Actuators B: Chemical, 224, 485-491, (2016)
Sun H et al., Preparation of dummy-imprinted polymers by Pickering emulsion polymerization for the selective determination of seven bisphenols from sediment samples.
Journal of Separation Science, 39, (11), 2188-2195, (2016)
Chen L et al., Molecular imprinting of dibenzothiophene using vinyl pyridine monomers: Fabrication and performance.
Journal of Applied Polymer Science, 134, (10), ArticleNo44552-(2017)
Li YL et al., Determination of carbonyl pollutants adsorbed on ambient particulate matter of type PM2.5 by using magnetic molecularly imprinted microspheres for sample pretreatment and capillary electrophoresis for separation and quantitation.
Microchimica Acta, 185, (2), ArticleNo122-(2018)
Chen SL et al., The visual detection of anesthetics in fish based on an inverse opal photonic crystal sensor.
RSC Advances, 9, (29), 16831-16838, (2019)
Fang SY et al., Determination of carbonyls in ambient PM2.5 by coupling dummy template imprinting technology and high performance liquid chromatography.
Chinese Journal of Chromatography, 37, (6), 634-643, (2019)
Wu WZ et al., Molecularly Imprinted Photonic Hydrogels for Visual Detection of Methylanthranilate in Wine.
Chinese Journal of Analytical Chemistry, 47, (9), 1330-1336, (2019)
Fang SY et al., Determination of aldehydes in water samples by coupling magnetism-reinforced molecular imprinting monolith microextraction and non-aqueous capillary electrophoresis.
Journal of Chromatography A, 1632, Article461602-(2020)
He JH et al., Trace carbonyl analysis in water samples by integrating magnetic molecular imprinting and capillary electrophoresis.
RSC Advances, 11, (52), 32841-32851, (2021)
Huang QD et al., A novel fluorescent optical fiber sensor for highly selective detection of antibiotic ciprofloxacin based on replaceable molecularly imprinted nanoparticles composite hydrogel detector.
Sensors and Actuators B: Chemical, 328, Article129000-(2021)
Liu YY et al., Rapid Screening of Butyl Paraben Additive in Toner Sample by Molecularly Imprinted Photonic Crystal.
Chemosensors, 9, (11), ArticleNo314-(2021)
Sun HH
Song ML et al., Enzyme-Free Molecularly Imprinted and Graphene-Functionalized Photoelectrochemical Sensor Platform for Pollutants.ACS Applied Materials & Interfaces, 13, (31), 37212-37222, (2021)
Sun HR
Lyu HX et al., A double-recognized aptamer-molecularly imprinted monolithic column for high-specificity recognition of ochratoxin A.Analytica Chimica Acta, 1103, 97-105, (2020)
Sun HW
Qiao FX et al., Molecularly Imprinted Polymers for Solid Phase Extraction.Chromatographia, 64, (11), 625-634, (2006)
Sun HW et al., Characteristic of theophylline imprinted monolithic column and its application for determination of xanthine derivatives caffeine and theophylline in green tea.
Journal of Chromatography A, 1134, (1-2), 194-200, (2006)
Sun HW et al., On-line solid-phase extraction of arsanilic acid from water with arsanilic acid imprinted monolith.
Chemical Journal on Internet, 8, (6), (2006)
Sun HW et al., Recognition mechanism of water-compatible molecularly imprinted solid-phase extraction and determination of nine quinolones in urine by high performance liquid chromatography.
Journal of Chromatography A, 1212, (1-2), 1-9, (2008)
Sun HW et al., Simultaneous isolation of six fluoroquinolones in serum samples by selective molecularly imprinted matrix solid-phase dispersion.
Analytica Chimica Acta, 625, (2), 154-159, (2008)
Sun HW et al., Ofloxacin imprinted polymer applied to the solid-phase extraction of six fluoroquinolones from serum.
Chinese Journal of Pharmaceutical Analysis, 28, (6), 848-852, (2008)
Sun HW et al., Water-compatible Molecularly Imprinted Solid Phase Extraction-HPLC for Determination of Fluorouinolones Residues in Chicken.
Food Science, 30, (8), 151-154, (2009)
Qiao FX et al., Simultaneous extraction of enrofloxacin and ciprofloxacin from chicken tissue by molecularly imprinted matrix solid-phase dispersion.
Journal of Pharmaceutical and Biomedical Analysis, 53, (3), 795-798, (2010)
Lv YK et al., Effect of Solvents on Selective Molecularly Imprinted Solid-Phase Extraction of Enrofloxacin from Fish Samples.
Asian Journal of Chemistry, 24, (9), 3909-3912, (2012)
Lv YK et al., Synthesis and Evaluation of Restricted Access Material-Molecularly Imprinted Polymer Based on Self-Assembly and Sol-Gel Technique.
Asian Journal of Chemistry, 24, (9), 3905-3908, (2012)
Lv YK et al., Synthesis and characterization of molecularly imprinted poly(methacrylic acid)/silica hybrid composite materials for selective recognition of lincomycin in aqueous media.
Journal of Applied Polymer Science, 126, (5), 1631-1636, (2012)
Lv YK et al., Synthesis and application of molecularly imprinted poly(methacrylic acid)-silica hybrid composite material for selective solid-phase extraction and high-performance liquid chromatography determination of oxytetracycline residues in milk.
Journal of Chromatography A, 1227, (1), 48-53, (2012)
Lv YK et al., Grafting of norfloxacin imprinted polymeric membranes on silica surface for the selective solid-phase extraction of fluoroquinolones in fish samples.
Talanta, 89, (1), 270-275, (2012)
Lv YK et al., Synthesis and characterization of the molecularly imprinted mesoporous silica based on the self-assembly technique for selective recognition of lomefloxacin in aqueous solution.
Journal of Porous Materials, 20, (5), 1345-1352, (2013)
Lv YK et al., Preparation of doxycycline-imprinted magnetic microspheres by inverse-emulsion suspension polymerization for magnetic dispersion extraction of tetracyclines from milk samples.
Journal of Separation Science, 36, (16), 2656-2663, (2013)
Lv YK et al., Preparation and evaluation of a novel molecularly imprinted hybrid composite monolithic column for on-line solid-phase extraction coupled with HPLC to detect trace fluoroquinolone residues in milk.
Analytical Methods, 5, (7), 1848-1855, (2013)
Lv YK et al., Preparation and characterization of molecularly imprinted monolithic column for on-line solid-phase extraction coupled with hplc for determination of the fluoroquinolone residues in honey samples.
Journal of Liquid Chromatography & Related Technologies, 36, (2), 249-260, (2013)
Lv YK et al., Adsorption-controlled preparation of molecularly imprinted hybrid composites for selective extraction of tetracycline residues from honey and milk.
New Journal of Chemistry, 38, (2), 802-808, (2014)
Ge XS et al., Highly sensitive determination of cyromazine, melamine, and their metabolites in milk by molecularly imprinted solid-phase extraction combined with ultra-performance liquid chromatography.
Journal of Dairy Science, 98, (4), 2161-2171, (2015)
Lv YK et al., Determination of Tetracyclines Residues in Egg, Milk, and Milk Powder by Online Coupling of A Precolumn Packed with Molecular Imprinted Hybrid Composite Materials to RP-HPLC-UV.
Journal of Liquid Chromatography & Related Technologies, 38, (1), 1-7, (2015)
Wu XQ et al., Synthesis and evaluation of dummy molecularly imprinted microspheres for the specific solid-phase extraction of six anthraquinones from slimming tea.
Journal of Separation Science, 38, (8), 1263-1270, (2015)
Cao FM et al., Synthesis of a perfluorooctanoic acid molecularly imprinted polymer for the selective removal of perfluorooctanoic acid in an aqueous environment.
Journal of Applied Polymer Science, 133, (15), ArticleNo43192-(2016)
Ge XS et al., Trace residue analysis of dicyandiamide, cyromazine, and melamine in animal tissue foods by ultra-performance liquid chromatography.
Journal of Food and Drug Analysis, 24, (3), 579-585, (2016)
Cao FM et al., Synthesis and evaluation of molecularly imprinted polymers with binary functional monomers for the selective removal of perfluorooctanesulfonic acid and perfluorooctanoic acid.
Journal of Chromatography A, 1516, 42-53, (2017)
Cao FM et al., Synthesis and application of a highly selective molecularly imprinted adsorbent based on multi-walled carbon nanotubes for selective removal of perfluorooctanoic acid.
Environmental Science: Water Research & Technology, 4, (5), 689-700, (2018)
Cao FM et al., The application of molecularly imprinted polymers in passive sampling for selective sampling perfluorooctanesulfonic acid and perfluorooctanoic acid in water environment.
Environmental Science and Pollution Research, 25, (33), 33309-33321, (2018)
Su M et al., Residue investigation of some phenylureas and tebuthiuron herbicides in vegetables by ultra-performance liquid chromatography coupled with integrated selective accelerated solvent extraction-clean up in situ.
Journal of the Science of Food and Agriculture, 98, (13), 4845-4853, (2018)
Sun HX
Hao GY et al., A versatile microfluidic paper chip platform based on MIPs for rapid ratiometric sensing of dual fluorescence signals.Microchemical Journal, 157, Article105050-(2020)
Sun HY
Mao XD et al., Well-defined sulfamethazine-imprinted magnetic nanoparticles via surface-initiated atom transfer radical polymerization for highly selective enrichment of sulfonamides in food samples.Analytical Methods, 7, (11), 4708-4716, (2015)
Wang ZR et al., Determination of 2, 6-Dichlorophenol by Surface-Enhanced Raman Scattering with Molecular Imprinting.
Analytical Letters, 51, (13), 2062-2072, (2018)
Sun J
Sun J et al., The synthesis of a new chiral separation functionnal monomer on molecular imprinted polymer.Journal of Qiqihar University (Natural Science Edition), 20, (4), 1-3, (2004)
Wang ST et al., Study on preparing molecular imprinting polymer in polar solvent.
Chemical Engineer, 20, (10), 18-20, (2004)
Sun J et al., Intelligent molecular imprinted hydrogel.
Chemical Sensors (China), 25, (3), 1-6, (2005)
Quan Y et al., Study on Preparation and Performances of Acrylamide Molecularly Imprinted Polymers.
Food and Fermentation Industries, 36, (12), 177-180, (2010)
Sun J et al., Proceeding, Preparation and Binding Characteristics of Molecularly Imprinted Polymers for Capsaicin,
Chen R, Sun DY, Sung WP (Eds.), 582-585, (2012)
Kong H et al., Templated Crosslinked Imidazolyl Acrylate for Electronic Detection of Nitroaromatic Explosives.
Advanced Functional Materials, 23, (1), 91-99, (2013)
Luo J et al., Preparation of water-compatible molecular imprinted conductive polyaniline nanoparticles using polymeric micelle as nanoreactor for enhanced paracetamol detection.
Chemical Engineering Journal, 283, 1118-1126, (2016)
Sun J et al., Surface hydrophilic imprinted particles via a green precipitation polymerization for selective removal of tetracycline from aqueous solution.
Journal of the Iranian Chemical Society, 13, (3), 489-497, (2016)
Luo J et al., Synthesis of hydrophilic and conductive molecularly imprinted polyaniline particles for the sensitive and selective protein detection.
Biosensors and Bioelectronics, 94, 39-46, (2017)
Ma W et al., Core-shell thermal-responsive and magnetic molecularly imprinted polymers based on mag-yeast for selective adsorption and controlled release of tetracycline.
Journal of the Iranian Chemical Society, 14, (1), 209-219, (2017)
Zheng LF et al., Core-shell magnetic molecularly imprinted polymers used rhodamine B hydroxyproline derivate as template combined with in situ derivatization for the specific measurement of L-hydroxyproline.
Journal of Chromatography A, 1532, 30-39, (2018)
Zhu SY et al., Derivatization-based magnetic dummy molecularly imprinted polymers integrated with 4-plex stable isotope labeling derivatization strategy for specific and rapid determination of L-hydroxyproline in human serum.
Analytica Chimica Acta, 1127, 57-68, (2020)
Chen SE et al., 12-Plex UHPLC-MS/MS analysis of sarcosine in human urine using integrated principle of multiplex tags chemical isotope labeling and selective imprint enriching.
Talanta, 224, Article121788-(2021)
Sun JC
Feng GG et al., Preparation of molecularly imprinted polymer with class-specific recognition for determination of 29 sulfonylurea herbicides in agro-products.Journal of Chromatography A, 1647, Article462143-(2021)
Ma J et al., An overview on molecular imprinted polymers combined with surface-enhanced Raman spectroscopy chemical sensors toward analytical applications.
Talanta, 225, Article122031-(2021)
Sun JD
Sun JD et al., Studies on the Characteristics of Adsorption of Cr(6+) by Rhizopus oryzae Mycelium Surface Imprinted Adsorbent.Journal of Shenyang Agricultural University, 40, (1), 92-94, (2009)
Ji J et al., Electrochemical sensor based on molecularly imprinted film at Au nanoparticles-carbon nanotubes modified electrode for determination of cholesterol.
Biosensors and Bioelectronics, 66, 590-595, (2015)
Sun JD et al., Electrochemical sensor for determination of tulathromycin built with molecularly imprinted polymer film.
Analytical and Bioanalytical Chemistry, 407, (7), 1951-1959, (2015)
Guo W et al., A novel molecularly imprinted electrochemical sensor modified with carbon dots, chitosan, gold nanoparticles for the determination of patulin.
Biosensors and Bioelectronics, 98, 299-304, (2017)
de Dieu Habimana J et al., A class-specific artificial receptor-based on molecularly imprinted polymer-coated quantum dot centers for the detection of signaling molecules, N-acyl-homoserine lactones present in gram-negative bacteria.
Analytica Chimica Acta, 1031, 134-144, (2018)
Shan XQ et al., A molecularly imprinted electrochemical sensor based on Au nanocross-chitosan composites for detection of paraquat.
Journal of Solid State Electrochemistry, 23, (4), 1211-1220, (2019)
Sun JF
Sun JF et al., Removal of lead ions from polyether sulfone/Pb(II)-imprinted multi-walled carbon nanotubes mixed matrix membrane.Journal of the Taiwan Institute of Chemical Engineers, 78, 219-229, (2017)
Sun JH
Zhang LL et al., Recognition of Chlorsulfuron Based on SPR Sensors with the Molecular Imprinted Polymer.Micronanoelectronic Technology, 48, (4), 254-257, (2011)
Sun JJ
Li ZZ et al., Molecularly imprinted polymer for specific extraction of hypericin from Hypericum perforatum L. herbal extract.Journal of Pharmaceutical and Biomedical Analysis, 98, 210-220, (2014)
Sun JJ et al., Synthesis and application of a magnetic spiramycin-templated molecularly imprinted nanoparticle adsorbent.
Chinese Journal of Chromatography, 36, (8), 723-729, (2018)
Sun JL
Chen ZH et al., Enhanced fluorescence detection of enrofloxacin with curved-surface responsive inverse opal polymers and molecular imprinting.Analytical Methods, 11, (8), 1043-1052, (2019)
Sun JN
Liu JB et al., Molecular Imprinted Interaction between Atrazine and TFMAA.Journal of Jilin University Science Edition, 50, (4), 805-811, (2012)
Liu JB et al., Theoretical researches on the recognizing characteristics of atrazine imprinted polymers with different functional monomers.
Chinese Journal of Structural Chemistry, 31, (12), 1794-1802, (2012)
Liu JB et al., Theoretical Research on Self-assembly System of Molecular Imprinted Polymers Formed by Ciprofloxacin and Trifluoromethacrylic Acid.
Chemical Journal of Chinese Universities, 34, (11), 2566-2573, (2013)
Liu JB et al., A Theoretical Study on the Interaction between Melamine and Acrylamide Functional Monomer in Molecularly Imprinted Polymers.
Food Science, 34, (17), 96-101, (2013)
Sun JN et al., Theoretical researches on the self-assembly system of ciprofloxacin imprinted polymers.
Chinese Journal of Structural Chemistry, 32, (8), 1204-1210, (2013)
Sun JP
Wan W et al., Selective enrichment of proteins for MALDI-TOF MS analysis based on molecular imprinting.Chemical Communications, 51, (17), 3541-3544, (2015)
Sun JW
Tang YW et al., Rapid Determination of Metolcarb Residues in Foods Using a Biomimetic Enzyme-Linked Immunosorbent Assay Employing a Novel Molecularly Imprinted Polymer Film as Artificial Antibody.Journal of AOAC International, 96, (2), 453-458, (2013)
Sun JX
Qian LW et al., Immobilization of BSA on ionic liquid functionalized magnetic Fe3O4 nanoparticles for use in surface imprinting strategy.Talanta, 168, 174-182, (2017)
Sun JY
Gan T et al., Highly sensitive and molecular selective electrochemical sensing of 6-benzylaminopurine with multiwall carbon nanotube@SnS2-assisted signal amplification.Journal of Applied Electrochemistry, 46, (3), 389-401, (2016)
Gan T et al., An electrochemical sensor based on SiO2@TiO2-embedded molecularly imprinted polymers for selective and sensitive determination of theophylline.
Journal of Solid State Electrochemistry, 21, (12), 3683-3691, (2017)
Liu HL et al., A fluorescent nanoprobe for 4-ethylguaiacol based on the use of a molecularly imprinted polymer doped with a covalent organic framework grafted onto carbon nanodots.
Microchimica Acta, 186, (3), Article182-(2019)
Gan T et al., Multishell Au@Ag@SiO2 nanorods embedded into a molecularly imprinted polymer as electrochemical sensing platform for quantification of theobromine.
Microchimica Acta, 187, (5), Article291-(2020)
Xu LP et al., A disposable molecularly imprinted electrochemical sensor for the ultra-trace detection of the organophosphorus insecticide phosalone employing monodisperse Pt-doped UiO-66 for signal amplification.
Analyst, 145, (9), 3245-3256, (2020)
Sun JY et al., Rational design of a mesoporous silica@ZIF-8 based molecularly imprinted electrochemical sensor with high sensitivity and selectivity for atropine monitoring.
Journal of Electroanalytical Chemistry, 903, Article115843-(2021)
Sun JZ
Xue QN et al., Screen Printing Bio-chip Sensor for Cholesterol Detection Based on Molecular Imprinting Self-assembled Film.Journal of Electronics & Information Technology, 32, (11), 2735-2739, (2010)
Sun KJ
Sun KJ et al., High selectivity and sensitivity fluorescence sensing of melamine based on the combination of a fluorescent chemosensor and molecularly imprinted polymers.RSC Advances, 5, (114), 94084-94090, (2015)
Sun KY
He MQ et al., Synthesis and characterization of molecularly imprinted polymers for aminotriazole.Ion Exchange and Adsorption, 29, (2), 131-139, (2013)
Bao LL et al., Selective adsorption and degradation of rhodamine B with modified titanium dioxide photocatalyst.
Journal of Applied Polymer Science, 131, (20), Article No 40890-(2014)
He MQ et al., Synthesis of molecularly imprinted polypyrrole/titanium dioxide nanocomposites and its selective photocatalytic degradation of rhodamine B under visible light irradiation.
eXPRESS Polymer Letters, 8, (11), 850-861, (2014)
Meng MJ et al., Preparation, characterization, and adsorption performance of p-hydroxybenzoic acid imprinted polymer and selective catalysis of toluene to para-chlorotoluene.
Journal of Applied Polymer Science, 131, (8), Article No 40118-(2014)
Sun L
Crooks RM et al., Book chapter, Synthesis and characterization of two-dimensional molecular recognition interfaces,In: Interfacial design & chemical sensing, Mallouk TE, Harrison DJ (Eds.) ACS: Washington DC, Ch. 10, 104-122, (1994)
Liu CP et al., Study on the adsorption property of copper (II) imprinted chelating resin for metal ions.
Ion Exchange and Adsorption, 19, (6), 504-510, (2003)
Zhu XL et al., Research Progress of Molecular Imprinting Technique in the Determination of Veterinary Drug Residues.
Chinese Journal of Veterinary Drug, 41, (6), 34-37, (2007)
Chen LG et al., Fast and Selective Extraction of Sulfonamides from Honey Based on Magnetic Molecularly Imprinted Polymer.
Journal of Agricultural and Food Chemistry, 57, (21), 10073-10080, (2009)
Chen LG et al., On-line Coupling of Solid-Phase Extraction to Liquid Chromatography-A Review.
Journal of Chromatographic Science, 47, (8), 614-623, (2009)
Chen LG et al., Determination of fluoroquinolone antibiotics in environmental water samples based on magnetic molecularly imprinted polymer extraction followed by liquid chromatography-tandem mass spectrometry.
Analytica Chimica Acta, 662, (1), 31-38, (2010)
Yang ML et al., Study on the molecularly imprinted polymers with methyl-testosterone as the template.
Talanta, 81, (1-2), 156-161, (2010)
Sun L et al., Monolithic molecularly imprinted column-high performance liquid chromatography for enrichment and determination of trace cytokinins in plant samples.
Chinese Journal of Chromatography, 31, (4), 392-394, (2013)
Sun L et al., Preparation and evaluation of camphor monolithic molecularly imprinted column.
Chinese Journal of Analysis Laboratory, 33, (7), 791-795, (2014)
Ye XS et al., Proceeding, The Preparation and Adsorption Properties of Li+-Imprinted Hybrid Gels,
Tsing L, Luo AQ (Eds.), 435-440, (2016)
Shao HH et al., An ion-imprinted material embedded carbon quantum dots for selective fluorometric determination of lithium ion in water samples.
Microchimica Acta, 184, (12), 4861-4868, (2017)
Wu XL et al., Surface molecular imprinted polymers based on Mn-doped ZnS quantum dots by atom transfer radical polymerization for a room-temperature phosphorescence probe of bifenthrin.
Analytical Methods, 9, (31), 4609-4615, (2017)
Chen L et al., Direct Detection of Potential Pyrethroids in Yangtze River via an Imprinted Multilayer Phosphorescence Probe.
Analytical Sciences, 34, (5), 613-618, (2018)
Wang JX et al., Surface-imprinted fluorescence microspheres as ultrasensitive sensor for rapid and effective detection of tetracycline in real biological samples.
Sensors and Actuators B: Chemical, 263, 533-542, (2018)
Wang YY et al., Synthesis of molecularly imprinted dye-silica nanocomposites with high selectivity and sensitivity: Fluorescent imprinted sensor for rapid and efficient detection of [tau]-fluvalinate in vodka.
Journal of Separation Science, 41, (8), 1880-1887, (2018)
Wu CX et al., Fluorescent molecularly imprinted nanoparticles for selective and rapid detection of ciprofloxacin in aquaculture water.
Journal of Separation Science, 41, (19), 3782-3790, (2018)
Peng C et al., Facile Synthesis of Boronate Affinity-Based Molecularly Imprinted Monolith with Reduced Capturing pH Towards Cis-Diol-Containing Compounds.
Chromatographia, 82, (7), 1029-1040, (2019)
Duan R et al., Integrating boronate affinity controllable-oriented surface imprinting nylon wire and pH-triggered allochroic-graphene oxide for ultrasensitive detection of glycoprotein.
Sensors and Actuators B: Chemical, 330, Article129310-(2021)
Sun LB
Shi YQ et al., Molecular Template-Directed Synthesis of Microporous Polymer Networks for Highly Selective CO2 Capture.ACS Applied Materials & Interfaces, 6, (22), 20340-20349, (2014)
Sun LG
Yu PP et al., Green synthesis of ion-imprinted macroporous composite magnetic hydrogels for selective removal of nickel (II) from wastewater.Journal of Molecular Liquids, 344, Article117963-(2021)
Sun LJ
Wang ZH et al., Preparation of electrochemical sensor for lead(II) based on molecularly imprinted film.Applied Surface Science, 258, (6), 2017-2021, (2012)
Sun LL
Sun LL et al., Molecularly imprinted Ag/Ag3VO4/g-C3N4 Z-scheme photocatalysts for enhanced preferential removal of tetracycline.Journal of Colloid and Interface Science, 552, 271-286, (2019)
Sun LN
Sun LN et al., Synthesis and Applications of Molecularly Imprinted Polymers Modified TiO2 Nanomaterials: A Review.Polymers, 10, (11), ArticleNo1248-(2018)
Zhang T et al., Highly sensitive electrochemical determination of the SARS-COV-2 antigen based on a gold/graphene imprinted poly-arginine sensor.
Analytical Methods, 13, (47), 5772-5776, (2021)
Sun LP
Zhu SY et al., Derivatization-based magnetic dummy molecularly imprinted polymers integrated with 4-plex stable isotope labeling derivatization strategy for specific and rapid determination of L-hydroxyproline in human serum.Analytica Chimica Acta, 1127, 57-68, (2020)
Zhou QT et al., Electrochemical sensor based on corncob biochar layer supported chitosan-MIPs for determination of dibutyl phthalate (DBP).
Journal of Electroanalytical Chemistry, 897, Article115549-(2021)
Sun LQ
Geng LN et al., Solid phase extraction of dropropizine using molecularly imprinted polymers.Acta Physico-Chimica Sinica, 24, (1), 25-31, (2008)
Yu S et al., Preliminary study on the molecularly imprinted polymer of bovine hemoglobin.
Chemistry Bulletin, 71, (6), 446-449, (2008)
Chen ZH et al., Proceeding, High porosity lysozyme imprinted polymers,
8306-8309, (2011)
Liu Y et al., Proceeding, Computational and experimental investigation of 4-nitrotoluene molecularly imprinted polymers,
8140-8143, (2011)
Xu SP et al., Proceeding, Preparation and Recognition Properties of Levodropopizine Molecularly Imprinted Composite Membranes,
Zeng JM, Kim YH, Chen YF (Eds.), 355-358, (2011)
Zhao WT et al., Proceeding, A Biomimetic Sensor for Fast Lysozyme Detection,
Cao Z, Cao XQ, Sun LX, He YH (Eds.), 283-287, (2011)
Yang S et al., Proceeding, Preparation and characterization of molecularly imprinted mesoporous organosilica for biphenol Z recognition and separation,
970-975, (2015)
Zhang X et al., Surface Molecular Imprinting on Manganese-Doped Zinc Sulfide Quantum Dots for Fluorescence Detection of Bisphenol A in Water.
Analytical Letters, 48, (13), 2075-2089, (2015)
Zhang X et al., Mn-doped ZnS QDs entrapped in molecularly imprinted membranes for detection of trace bisphenol A.
Analytical Methods, 7, (19), 8212-8219, (2015)
Yang S et al., Preparation and evaluation of Fe3O4 nanoparticles incorporated molecularly imprinted polymers for protein separation.
Journal of Materials Science, 51, (2), 937-949, (2016)
Zhang X et al., Surface-imprinted polymer coating l-cysteine-capped ZnS quantum dots for target protein specific recognition.
Journal of Materials Science, 51, (12), 6075-6085, (2016)
Zhang X et al., Specific recognition and detection of target proteins by new fluorescence molecularly imprinted membrane.
Chinese Journal of Chromatography, 35, (3), 252-254, (2017)
Zhang X et al., Fluorescent molecularly imprinted membranes as biosensor for the detection of target protein.
Sensors and Actuators B: Chemical, 254, 1078-1086, (2018)
Li YY et al., Preparation and adsorption characteristics of lysozyme-imprinted polymer membrane.
Chinese Journal of Chromatography, 37, (4), 392-397, (2019)
Liang AI et al., A novel CuFe2O4 nanospheres molecularly imprinted polymers modified electrochemical sensor for lysozyme determination.
Journal of Electroanalytical Chemistry, 853, Article113465-(2019)
Liu ZH et al., Preparation and application of melamine molecularly imprinted photonic crystal hydrogel sensor.
Chinese Journal of Chromatography, 37, (3), 287-292, (2019)
Sun LX
Lin ZA et al., Preparation of boronate-functionalized molecularly imprinted monolithic column with polydopamine coating for glycoprotein recognition and enrichment.Journal of Chromatography A, 1319, 141-147, (2013)
Lin ZA et al., Synthesis of boronic acid-functionalized molecularly imprinted silica nanoparticles for glycoprotein recognition and enrichment.
Journal of Materials Chemistry B, 2, (6), 637-643, (2014)
Sun LX et al., Click synthesis of boronic acid-functionalized molecularly imprinted silica nanoparticles with polydopamine coating for enrichment of trace glycoproteins.
Analytical Methods, 7, (23), 10026-10031, (2015)
Sun LY
Chen HX et al., Hierarchically Molecular Imprinted Porous Particles for Biomimetic Kidney Cleaning.Advanced Materials, 32, (52), Article2005394-(2020)
Sun LZ
Sun CJ et al., Graphical Evaluation of the Favorability of Adsorption Processes by Using Conditional Langmuir Constant.Industrial & Engineering Chemistry Research, 52, (39), 14251-14260, (2013)
Sun LZ et al., Proceeding, Synthesis of Nimetazepam - Molecularly Imprinted Polymer and SPE Application,
Yun J, Zeng DH (Eds.), 200-206, (2013)
Sun M
Lu FG et al., Flow injection chemiluminescence sensor based on core-shell magnetic molecularly imprinted nanoparticles for determination of chrysoidine in food samples.Sensors and Actuators B: Chemical, 173, 591-598, (2012)
Lu FG et al., Flow injection chemiluminescence sensor using core-shell molecularly imprinted polymers as recognition element for determination of dapsone.
Analytical and Bioanalytical Chemistry, 404, (1), 79-88, (2012)
Lu FG et al., Flow injection chemiluminescence sensor based on core-shell magnetic molecularly imprinted nanoparticles for determination of sulfadiazine.
Analytica Chimica Acta, 718, (1), 84-91, (2012)
Qiu HM et al., A chemiluminescence sensor for determination of epinephrine using graphene oxide - magnetite-molecularly imprinted polymers.
Carbon, 50, (11), 4052-4060, (2012)
Qiu HM et al., A novel chemiluminescence sensor for determination of quercetin based on molecularly imprinted polymeric microspheres.
Food Chemistry, 134, (1), 469-473, (2012)
Qiu HM et al., A chemiluminescence array sensor based on graphene-magnetite-molecularly imprinted polymers for determination of benzenediol isomers.
Analytica Chimica Acta, 744, 75-81, (2012)
Qiu HM et al., Determination of l-tryptophan based on graphene oxide-magnetite-molecularly imprinted polymers and chemiluminescence.
Talanta, 98, 226-230, (2012)
Qiu HM et al., Determination sulfamethoxazole based chemiluminescence and chitosan/graphene oxide-molecularly imprinted polymers.
Carbohydrate Polymers, 92, (1), 394-399, (2013)
Qiu HM et al., A microflow chemiluminescence sensor for indirect determination of dibutyl phthalate by hydrolyzing based on biological recognition materials.
Journal of Pharmaceutical and Biomedical Analysis, 75, 123-129, (2013)
Du W et al., Determination of clenbuterol from pork samples using surface molecularly imprinted polymers as the selective sorbents for microextraction in packed syringe.
Journal of Pharmaceutical and Biomedical Analysis, 91, 160-168, (2014)
Duan HM et al., A novel chemiluminescence sensor for determination of vanillin with magnetite-graphene oxide molecularly imprinted polymers.
Analytical Methods, 6, (21), 8706-8712, (2014)
Wang XJ et al., Ultrasensitive molecularly imprinted electrochemical sensor based on magnetism graphene oxide/[beta]-cyclodextrin/Au nanoparticles composites for chrysoidine analysis.
Electrochimica Acta, 130, 519-525, (2014)
Du W et al., Molecularly imprinted membrane extraction combined with high-performance liquid chromatography for selective analysis of cloxacillin from shrimp samples.
Food Chemistry, 259, 73-80, (2018)
Sun MF
Huang CY et al., Proceeding, Design of a Potentiostat with Standalone Signal Generator for Vanillylmandelic Acid Biosensors,606-609, (2016)
Sun MJ
Wang P et al., Preparation of hydrophilic molecularly imprinted polymers for tetracycline antibiotics recognition.Chinese Chemical Letters, 22, (5), 611-614, (2011)
Sun ML
Wang T et al., Fast and selective extraction of chloramphenicol from soil by matrix solid-phase dispersion using molecularly imprinted polymer as dispersant.Journal of Separation Science, 34, (15), 1886-1892, (2011)
Gu ZG et al., Preparation of Carbon Nanotube/MnO2 Nanocomposite as an Electrode Modifier for Prostate-Specific Antigen (PSA) Determination.
International Journal of Electrochemical Science, 12, 10726-10736, (2017)
Jiang HM et al., Preparation of ion imprinted magnetic Fe3O4 nanoparticles for selective remediation of Pb(II).
Journal of the Taiwan Institute of Chemical Engineers, 80, 184-191, (2017)
Sun MM
Wang YY et al., CuCo2O4/N-Doped CNTs loaded with molecularly imprinted polymer for electrochemical sensor: Preparation, characterization and detection of metronidazole.Biosensors and Bioelectronics, 142, Article111483-(2019)
Lu ZW et al., Novel dual-template molecular imprinted electrochemical sensor for simultaneous detection of CA and TPH based on peanut twin-like NiFe2O4/CoFe2O4/NCDs nanospheres: Fabrication, application and DFT theoretical study.
Biosensors and Bioelectronics, 190, Article113408-(2021)
Liu T et al., A visual electrochemiluminescence molecularly imprinted sensor with Ag+@UiO-66-NH2 decorated CsPbBr3 perovskite based on smartphone for point-of-care detection of nitrofurazone.
Chemical Engineering Journal, 429, Article132462-(2022)
Sun MN
Shen HY et al., Design and controllable synthesis of ethylenediamine-grafted ion imprinted magnetic polymers for highly selective adsorption to perchlorate.RSC Advances, 8, (52), 29928-29938, (2018)
Sun N
Ma C et al., Preparation of Molecularly Imprinted Polymer Monolith with an Analogue of Thiamphenicol and Application to Selective Solid-Phase Microextraction.Food Analytical Methods, 5, (6), 1267-1275, (2012)
Sun N et al., Determination of sulfamethoxazole in milk using molecularly imprinted polymer monolith microextraction coupled to HPLC.
Microchimica Acta, 179, (1), 33-40, (2012)
Yan HY et al., Rapid and selective screening of melamine in bovine milk using molecularly imprinted matrix solid-phase dispersion coupled with liquid chromatography-ultraviolet detection.
Journal of Chromatography B, 908, 137-142, (2012)
Liu XF et al., Preparation, characterization and application of organic-inorganic hybrid caffeine imprinted monolith.
Journal of Chromatography A, 1304, 10-17, (2013)
Yan H et al., Ionic liquid-mediated molecularly imprinted solid-phase extraction coupled with gas chromatography-electron capture detector for rapid screening of dicofol in vegetables.
Journal of Chromatography A, 1307, 21-26, (2013)
Yan HY et al., Ionic liquids modified dummy molecularly imprinted microspheres as solid phase extraction materials for the determination of clenbuterol and clorprenaline in urine.
Journal of Chromatography A, 1294, 10-16, (2013)
Yan HY et al., Synthesis of Multi-core-shell Magnetic Molecularly Imprinted Microspheres for Rapid Recognition of Dicofol in Tea.
Journal of Agricultural and Food Chemistry, 61, (11), 2896-2901, (2013)
Cheng XL et al., Vortex-assisted magnetic dispersive solid-phase microextraction for rapid screening and recognition of dicofol residues in tea products.
Food Chemistry, 162, 104-109, (2014)
Adams JD et al., A Molecularly Imprinted Polymer-Graphene Sensor Antenna Hybrid for Ultra Sensitive Chemical Detection.
IEEE Sensors Journal, 19, (16), 6571-6577, (2019)
Adams JD et al., A Molecularly Imprinted Polymer-Graphene Sensor Antenna Hybrid for Ultra Sensitive Chemical Detection.
IEEE Sensors Journal, 19, (16), 6571-6577, (2019)
Sun NR
Wang ZD et al., A rational route to hybrid aptamer-molecularly imprinted magnetic nanoprobe for recognition of protein biomarkers in human serum.Analytica Chimica Acta, 1128, 1-10, (2020)
Fang XW et al., Magnetic metal oxide affinity chromatography-based molecularly imprinted approach for effective separation of serous and urinary phosphoprotein biomarker.
Talanta, 226, Article122143-(2021)
Sun NX
Emam S et al., A Molecularly Imprinted Electrochemical Gas Sensor to Sense Butylated Hydroxytoluene in Air.Journal of Sensors, 2018, ArticleNo3437149-(2018)
Emam S et al., A Molecularly- Imprinted Electrochemical Sensor to Detect VOCs in the Breath Print of Lung Cancer Patients.
Bulletin of the American Physical Society 54 S50.00012-(2019)
Sun P
Wang QL et al., Techology and Application of Molecular Imprinting.Food Science, 23, (9), 140-143, (2002)
Li MN et al., Core-shell magnetic metal-organic framework molecularly imprinted nanospheres for specific adsorption of tetrabromobisphenol A from water.
Environmental Science: Nano, 5, (11), 2651-2662, (2018)
Sun PC
Lu Y et al., Influence of polymerization temperature on the molecular recognition of imprinted polymers.Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 53-59, (2004)
Zhang HQ et al., Efficient Synthesis of Molecularly Imprinted Polymers with Enzyme Inhibition Potency by the Controlled Surface Imprinting Approach.
ACS Macro Letters, 566-570, (2013)
Sun PF
Zhang LX et al., Preparation and adsorption properties study of molecularly imprinted polymers based on PVA-multi-walled carbon nanotubes with enrofloxacin.Chinese Journal of Analysis Laboratory, 37, (3), 301-305, (2018)
Sun PL
Fei JZ et al., Progress of molecular imprinted polymer of fluoroquinolones and its application on the food determination.Chemical Industry and Engineering Progress, 29, (S2), 205-209, (2010)
Sun PP
Song HY et al., Preparation and characterization of protein molecular imprinted calcium alginate hydrogel film with controllable thickness.SCIENTIA SINICA Technologica, 46, (9), 931-939, (2016)
Sun PX
Sun PX et al., Determination of Glucose by a Molecular Capacitor Array Based Using a 3-(Acrylamido) Phenylboronic Acid Prepared Molecularly Imprinted Polyacrylamide Cryogel.Analytical Letters, 54, (17), 2789-2800, (2021)
Sun Q
Yang QY et al., Determination of Parathion in Vegetables by Electrochemical Sensor Based on Molecularly Imprinted Polyethyleneimine/Silica Gel Films.Journal of Agricultural and Food Chemistry, 57, (15), 6558-6563, (2009)
Sun Q et al., Proceeding, The Recent Advance of Molecularly Imprinted on-Line Solid Phase Extraction and its Application in Sample Pretreatment - A Mini Review,
Bu JL, Jiang ZY, Jiao SH (Eds.), 1799-1805, (2011)
Sun Q et al., Determination of Parathion-methyl in Vegetables by Fluorescent-Labeled Molecular Imprinted Polymer.
Chinese Journal of Chemistry, 29, (10), 2134-2140, (2011)
Yang M et al., Proceeding, Preparation and Characterization of Molecularly Imprinted Polymer Microspheres of p-Nitroaniline,
Sun DY, Sung WP, Chen R (Eds.), 3411-3414, (2011)
Sun Q et al., Synthesis of an Organic-Inorganic Hybrid Polymeric Material and Its Adsorption Performance Characterization Toward Acrylamide.
Journal of Macromolecular Science, Part B, 53, (3), 486-495, (2014)
Sun Q et al., Study on a biomimetic enzyme-linked immunosorbent assay method for rapid determination of trace acrylamide in French fries and cracker samples.
Journal of the Science of Food and Agriculture, 94, (1), 102-108, (2014)
Sun Q et al., Synthesis of an Organic-Inorganic Hybrid Polymeric Material and its Adsorption Performance Characterization Toward Acrylamide.
Journal of Macromolecular Science, Part B, 53, (4), 683-692, (2014)
Li XP et al., Molecularly imprinted solid phase extraction in a syringe filter for determination of triazine herbicides in Radix Paeoniae Alba by ultra-fast liquid chromatography.
Talanta, 148, 539-547, (2016)
Li XP et al., Molecularly Imprinted Dispersive Solid-Phase Extraction for the Determination of Triazine Herbicides in Grape Seeds by High-Performance Liquid Chromatography.
Journal of Chromatographic Science, 54, (5), 871-877, (2016)
Wen LY et al., Smart
Sun QF
Shao HH et al., An ion-imprinted material embedded carbon quantum dots for selective fluorometric determination of lithium ion in water samples.Microchimica Acta, 184, (12), 4861-4868, (2017)
Zhao YL et al., Self-assembled selenium nanoparticles and their application in the rapid diagnostic detection of small cell lung cancer biomarkers.
Soft Matter, 14, (4), 481-489, (2018)
Sun QJ
Venkatesh S et al., Selective and sensitive onsite detection of phthalates in common solvents.Sensors and Actuators B: Chemical, 259, 650-657, (2018)
Sun QL
Yang HP et al., Entrapment of alkaloids within silver: from enantioselective hydrogenation to chiral recognition.Chemical Communications, 50, (64), 8868-8870, (2014)
Yu P et al., Magnetic imprinted nanomicrosphere attached to the surface of bacillus using miniemulsion polymerization for selective recognition of 2, 4, 6-trichlorophenol from aqueous solutions.
Journal of Industrial and Engineering Chemistry, 29, 349-358, (2015)
Yu P et al., Selective removal of 2, 4-dichlorophenol in aqueous solutions by nanoparticles modified yeast using miniemulsion imprinting polymerization.
Journal of Environmental Chemical Engineering, 3, (2), 797-806, (2015)
Yu P et al., Preparation and characterization of molecularly-imprinted magnetic microspheres for adsorption of 2, 4, 6-trichlorophenol from aqueous solutions.
Korean Journal of Chemical Engineering, 32, (4), 767-776, (2015)
Yu P et al., Magnetic Molecularly Imprinted Polymer Beads Obtained by Suspension Polymerization for the Adsorption of 2, 4, 6-Trichlorophenol from an Aqueous Solution in a Fixed-bed Column.
Adsorption Science & Technology, 33, (3), 321-336, (2015)
Dong YY et al., Grafting of MIPs from PVDF Membranes via Reversible Addition-fragmentation Chain Transfer Polymerization for Selective Removal of p-Hydroxybenzoic Acid.
Chemical Research in Chinese Universities, 34, (6), 1051-1057, (2018)
Sun QQ
Li J et al., Electrochemical sensor for dopamine based on imprinted silica matrix-poly(aniline boronic acid) hybrid as recognition element.Talanta, 159, 379-386, (2016)
Zang YJ et al., Fabrication of S-MoSe2/NSG/Au/MIPs imprinted composites for electrochemical detection of dopamine based on synergistic effect.
Microchemical Journal, 156, Article104845-(2020)
Sun QY
Xuan GS et al., Proceeding, A New Molecularly Imprinted Polymer Prepared by Surface Imprinting Technique for Selective Adsorption towards Rhodamine B,Zhao XSG, Si HZ, Xu PL (Eds.), 19-22, (2014)
Zhang YX et al., Application of surface-imprinted polymers supported by hydroxyapatite in the extraction of zearalenone in various cereals.
Analytical and Bioanalytical Chemistry, 412, (17), 4045-4055, (2020)
Sun R
Gu J et al., Adsorption and Recognition performance of lead ion-imprinted micro-beads.Journal of Tongji University, 41, (10), 1507-1512, (2013)
Sun RC
Sun RC et al., Book chapter, Application of Molecularly Imprinted Polymers in Purification and Separation for Epothilones,In: Advances in Applied Biotechnology, Zhang TC, Nakajima M (Eds.) Springer: Berlin, Heidelberg, Ch. 59, 571-580, (2015)
Sun RF
Luo H et al., Recognition of Biomacromolecule by Molecular Imprinting Technique.China Biotechnology, 21, (5), 63-67, (2001)
Sun RF et al., Construction and application of a stoichiometric displacement model for retention in chiral recognition of molecular imprinting.
Journal of Chromatography A, 1055, (1-2), 1-9, (2004)
Sun RF et al., Thermodynamic study on chiral separation process using molecular imprinting.
Acta Chimica Sinica, 63, (3), 189-195, (2005)
Sun RF et al., Preparation of molecularly imprinted polymers and studies on their pore-structure.
Acta Polymerica Sinica, (2), 248-253, (2005)
Sun RF et al., Preparation and specific molecular recognition properties of human hemoglobin imprinted polymers.
The Chinese Journal of Process Engineering, 5, (3), 341-344, (2005)
Sun RH
Ji WH et al., Selective solid phase extraction of chloroacetamide herbicides from environmental water samples by amphiphilic magnetic molecularly imprinted polymers.Talanta, 170, 111-118, (2017)
Ji WH et al., Rapid, low temperature synthesis of molecularly imprinted covalent organic frameworks for the highly selective extraction of cyano pyrethroids from plant samples.
Analytica Chimica Acta, 1001, 179-188, (2018)
Sun RN
Zhang XL et al., Determination of Ropivacaine Hydrochloride with Graphene Quantum Dots-Molecularly Imprinted Polymer Electrochemical Sensor.Journal of Instrumental Analysis, 34, (2), 159-163, (2015)
Sun S
Sun S et al., A Molecularly Imprinted Polymer with Incorporated Graphene Oxide for Electrochemical Determination of Quercetin.Sensors, 13, (5), 5493-5506, (2013)
Sun S et al., Magnetic glass carbon electrode, modified with magnetic ferriferrous oxide nanoparticles coated with molecularly imprinted polymer films for electrochemical determination of bovine hemoglobin.
Journal of Electroanalytical Chemistry, 734, 18-24, (2014)
Khonsari YN et al., A novel MIP-ECL sensor based on RGO-CeO2NP/Ru(bpy)32+-chitosan for ultratrace determination of trimipramine.
Journal of Materials Chemistry B, 9, (2), 471-478, (2021)
Sun SD
Sun SD et al., Polymeric Particles for the Removal of Endocrine Disruptors.Separation & Purification Reviews, 40, (4), 312-337, (2011)
Wang DS et al., Photoresponsive Surface Molecularly Imprinted Poly(ether sulfone) Microfibers.
Langmuir, 28, (37), 13284-13293, (2012)
Wang DS et al., Designing a Photoresponsive Molecularly Imprinted System on a Silicon Wafer Substrate Surface.
Langmuir, 29, (26), 8311-8319, (2013)
Zhao CS et al., Modification of polyethersulfone membranes - A review of methods.
Progress in Materials Science, 58, (1), 76-150, (2013)
He C et al., Molecularly imprinted polyethersulfone membranes for the sieving, binding and recognition of bisphenol A.
Desalination and Water Treatment, 52, (31-33), 5781-5789, (2014)
Sun SF
Guan WS et al., Selective recognition of beta-cypermethrin by molecularly imprinted polymers based on magnetite yeast composites.Journal of Applied Polymer Science, 129, (4), 1952-1958, (2013)
Sun SG
Liu J et al., Electrochemical microfluidic chip based on molecular imprinting technique applied for therapeutic drug monitoring.Biosensors and Bioelectronics, 91, 714-720, (2017)
Sun SJ
Chen DM et al., Preparation and evaluation of monolithic molecularly imprinted stationary phase for S-naproxen.Journal of Xi'an Medical University, (1), 26-31, (2011)
Chen DM et al., Preparation and evaluation of monolithic molecularly imprinted stationary phase for S-naproxen.
Journal of Pharmaceutical Analysis, 1, (1), 26-31, (2011)
Fu QA et al., Matrine-imprinted monolithic stationary phase for extraction and purification of matrine from Sophorae flavescentis Ait.
Journal of Chromatography B, 879, (13-14), 894-900, (2011)
Luo YF et al., Preparation of Monolithic Imprinted Stationary Phase for Clenbuterol by In Situ Polymerization and Application in Biological Samples Pretreatment.
Chromatographia, 74, (9), 693-701, (2011)
Sun SM
Zhang XY et al., A novel electrochemical sensor based on electropolymerized molecularly imprinted polymer and gold nanomaterials amplification for estradiol detection.Sensors and Actuators B: Chemical, 200, 69-75, (2014)
Zhang DD et al., Construction of Persistent Luminescence-Plastic Antibody Hybrid Nanoprobe for In Vivo Recognition and Clearance of Pesticide Using Background-Free Nanobioimaging.
Journal of Agricultural and Food Chemistry, 67, (24), 6874-6883, (2019)
Sun SX
Liu H et al., Design and Preparation of Molecularly Imprinted Membrane with Graft-type and Constitution of Potentiometric Sensor of Pesticides and Its Detection Performance.Journal of Instrumental Analysis, 34, (10), 1126-1133, (2015)
Sun T
Fan HT et al., Ion imprinted polymer and its application in the analytical chemistry.Chemistry Bulletin, 72, (1), 10-14, (2009)
Nguyen TH et al., Proceeding, A fibre optic chemical sensor for the detection of cocaine,
Santos JL, Culshaw B, Lopez-Higuera JM, MacPherson WN (Eds.), Art. No. 76531V, (2010)
Sun T et al., Molecular Imprinting Technology Based on Cyclodextrins.
Progress In Chemistry, 22, (5), 888-897, (2010)
Dong J et al., Preparation and characterization of p-chlorophenol- imprinted composite membrane.
Journal of Shanghai Normal University (Natural Sciences), 40, (6), 615-618, (2011)
Fan HT et al., Preparation of Cobalt(II) Ion Imprinted Silica Gel Sorbents by Surface Imprinting Technique and Its Adsorption Properties.
Chemical Journal of Chinese Universities, 32, (12), 2902-2907, (2011)
Li ZC et al., Cd(II)-imprinted polymer sorbents prepared by combination of surface imprinting technique with hydrothermal assisted sol-gel process for selective removal of cadmium(II) from aqueous solution.
Chemical Engineering Journal, 171, (2), 703-710, (2011)
Chen MX et al., Synthesis and adsorption behavior of Cd(II)-imprinted silica gel.
Polymer Materials Science and Engineering, 28, (8), 163-166, (2012)
Fan HT et al., Selective Removal of Arsenic(V) from Aqueous Solution Using A Surface-Ion-Imprinted Amine-Functionalized Silica Gel Sorbent.
Industrial & Engineering Chemistry Research, 51, (14), 5216-5223, (2012)
Fan HT et al., Preparation of Cd(II)-imprinted silica by hydrothermal-assisted surface imprinting technique and its adsorption properties.
Journal of Functional Materials, 43, (15), 2060-2064, (2012)
Fan HT et al., Selective removal of iron from aqueous solution using ion imprinted thiocyanato-functionalized silica gel sorbents.
Korean Journal of Chemical Engineering, 29, (6), 798-803, (2012)
Fan HT et al., An ion-imprinted amino-functionalized silica gel sorbent prepared by hydrothermal assisted surface imprinting technique for selective removal of cadmium (II) from aqueous solution.
Applied Surface Science, 258, (8), 3815-3822, (2012)
Fan HT et al., Selective Removal of Iron from Aqueous Solution using Ion Imprinted Cyanato-Functionalized Silica Gel Sorbents.
Separation Science and Technology, 47, (3), 507-512, (2012)
Nguyen TH et al., Intrinsic fluorescence-based optical fiber sensor for cocaine using a molecularly imprinted polymer as the recognition element.
IEEE Sensors Journal, 12, (1), 255-260, (2012)
Wren SP et al., Proceeding, Preparation of a novel drug sensor using a molecular imprinted polymer approach,
Jaroszewicz LR (Ed.), Art No 879417, (2013)
Dong J et al., Sampling 4-chlorophenol in water by DGT technique with molecularly imprinted polymer as binding agent and nylon membrane as diffusive layer.
Analytica Chimica Acta, 822, 69-77, (2014)
Dong J et al., Sampling of Phenol in Water by Diffusive Gradients Using Thin Film Technique.
Chemistry Letters, 43, (7), 1164-1166, (2014)
Fan HT et al., Selective adsorption of antimony(III) from aqueous solution by ion-imprinted organic-inorganic hybrid sorbent: Kinetics, isotherms and thermodynamics.
Journal of the Taiwan Institute of Chemical Engineers, 45, (5), 2640-2648, (2014)
Wren SP et al., Proceeding, Design and synthesis of a fluorescent molecular imprinted polymer for use in an optical fibre-based cocaine sensor,
91574W-4, (2014)
Wren SP et al., Preparation of novel optical fibre-based Cocaine sensors using a molecular imprinted polymer approach.
Sensors and Actuators B: Chemical, 193, 35-41, (2014)
Elosua C et al., Proceeding, Glucose optical fibre sensor based on a luminescent molecularly imprinted polymer,
ArticleNo963429, (2015)
Wren SP et al., Computational Design and Fabrication of Optical Fibre Fluorescent Chemical Probes for the Detection of Cocaine.
Journal of Lightwave Technology, 33, (12), 2572-2579, (2015)
Feng ZM et al., Effect of Biofilm on Passive Sampling of Dissolved Orthophosphate Using the Diffusive Gradients in Thin Films Technique.
Analytical Chemistry, 88, (13), 6836-6843, (2016)
Nguyen TH et al., Proceeding, Surface plasmon resonance based fibre optic chemical sensor for the detection of cocaine,
ArticleNo991612, (2016)
Feng ZM et al., Coupling mesoporous imprinted polymer based DGT passive samplers and HPLC: A new tool for in-situ selective measurement of low concentration tetrabromobisphenol A in freshwaters.
Science of The Total Environment, 685, 442-450, (2019)
Sun TL
Zhang JL et al., Polymer-Based Stimuli-Responsive Recyclable Catalytic Systems for Organic Synthesis.Small, 10, (1), 32-46, (2014)
Sun TX
Shen XH et al., Applications of Typical Supramolecular Systems in the Field of Radiochemistry.Progress In Chemistry, 23, (7), 1386-1399, (2011)
Sun W
Nematollahzadeh A et al., High-Capacity Hierarchically Imprinted Polymer Beads for Protein Recognition and Capture.Angewandte Chemie International Edition, 50, (2), 495-498, (2011)
Nematollahzadeh A et al., Robust and selective nano cavities for protein separation: An interpenetrating polymer network modified hierarchically protein imprinted hydrogel.
Journal of Chromatography A, 1345, 154-163, (2014)
Liu H et al., Effect of anions on the polymerization and adsorption processes of Cu(II) ion-imprinted polymers.
Chemical Engineering Journal, 303, 348-358, (2016)
Schwark S et al., Monoclonal antibody capture from cell culture supernatants using epitope imprinted macroporous membranes.
RSC Advances, 6, (58), 53162-53169, (2016)
Tian C et al., DNA Nanostructures-Mediated Molecular Imprinting Lithography.
ACS Nano, 11, (1), 227-238, (2017)
Sun WF
Zheng H et al., Highly selective determination of rhodium(III) using silica gel surface-imprinted solid-phase extraction.International Journal of Environmental Analytical Chemistry, 91, (11), 1013-1023, (2011)
Sun WQ
Zhu ZK et al., Preparation of Molecularly Imprinted Polymer-Supported Gold Nanoparticles and Their Ability for Specific Substrate Recognition.Chinese Journal of Catalysis, 32, (9), 1508-1512, (2011)
Sun WQ et al., Molecularly imprinted polymer containing Fe(III) catalysts for specific substrate recognition.
Chinese Journal of Catalysis, 34, (8), 1589-1598, (2013)
Sun WW
Yang HP et al., Entrapment of alkaloids within silver: from enantioselective hydrogenation to chiral recognition.Chemical Communications, 50, (64), 8868-8870, (2014)
Sun WY
Guo N et al., Separation of nickel and cobalt in aqueous solution by Ni2+-imprinted chitosan beads: behavior and mechanism.Desalination and Water Treatment, 58, 93-105, (2017)
Guo N et al., Preparation and properties of a novel macro porous Ni2+-imprinted chitosan foam adsorbents for adsorption of nickel ions from aqueous solution.
Carbohydrate Polymers, 165, 376-383, (2017)
Sun X
Chen LG et al., Determination of fluoroquinolone antibiotics in environmental water samples based on magnetic molecularly imprinted polymer extraction followed by liquid chromatography-tandem mass spectrometry.Analytica Chimica Acta, 662, (1), 31-38, (2010)
Chen B et al., Proceeding, Molecularly imprinted polymer coated Au nanoparticle sensor for [alpha]-pinene vapor detection,
1-4, (2013)
Sun X et al., Thermoresponsive ketoprofen-imprinted monolith prepared in ionic liquid.
Analytical and Bioanalytical Chemistry, 406, (22), 5359-5367, (2014)
Sun X et al., Separation of Epigallocatechin Gallate from Natural Plant Extracts Using Crowding Agents-Assisted Imprinted Polymers.
Chromatographia, 78, (15-16), 995-1003, (2015)
Sun X et al., A miniaturized sorbent phase-based extraction device in the form of syringe filter holder using molecularly imprinted polymer as sorbent and its application to extract benzophenones.
Journal of Chromatography A, 1543, 1-13, (2018)
Sun X et al., Synthesis of molecularly imprinted fluorescent probe based on biomass-derived carbon quantum dots for detection of mesotrione.
Analytical and Bioanalytical Chemistry, 411, (21), 5519-5530, (2019)
Wei ZH et al., Improving affinity of imprinted monolithic polymer prepared in deep eutectic solvent by metallic pivot.
Journal of Chromatography A, 1602, 48-55, (2019)
Li LL et al., Molecularly imprinted carbon nanosheets supported TiO2: Strong selectivity and synergic adsorption-photocatalysis for antibiotics removal.
Journal of Hazardous Materials, 383, Article121211-(2020)
Sun X et al., Construction of ratiometric fluorescence MIPs probe for selective detection of tetracycline based on passion fruit peel carbon dots and europium.
Microchimica Acta, 188, (9), Article297-(2021)
Yang YY et al., Molecularly imprinted solid-phase extraction of Chikusetsu saponin IVa from Panacis majoris Rhizoma.
Journal of Separation Science, 44, (19), 3665-3676, (2021)
Sun XB
Duan YQ et al., A computational approach to design an electrochemical sensor and determination of acephate in aqueous solution based on a molecularly imprinted poly(o-phenylenediamine) film.Analytical Methods, 5, (22), 6449-6456, (2013)
Duan YQ et al., Determination of epigallocatechin-3-gallate with a high-efficiency electrochemical sensor based on a molecularly imprinted poly(o-phenylenediamine) film.
Journal of Applied Polymer Science, 129, (5), 2882-2890, (2013)
Lin Z et al., One-pot preparation of a molecularly imprinted hybrid monolithic capillary column for selective recognition and capture of lysozyme.
Journal of Chromatography A, 1284, 8-16, (2013)
Zhang HH et al., Selective Adsorption and Separation of (-)-Epigallocatechin Gallate (EGCG) based on Silica Gel Surface Molecularly Imprinted Polymers.
IERI Procedia, 5, 339-343, (2013)
Luo XP et al., Molecularly imprinted polymer prepared by Pickering emulsion polymerization for removal of acephate residues from contaminated waters.
Journal of Applied Polymer Science, 133, (15), ArticleNo43126-(2016)
Sun XH
Jin Y et al., Adsorption Isotherms of Tryptophan Enantiomer on D-Tryptophan Molecular Imprinted Polymer.Asian Journal of Chemistry, 24, (6), 2461-2466, (2012)
Wang PL et al., Advancements of molecularly imprinted polymers in the food safety field.
Analyst, 141, (12), 3540-3553, (2016)
Sun XJ
Tang B et al., Study on Preparation of Pirimicarb Molecularly Imprinted Polymers and Its Absorption Property.Journal of Shanghai Jiaotong University (Agricultural Science), 28, (3), 286-291, (2010)
Zhao DY et al., Preparation and characterization of a molecularly imprinted polymer by grafting on silica supports: a selective sorbent for patulin toxin.
Analytical and Bioanalytical Chemistry, 401, (7), 2259-2273, (2011)
Lin B et al., Electromembrane extraction of high level substances: A novel approach for selective recovery of templates in molecular imprinting.
Journal of Membrane Science, 568, 30-39, (2018)
Luo SQ et al., Molecular imprinting based on phosphorescent resonance energy transfer for malachite green detection in fishes and water.
New Journal of Chemistry, 42, (12), 9510-9516, (2018)
Luo SQ et al., Phosphorimetric determination of 4-nitrophenol using mesoporous molecular imprinting polymers containing manganese(II)-doped ZnS quantum dots.
Microchimica Acta, 186, (4), Article249-(2019)
Miao YM et al., -Phosphorescent Mesoporous Surface Imprinting Microspheres: Preparation and Application for Transferrin Recognition from Biological Fluids.
ACS Applied Materials & Interfaces, 11, (2), 2264-2272, (2019)
Sun XL
Sun XL et al., Determination of tetracyclines in food samples by molecularly imprinted monolithic column coupling with high performance liquid chromatography.Talanta, 79, (3), 926-934, (2009)
Sun XL et al., Room temperature ionic liquid-mediated molecularly imprinted polymer monolith for the selective recognition of quinolones in pork samples.
Journal of Separation Science, 33, (23-24), 3786-3793, (2010)
Jiang DL et al., Preparation and application of acrylamide molecularly imprinted composite solid-phase extraction materials.
Analytical Methods, 4, (11), 3760-3766, (2012)
Xu H et al., Application of the new recognition molecular sensors in the small toxins.
Science and Technology of Food Industry, 33, (18), 367-370, (2012)
Ji J et al., Synthesis of Acrylamide Molecularly Imprinted Polymers Immobilized on Graphite Oxide through Surface-Initiated Atom Transfer Radical Polymerization.
Analytical Letters, 46, (6), 969-981, (2013)
Sun XL et al., Molecularly Imprinted Layer-Coated Silica Gel Particles for Selective Solid-Phase Extraction of Pefloxacin and Enrofloxacin from Milk Samples.
Food Analytical Methods, 6, (5), 1361-1369, (2013)
Li Y et al., Identification of 3-chloro-1, 2-propandiol using molecularly imprinted composite solid-phase extraction materials.
Analytical and Bioanalytical Chemistry, 406, (25), 6319-6327, (2014)
Sun XL et al., Highly selective dummy molecularly imprinted polymer as a solid-phase extraction sorbent for five bisphenols in tap and river water.
Journal of Chromatography A, 1343, 33-41, (2014)
Sun XL et al., Development and Application of 3-Chloro-1, 2-propandiol Electrochemical Sensor Based on a Polyaminothiophenol Modified Molecularly Imprinted Film.
Journal of Agricultural and Food Chemistry, 62, (20), 4552-4557, (2014)
Sun XL et al., Novel dummy molecularly imprinted polymers for matrix solid-phase dispersion extraction of eight fluoroquinolones from fish samples.
Journal of Chromatography A, 1359, 1-7, (2014)
Sun XL et al., Highly class-selective solid-phase extraction of bisphenols in milk, sediment and human urine samples using well-designed dummy molecularly imprinted polymers.
Journal of Chromatography A, 1360, 9-16, (2014)
Wang QY et al., An electrochemical sensor based on molecularly imprinted membranes on a P-ATP-AuNP modified electrode for the determination of acrylamide.
Analytical Methods, 6, (16), 6452-6458, (2014)
Du X et al., A Facile Potential-Induced In-Situ Ion Removal Trick: Fabrication of High-Selective Ion-Imprinted Film for Trivalent Yttrium Ion Separation.
Electrochimica Acta, 176, 1313-1323, (2015)
Ji J et al., Electrochemical sensor based on molecularly imprinted film at Au nanoparticles-carbon nanotubes modified electrode for determination of cholesterol.
Biosensors and Bioelectronics, 66, 590-595, (2015)
Sun H et al., Solid-phase extraction based on a molecularly imprinted polymer for the selective determination of four benzophenones in tap and river water.
Journal of Separation Science, 38, (19), 3412-3420, (2015)
Sun JD et al., Electrochemical sensor for determination of tulathromycin built with molecularly imprinted polymer film.
Analytical and Bioanalytical Chemistry, 407, (7), 1951-1959, (2015)
Yang JJ et al., Preparation of molecularly imprinted polymers using dummy template and the applications in selective solid-phase extraction of seven bisphenols from human urine, bovine serum and beer samples.
Chinese Journal of Chromatography, 33, (5), 468-474, (2015)
Yang JJ et al., Molecularly imprinted polymer microspheres prepared by Pickering emulsion polymerization for selective solid-phase extraction of eight bisphenols from human urine samples.
Analytica Chimica Acta, 872, 35-45, (2015)
Yang JJ et al., Novel sponge-like molecularly imprinted mesoporous silica material for selective isolation of bisphenol A and its analogues from sediment extracts.
Analytica Chimica Acta, 853, 311-319, (2015)
Jiang H et al., Magnetic molecularly imprinted polymer nanoparticles based electrochemical sensor for the measurement of Gram-negative bacterial quorum signaling molecules (N-acyl-homoserine-lactones).
Biosensors and Bioelectronics, 75, 411-419, (2016)
Ma M et al., A disposable molecularly imprinted electrochemical sensor based on screen-printed electrode modified with ordered mesoporous carbon and gold nanoparticles for determination of ractopamine.
Journal of Electroanalytical Chemistry, 775, 171-178, (2016)
Sun H et al., Preparation of dummy-imprinted polymers by Pickering emulsion polymerization for the selective determination of seven bisphenols from sediment samples.
Journal of Separation Science, 39, (11), 2188-2195, (2016)
Wang LJ et al., Rapid determination of 15 [beta]2-agonists residues in swine urine by ultra performance liquid chromatography-tandem mass spectrometry coupled with molecularly imprinted solid phase extraction.
Chinese Journal of Chromatography, 34, (3), 240-248, (2016)
Yang YF et al., Determination of nine fluoroquinolone residues in chicken by ultra performance liquid chromatography-tandem mass spectrometry coupled with molecularly imprinted solid phase extraction.
Chinese Journal of Chromatography, 34, (11), 1063-1069, (2016)
Guo W et al., A novel molecularly imprinted electrochemical sensor modified with carbon dots, chitosan, gold nanoparticles for the determination of patulin.
Biosensors and Bioelectronics, 98, 299-304, (2017)
Sun XL et al., Photoelectrochemical sensor based on molecularly imprinted film modified hierarchical branched titanium dioxide nanorods for chlorpyrifos detection.
Sensors and Actuators B: Chemical, 251, 1-8, (2017)
de Dieu Habimana J et al., A class-specific artificial receptor-based on molecularly imprinted polymer-coated quantum dot centers for the detection of signaling molecules, N-acyl-homoserine lactones present in gram-negative bacteria.
Analytica Chimica Acta, 1031, 134-144, (2018)
Sun XL et al., Determination of nine bisphenols in sewage and sludge using dummy molecularly imprinted solid-phase extraction coupled with liquid chromatography tandem mass spectrometry.
Journal of Chromatography A, 1552, 10-16, (2018)
Shan XQ et al., A molecularly imprinted electrochemical sensor based on Au nanocross-chitosan composites for detection of paraquat.
Journal of Solid State Electrochemistry, 23, (4), 1211-1220, (2019)
Sun XL et al., Ultrasensitive Microfluidic Paper-Based Electrochemical Biosensor Based on Molecularly Imprinted Film and Boronate Affinity Sandwich Assay for Glycoprotein Detection.
ACS Applied Materials & Interfaces, 11, (17), 16198-16206, (2019)
Sun XL et al., Dummy molecularly imprinted solid phase extraction of climbazole from environmental water samples.
Talanta, 196, 47-53, (2019)
Sun XL et al., Preparation and evaluation of dummy-template molecularly imprinted polymer as a potential sorbent for solid phase extraction of imidazole fungicides from river water.
Journal of Chromatography A, 1586, 1-8, (2019)
Zhang XX et al., Dummy molecularly imprinted microspheres prepared by Pickering emulsion polymerization for matrix solid-phase dispersion extraction of three azole fungicides from fish samples.
Journal of Chromatography A, 1620, Article461013-(2020)
Sun XM
Gallagher M et al., Synthesis and evaluation of imprinted polymers for selective recognition of fusaric acid.Abstracts of Papers of the American Chemical Society, 236, (AGFD), 193-(2008)
Sun XP
Zhang SW et al., Determination of urinary 8-hydroxy-2'-deoxyguanosine by a combination of on-line molecularly imprinted monolithic solid phase microextraction with high performance liquid chromatography-ultraviolet detection.Journal of Separation Science, 36, (4), 752-757, (2013)
Sun XR
Shang HZ et al., Recent research development of molecular imprinting polymer.Modern Chemical Industry, 33, (12), 28-30, 32, (2013)
Shang HZ et al., Research progress of ion imprinted polymer.
Modern Chemical Industry, 33, (2), 20-23, 25, (2013)
He JN et al., Synthesis and application of ion imprinting polymer coated magnetic multi-walled carbon nanotubes for selective adsorption of nickel ion.
Applied Surface Science, 428, 110-117, (2018)
Zhang X et al., Preparation and properties of thermo-sensitive surface Pb(II) ion-imprinted polymers.
Colloids and Surfaces A: Physicochemical and Engineering Aspects, 577, 138-146, (2019)
Sun XT
Fan HT et al., Sol-gel derived ion-imprinted silica-supported organic-inorganic hybrid sorbent for selective removal of lead(II) from aqueous solution.Journal of Sol-Gel Science and Technology, 72, (1), 144-155, (2014)
Fan HT et al., Selective Removal of Lead(II) from Aqueous Solution by an Ion-Imprinted Silica Sorbent Functionalized with Chelating N-Donor Atoms.
Journal of Chemical & Engineering Data, 59, (6), 2106-2114, (2014)
Fan HT et al., Preparation, characterization, and selective adsorption for lead(II) of imprinted silica-supported organic-inorganic hybrid sorbent functionalized with chelating S, N-donor atoms.
Monatshefte für Chemie - Chemical Monthly, 146, (3), 459-463, (2015)
Li RH et al., Synthesis, characterization and application of dummy-template molecularly imprinted microspheres for 2, 4-d butyl ester.
Journal of Macromolecular Science, Part A, 54, (12), 931-937, (2017)
Liu HL et al., A fluorescent nanoprobe for 4-ethylguaiacol based on the use of a molecularly imprinted polymer doped with a covalent organic framework grafted onto carbon nanodots.
Microchimica Acta, 186, (3), Article182-(2019)
Yang YK et al., Fluorometric microplate-based dimethoate assay using CdSe/ZnS quantum dots coated with a molecularly imprinted polymer.
Microchimica Acta, 186, (8), Article589-(2019)
Sun XW
Wang SL et al., Molecularly imprinted polymers prepared from a single cross-linking functional monomer for solid-phase microextraction of estrogens from milk.Journal of Chromatography A, 1627, Article461400-(2020)
Sun XX
Dong Y et al., Experimental Investigation on the Molecularly Imprinted Polymer Receptor for Hydrochlorothiazide.Journal of Jiangsu Polytechnic University, 19, (4), 21-24, (2007)
Sun CJ et al., Graphical Evaluation of the Favorability of Adsorption Processes by Using Conditional Langmuir Constant.
Industrial & Engineering Chemistry Research, 52, (39), 14251-14260, (2013)
Sun XY
Liu B et al., Synthesis and Adsorbability of the Engram Polymer of Triphenyltin.Journal of Huaqiao University (Natural Science), 26, (1), 47-50, (2005)
Sun XY et al., Preparation and properties of dibutyltin molecularly imprinted polymer.
Chemical Journal of Chinese Universities, 27, (8), 1443-1447, (2006)
Wei J et al., Preparation and Properties of Molecular Imprinting Polymer for Chiral Separation of Proline.
Chinese Journal of Applied Chemistry, 23, (12), 1336-1341, (2006)
Zhou Z et al., Synthesis and Recognition Capability of Monobutyltin Molecularly Imprinted Polymer.
Journal of Huaqiao University (Natural Science), 28, (1), 38-41, (2007)
Yang Y et al., Preparation and Properties of Trichlorfon Molecularly Imprinted Polymers.
Journal of Huaqiao University (Natural Science), 30, (3), 284-288, (2009)
Chen YP et al., Preparation and Application of Urea Electrochemical Sensor Based on Chitosan Molecularly Imprinted Films.
Electroanalysis, 23, (6), 1454-1461, (2011)
Huang YX et al., Preparation and Electrochemical Characters of Parathion Molecule Imprinted Polymeric Sensors.
Chemical Research in Chinese Universities, 27, (1), 28-33, (2011)
Chen JJ et al., Development of a chitosan molecularly imprinted electrochemical sensor for trichlorphon determination.
International Journal of Environmental Analytical Chemistry, 92, (9), 1046-1058, (2012)
Lian HT et al., A urea electrochemical sensor based on molecularly imprinted chitosan film doping with CdS quantum dots.
Analytical Biochemistry, 426, (1), 40-46, (2012)
Lian HT et al., Graphene Doped Molecularly Imprinted Electrochemical Sensor for Uric Acid.
Analytical Letters, 45, (18), 2717-2727, (2012)
Liu B et al., Dopamine molecularly imprinted electrochemical sensor based on graphene - chitosan composite.
Electrochimica Acta, 75, (1), 108-114, (2012)
Ren C et al., Preparation of Hybrid Membrane Containing Mn-Doped ZnS Quantum Dots Capped by Imprinting Polymer and Their Application for Fluorescence Recognition of 4-Nitrophenol.
Chinese Journal of Analytical Chemistry, 40, (9), 1391-1396, (2012)
Sun ZH et al., Sensitivity Enhancement of Graphene Doped Molecular Imprinting Electrochemical Sensors.
Journal of Huaqiao University (Natural Science), 33, (4), 401-407, (2012)
Yin JF et al., Highly Selective Determination of Uric Acid in Human Serum by Molecularly Imprinted Electrochemical Sensor.
Journal of Huaqiao University (Natural Science), 33, (1), 33-38, (2012)
Zhang YH et al., Characterization and thermodynamic properties of Cu(II) imprinted chitosan crosslinked membrane.
Environmental Science, 33, (7), 2403-2409, (2012)
Liu B et al., Xanthine microsensor based on polypyrrole molecularly imprinted film modified carbon fiber microelectrodes.
Analytical Biochemistry, 440, (2), 220-226, (2013)
Wang XL et al., Response Performance of Molecular Imprinted Polymers Based on Electrochemical Microsensor for Xanthine.
Journal of Huaqiao University (Natural Science), 34, (6), 655-661, (2013)
Chen D et al., Preparation and Properties of Tyrosine Molecularly Imprinted Electrochemical Sensor.
Journal of Huaqiao University (Natural Science), 35, (4), 403-408, (2014)
Zhang LL et al., Imprinted-like biopolymeric micelles as efficient nanovehicles for curcumin delivery.
Colloids and Surfaces B: Biointerfaces, 123, 15-22, (2014)
Lin L et al., An l-dopa electrochemical sensor based on a graphene doped molecularly imprinted chitosan film.
Analytical Methods, 7, (4), 1387-1394, (2015)
Zhou J et al., Sensitive Artemisinin Electrochemical Sensor Based on Polymerized Molecularly Imprinted Membranes.
International Journal of Electrochemical Science, 11, 3114-3122, (2016)
Chen L et al., Sensitive detection of L-5-hydroxytryptophan based on molecularly imprinted polymers with graphene amplification.
Analytical Biochemistry, 526, 58-65, (2017)
Ma RT et al., Improved surface imprinting based on a simplified mass-transfer process for the selective extraction of IgG.
Journal of Materials Chemistry B, 5, (36), 7512-7518, (2017)
Sun XY et al., Erratum to: Boronate-affinity based magnetic molecularly imprinted nanoparticles for the efficient extraction of the model glycoprotein horseradish peroxidase.
Microchimica Acta, 184, (9), 3637-3637, (2017)
Sun XY et al., Boronate-affinity based magnetic molecularly imprinted nanoparticles for the efficient extraction of the model glycoprotein horseradish peroxidase.
Microchimica Acta, 184, (10), 3729-3737, (2017)
Guo P et al., Dummy-surface molecularly imprinted polymers as a sorbent of micro-solid-phase extraction combined with dispersive liquid-liquid microextraction for determination of five 2-phenylpropionic acid NSAIDs in aquatic environmental samples.
Analytical and Bioanalytical Chemistry, 410, (2), 373-389, (2018)
Sun XY et al., Magnetic boronate modified molecularly imprinted polymers on magnetite microspheres modified with porous TiO2 (Fe3O4@pTiO2@MIP) with enhanced adsorption capacity for glycoproteins and with wide operational pH range.
Microchimica Acta, 185, (12), Article565-(2018)
Sun XY et al., Synthesis of magnetic molecularly imprinted nanoparticles with multiple recognition sites for the simultaneous and selective capture of two glycoproteins.
Journal of Materials Chemistry B, 6, (4), 688-696, (2018)
Liu B et al., Differential potential ratiometric sensing platform for enantiorecognition of chiral drugs.
Analytical Biochemistry, 574, 39-45, (2019)
Ma RT et al., A fluorescent molecularly imprinted device for the on-line analysis of AFP in human serum.
Journal of Materials Chemistry B, 7, (40), 6187-6194, (2019)
Sun Y
Wang YJ et al., Progres in the study of molecular imprinted polymers.Ion Exchange and Adsorption, 17, (4), 360-368, (2001)
Wang H et al., Preparation and characterization of theophylline crystal-imprinted polymers.
Acta Polymerica Sinica, 1, (2), 288-291, (2004)
Wang H et al., Studies on protein imprinted polymers.
Acta Polymerica Sinica, (4), 610-613, (2004)
Wang H et al., Advances in Molecularly Imprinted Polymers:From Small Molecules Towards Biological Macromolecules.
Chinese Polymer Bulletin, (1), 86-93, (2005)
Wang H et al., Preparation and Application of Molecularly Imprinted Polymers.
Chemical Industry and Engineering, 22, (5), 367-370, (2005)
Han RF et al., Separation/enrichment of active natural low content protein using protein imprinted polymer.
Journal of Chromatography B, 873, (1), 113-118, (2008)
Long Y et al., Molecular imprinted polymer with positively charged assistant recognition polymer chains for adsorption/enrichment of low content target protein.
Chinese Science Bulletin, 53, (17), 2617-2623, (2008)
Long Y et al., Two-step purification of low-content cellular protein using protein-imprinted polymers.
Analytical Biochemistry, 380, (2), 268-275, (2008)
Liu Y et al., Application of Molecular Imprinting and Fluorescence Analysis Techniques in Explosive Detection.
Progress In Chemistry, 21, (12), 2712-2717, (2009)
Sun Y et al., Polymerized organogel particles formed and imprinted by chiral gelators and their selective adsorption for phenylalanine racemates.
Soft Matter, 7, (2), 348-350, (2011)
Huangfu FY et al., Preparation and Imprinted Modes of Norfloxacin-Zinc(II) Imprinted Polymer.
Polymer Materials Science and Engineering, 28, (9), 166-170, (2012)
Sun Y et al., Synthesis of Norfloxacin-Zinc (II) Imprinted Polymer by Precipitation Polymerization and Study on Its Imprinting Form.
Acta Chimica Sinica, 70, (14), 1569-1575, (2012)
Sun Y et al., Study on Molecular Recognition Mechanism of Chiral (S)-Ibuprofen's Hydrogen Bonds Self-assembly Imprinted Polymer.
Chemical Journal of Chinese Universities, 33, (4), 838-842, (2012)
Huangfu FY et al., Synthesis of molecularly imprinted polymers for chiral (S)-ibuprofen and their molecular recognition mechanism.
Polymer-Korea, 37, (3), 288-293, (2013)
Huangfu FY et al., Preparation and Properties of the Norfloxacin-Zinc (II) Molecularly Imprinted Membrane Chromatography.
Polymer Materials Science and Engineering, 29, (6), 129-132, (2013)
Huangfu FY et al., Preparation of Molecularly Imprinted Polymer Based on Combinatorial Imprinted for Recognition of Norfloxacin.
Polymer-Plastics Technology and Engineering, 52, (10), 957-963, (2013)
Fan HT et al., Selective removal of antimony(III) from aqueous solution using antimony(III)-imprinted organic-inorganic hybrid sorbents by combination of surface imprinting technique with sol-gel process.
Chemical Engineering Journal, 258, 146-156, (2014)
Fan HT et al., Selective adsorption of antimony(III) from aqueous solution by ion-imprinted organic-inorganic hybrid sorbent: Kinetics, isotherms and thermodynamics.
Journal of the Taiwan Institute of Chemical Engineers, 45, (5), 2640-2648, (2014)
Li W et al., Fabrication of Surface Protein-Imprinted Nanoparticles Using a Metal Chelating Monomer via Aqueous Precipitation Polymerization.
ACS Applied Materials & Interfaces, 7, (49), 27188-27196, (2015)
Liu MX et al., Selective adsorption of lead(II) from aqueous solution by ion-imprinted PEI-functionalized silica sorbent: studies on equilibrium isotherm, kinetics, and thermodynamics.
Desalination and Water Treatment, 57, (7), 3270-3282, (2016)
Qu X et al., Selective extraction of bioactive glycoprotein in neutral environment through Concanavalin A mediated template immobilization and dopamine surface imprinting.
RSC Advances, 6, (89), 86455-86463, (2016)
Sun Y et al., Preparation of hemoglobin (Hb) imprinted polymer by Hb catalyzed eATRP and its application in biosensor.
Biosensors and Bioelectronics, 77, 894-900, (2016)
Sun Y et al., Preparation of hemoglobin imprinted polymers based on graphene and protein removal assisted by electric potential.
RSC Advances, 6, (66), 61897-61905, (2016)
Ashley J et al., Quantitative Detection of Trace Level Cloxacillin in Food Samples Using Magnetic Molecularly Imprinted Polymer Extraction and Surface-Enhanced Raman Spectroscopy Nanopillars.
Analytical Chemistry, 89, (21), 11484-11490, (2017)
Ashley J et al., Molecularly imprinted polymers for sample preparation and biosensing in food analysis: Progress and perspectives.
Biosensors and Bioelectronics, 91, 606-615, (2017)
Sun Y et al., Application of molecularly imprinted polymers for the analysis of polycyclic aromatic hydrocarbons in lipid matrix-based biological samples.
Analytical and Bioanalytical Chemistry, 409, (29), 6851-6860, (2017)
Sun Y et al., Interconnectivity of macroporous molecularly imprinted polymers fabricated by hydroxyapatite-stabilized Pickering high internal phase emulsions-hydrogels for the selective recognition of protein.
Colloids and Surfaces B: Biointerfaces, 155, 142-149, (2017)
Ashley J et al., Dispersive solid-phase imprinting of proteins for the production of plastic antibodies.
Chemical Communications, 54, (27), 3355-3358, (2018)
Ashley J et al., A multifunctional molecularly imprinted polymer-based biosensor for direct detection of doxycycline in food samples.
Talanta, 182, 49-54, (2018)
Feng XT et al., Fluorometric determination of doxycycline based on the use of carbon quantum dots incorporated into a molecularly imprinted polymer.
Microchimica Acta, 185, (11), ArticleNo500-(2018)
Feng XT et al., Molecularly imprinted nanoparticles for inhibiting ribonuclease in reverse transcriptase polymerase chain reaction.
Analyst, 143, (12), 2750-2754, (2018)
Feng XT et al., A facile molecularly imprinted polymer-based fluorometric assay for detection of histamine.
RSC Advances, 8, (5), 2365-2372, (2018)
Wang YM et al., Synthesis of thermo-responsive bovine hemoglobin imprinted nanoparticles by combining ionic liquid immobilization with aqueous precipitation polymerization.
Journal of Separation Science, 41, (3), 765-773, (2018)
Yu XL et al., Magnetic molecularly imprinted polymer nanoparticles for separating aromatic amines from azo dyes - Synthesis, characterization and application.
Separation and Purification Technology, 204, 213-219, (2018)
Zhang B et al., Proceeding, High-peformance bimetallic SPR sensor for ciprofloxacin based on molecularly imprinted polymer,
ArticleNo107280N, (2018)
Zhou TC et al., Detection of hemoglobin using hybrid molecularly imprinted polymers/carbon quantum dots-based nanobiosensor prepared from surfactant-free Pickering emulsion.
Talanta, 190, 443-449, (2018)
Zhou TC et al., Fluorescent Nanosensor Based on Molecularly Imprinted Polymers Coated on Graphene Quantum Dots for Fast Detection of Antibiotics.
Biosensors, 8, (3), ArticleNo82-(2018)
Sun Y et al., Fabrication of a thermal responsive hemoglobin (Hb) biosensor via Hb-catalyzed eATRP on the surface of ZnO nanoflowers.
Journal of Electroanalytical Chemistry, 848, Article113346-(2019)
Yang X et al., Controlled synthesis of PEGylated surface protein-imprinted nanoparticles.
Analyst, 144, (18), 5439-5448, (2019)
Naseri M et al., The Use of Aptamers and Molecularly Imprinted Polymers in Biosensors for Environmental Monitoring: A Tale of Two Receptors.
Chemosensors, 8, (2), ArticleNo32-(2020)
Sun Y et al., Preparation of hemoglobin (Hb)-imprinted poly(ionic liquid)s via Hb-catalyzed eATRP on gold nanodendrites.
Analytical and Bioanalytical Chemistry, 412, (4), 983-991, (2020)
Wang T et al., Camptothecin-imprinted polymer microspheres with rosin-based cross-linker for separation of camptothecin from Camptotheca acuminata fruit.
Separation and Purification Technology, 234, Article116085-(2020)
Yang YP et al., Mesoporous yolk-shell structure molecularly imprinted magnetic polymers for the extraction and detection of 17[beta]-estradiol.
Analytical Methods, 12, (4), 507-513, (2020)
Bai R et al., Preparation of IgG imprinted polymers by metal-free visible-light-induced ATRP and its application in biosensor.
Talanta, 226, Article122160-(2021)
Chen ZC et al., Structure, adsorption and separation comparison between the thermosensitive block segment polymer modified ReO4- ion imprinted polymer and traditional ReO4- ion imprinted polymer.
Reactive and Functional Polymers, 164, Article104929-(2021)
Liu L et al., Electrochemical sensor based on molecularly imprinted film for high sensitivity detection of clenbuterol prepared using sol-gel method.
International Journal of Electrochemical Science, 16, Article210411-(2021)
Sun Y et al., Preparation and evaluation of photo-responsive hollow SnO2 molecularly imprinted polymers for the selective recognition of kaempferol.
Analytical Methods, 13, (7), 925-932, (2021)
Sun Y et al., Adsorption properties and recognition mechanisms of a novel surface imprinted polymer for selective removal of Cu(II)-citrate complexes.
Journal of Hazardous Materials, 424, Article127735-(2022)
Sun YB
Zhong XL et al., A new hydrothermal cross-linking ion-imprinted chitosan for high-efficiency uranium removal.Journal of Radioanalytical and Nuclear Chemistry, 322, (2), 901-911, (2019)
Sun YD
Li N et al., Electrochemical sensor based on dual-template molecularly imprinted polymer and nanoporous gold leaf modified electrode for simultaneous determination of dopamine and uric acid.Microchimica Acta, 187, (9), Article496-(2020)
Zhao JH et al., A photoelectrochemical sensor based on Z-Scheme TiO2@Au@CdS and molecularly imprinted polymer for uric acid detection.
Microchimica Acta, 188, (6), Article188-(2021)
Sun YF
Sun YF et al., Novel three-dimensional electrochemical sensor with dual signal amplification based on MoS2 nanosheets and high-conductive NH2-MWCNT@COF for sulfamerazine determination.Sensors and Actuators B: Chemical, 281, 107-114, (2019)
Sun YF et al., A selective molecularly imprinted electrochemical sensor with GO@COF signal amplification for the simultaneous determination of sulfadiazine and acetaminophen.
Sensors and Actuators B: Chemical, 300, Article126993-(2019)
Sun YF et al., Ultrasensitive determination of sulfathiazole using a molecularly imprinted electrochemical sensor with CuS microflowers as an electron transfer probe and Au@COF for signal amplification.
Food Chemistry, 332, Article127376-(2020)
Sun YG
Hua F et al., Polymer imprint lithography with molecular-scale resolution.Nano Letters, 4, (12), 2467-2471, (2004)
Sun YH
Shi ZL et al., Molecular imprinted polymer-based chemiluminescence for the determination of Sudan I.Journal of Instrumental Analysis, 27, (10), 1071-1074, (2008)
Shi ZL et al., A high sensitive and fully reversible chemiluminescence sensor based on molecularly imprinted polymers for determination of sulfadiazine in cattle and chicken tissues.
Chinese Journal of Analysis Laboratory, 31, (4), 110-114, (2012)
Xu SX et al., Microwave-assisted preparation of monolithic molecularly imprinted polymeric fibers for solid phase microextraction.
Analyst, 138, (10), 2982-2987, (2013)
Zhang XF et al., Sensitive detection of bisphenol A in complex samples by in-column molecularly imprinted solid-phase extraction coupled with capillary electrophoresis.
Microchemical Journal, 121, 1-5, (2015)
Li YQ et al., Graphene oxide as a sacrificial material for fabricating molecularly imprinted polymers via Pickering emulsion polymerization.
RSC Advances, 6, (78), 74654-74661, (2016)
Sun YH et al., Bio-inspired magnetic molecularly imprinted polymers based on Pickering emulsions for selective protein recognition.
New Journal of Chemistry, 40, (10), 8745-8752, (2016)
Sun YH et al., Nanoscale trifunctional bovine hemoglobin for fabricating molecularly imprinted polydopamine via Pickering emulsions-hydrogels polymerization.
Colloids and Surfaces B: Biointerfaces, 159, 131-138, (2017)
Sun YH et al., Molecularly imprinted polymers fabricated via Pickering emulsions stabilized solely by food-grade casein colloidal nanoparticles for selective protein recognition.
Analytical and Bioanalytical Chemistry, 410, (13), 3133-3143, (2018)
Sun YH et al., Molecularly imprinted polymers fabricated using Janus particle-stabilized Pickering emulsions and charged monomer polymerization.
New Journal of Chemistry, 42, (9), 7355-7363, (2018)
Xu JF et al., Novel application of amphiphilic block copolymers in Pickering emulsions and selective recognition of proteins.
New Journal of Chemistry, 42, (4), 3028-3034, (2018)
Sun YH et al., Molecularly imprinted polymers fabricated by Pickering emulsion polymerization for the selective adsorption and separation of quercetin from Spina Gleditsiae.
New Journal of Chemistry, 43, (37), 14747-14755, (2019)
Sun YJ
Sun YJ et al., Recent advances and perspective in the study of the molecular imprinting of proteins.Acta Pharmaceutica Sinica, 46, (2), 132-137, (2011)
Duan FF et al., Preparation and Evaluation of Water-Compatible Surface Molecularly Imprinted Polymers for Selective Adsorption of Bisphenol A from Aqueous Solution.
Industrial & Engineering Chemistry Research, 53, (37), 14291-14300, (2014)
Han JY et al., Preliminary investigations into surface molecularly imprinted nanoparticles for Helicobacter pylori eradication.
Acta Pharmaceutica Sinica B, 5, (6), 577-582, (2015)
Wang YX et al., Preparation of lysozyme imprinted magnetic nanoparticles via surface graft copolymerization.
Journal of Biomaterials Science-Polymer Edition, 26, (11), 644-656, (2015)
Sun YK
Ji XZ et al., Study on adsorption of Th(IV) using surface modified dibenzoylmethane molecular imprinted polymer.Journal of Radioanalytical and Nuclear Chemistry, 295, (1), 265-270, (2013)
Zhang CJ et al., Kinetics of photocatalytic degradation of atrazine on molecularly imprinted titania film.
Asia-Pacific Journal of Chemical Engineering, 8, (3), 318-322, (2013)
Jia M et al., Improvement of imprinting effect of ionic liquid molecularly imprinted polymers by use of a molecular crowding agent.
Analytical and Bioanalytical Chemistry, 410, (2), 595-604, (2018)
Sun YK et al., A strategy of utilizing Zn(II) as metallic pivot in room temperature ionic liquid to prepare molecularly imprinted polymers for compound with intramolecular hydrogen bonds.
Analytical and Bioanalytical Chemistry, 410, (2), 349-359, (2018)
Sun YK et al., Cost-effective imprinting to minimize consumption of template in room-temperature ionic liquid for fast purification of chlorogenic acid from the extract of E. ulmoides leaves.
Analytical and Bioanalytical Chemistry, 411, (6), 1261-1271, (2019)
Yang J et al., Improving performance of molecularly imprinted polymers prepared with template of low purity utilizing the strategy of macromolecular crowding.
Journal of Chromatography A, 1624, Article461155-(2020)
Zhang X et al., Improving imprinting effect by reducing sites embedding: Selective extraction of 1, 2, 3, 4, 6-penta-O-galloyl-[beta]-d-glucose from Paeonia lactiflora Pall by hydrophilic molecularly imprinted polymers based on macromonomer and metal ion pivot.
Microchemical Journal, 158, Article105140-(2020)
Sun YL
Sun YL, Molecularly imprinted polymer for 2, 4-dichlorophenoxyacetic acid prepared by a sol-gel method.Journal of Chemical Sciences, 126, (4), 1005-1011, (2014)
Duan HM et al., An ultrasensitive lysozyme chemiluminescence biosensor based on surface molecular imprinting using ionic liquid modified magnetic graphene oxide/[beta]-cyclodextrin as supporting material.
Analytica Chimica Acta, 918, 89-96, (2016)
Duan HM et al., An efficient Horseradish peroxidase chemiluminescence biosensor with surface imprinting based on phenylboronic acid functionalized ionic liquid@magnetic graphene oxide.
Sensors and Actuators B: Chemical, 236, 44-51, (2016)
Fei JJ et al., Preparation of a novel amino functionalized ion-imprinted hybrid monolithic column for the selective extraction of trace copper followed by ICP-MS detection.
Analytica Chimica Acta, 1162, Article338477-(2021)
Sun YM
Xu XY et al., Spectroscopic Analysis of Molecular Recognition of Sudan I Molecularly Imprinted Polymer.Journal of Analytical Science, 27, (5), 661-664, (2012)
Cai LG et al., Preparation and Characterization of Porous Molecularly Imprinted Composite Membrane with Sudan I as the Template.
Food Science, 34, (18), 70-74, (2013)
Xu XY et al., Molecularly imprinted polymer based surface plasmon resonance sensors for detection of Sudan dyes.
Analytical Methods, 6, (11), 3751-3757, (2014)
Tang XJ et al., A novel Cd2+-imprinted chitosan-based composite membrane for Cd2+ removal from aqueous solution.
Materials Letters, 198, 121-123, (2017)
Wu YL et al., Dual-imprinted mixed matrix membranes for selective recognition and separation: A synergetic imprinting strategy based on complex initiation system.
Journal of Colloid and Interface Science, 606, 87-100, (2022)
Sun YP
Li XZ et al., Progress in solid-liquid extraction resin for separation of rare earth elements.Journal of Rare Earths, 23, (Supplement 1), 581-592, (2005)
Li XZ et al., Evaluation of ionic imprinted polymers by electrochemical recognition of rare earth ions.
Hydrometallurgy, 87, (1-2), 63-71, (2007)
Sun YQ
Yao QZ et al., Synthesis of TiO2 Hybrid Molecular Imprinted Polymer for Ethofumesate Linked by Silane Coupling Agent.Journal of Inorganic and Organometallic Polymers and Materials, 18, (4), 477-484, (2008)
Sun YX
Liu L et al., Electrochemical Sensor Based on Molecularly Imprinted Polymer Film Prepared with Functional Abietic-Type Acids as Cross-Linker for the Determination of Quinine.Electroanalysis, 24, (7), 1647-1654, (2012)
Li YT et al., Electrochemical fabrication of reduced MoS2-based portable molecular imprinting nanoprobe for selective SERS determination of theophylline.
Microchimica Acta, 187, (4), Article203-(2020)
Sun YY
Yan HY et al., Ionic liquid molecularly imprinted polymers for application in pipette-tip solid-phase extraction coupled with gas chromatography for rapid screening of dicofol in celery.Journal of Chromatography A, 1361, 53-59, (2014)
Gan T et al., Highly sensitive and molecular selective electrochemical sensing of 6-benzylaminopurine with multiwall carbon nanotube@SnS2-assisted signal amplification.
Journal of Applied Electrochemistry, 46, (3), 389-401, (2016)
Li CG et al., Purification and identification of an actinomycin D analogue from actinomycetes associated with Ganoderma applanatum via magnetic molecularly imprinted polymers and tandem mass spectrometry.
Food and Chemical Toxicology, 119, 150-160, (2018)
Sun YZ
Bai R et al., Preparation of IgG imprinted polymers by metal-free visible-light-induced ATRP and its application in biosensor.Talanta, 226, Article122160-(2021)
Sun Z
Sun Z et al., Selective trace analysis of diclofenac in surface and wastewater samples using solid-phase extraction with a new molecularly imprinted polymer.Analytica Chimica Acta, 620, (1-2), 73-81, (2008)
Sai N et al., Molecular imprinted opal closest-packing photonic crystals for the detection of trace 17[beta]-estradiol in aqueous solution.
Talanta, 144, 157-162, (2015)
Sai N et al., A novel enrichment imprinted crystalline colloidal array for the ultratrace detection of chloramphenicol.
Talanta, 161, 1-7, (2016)
Tian Y et al., Preparation of Ampicillin Surface Molecularly Imprinted Polymers for Its Selective Recognition of Ampicillin in Eggs Samples.
International Journal of Analytical Chemistry, 2018, ArticleID5897381-(2018)
Zhou YQ et al., Preparation of Imazethapyr Surface Molecularly Imprinted Polymers for Its Selective Recognition of Imazethapyr in Soil Samples.
Journal of Analytical Methods in Chemistry, 2018, ArticleID7535417-(2018)
Li JM et al., Preparation of restricted access media molecularly imprinted polymers for efficient separation and enrichment ofloxacin in bovine serum samples.
Journal of Separation Science, 42, (15), 2491-2499, (2019)
Sai N et al., A novel photonic sensor for the detection of chloramphenicol.
Arabian Journal of Chemistry, 12, (8), 4398-4406, (2019)
Sun Z et al., A restricted access molecularly imprinted polymer coating on metal-organic frameworks for solid-phase extraction of ofloxacin and enrofloxacin from bovine serum.
RSC Advances, 9, (48), 27953-27960, (2019)
Wang X et al., Preparation of Ofloxacin-Restricted Access Media-Molecularly Imprinted Polymers for Its Selective Recognition of Ofloxacin in Milk Samples.
Chromatographia, 82, (7), 1041-1050, (2019)
Zhao SW et al., Molecularly imprinted polymer coating on metal-organic frameworks for solid-phase extraction of fluoroquinolones from water.
Journal of Separation Science, 42, (21), 3302-3310, (2019)
Li JM et al., Restricted access media-imprinted nanomaterials based on a metal-organic framework for highly selective extraction of fluoroquinolones in milk and river water.
Journal of Chromatography A, 1626, Article461364-(2020)
Zhao SW et al., Novel metal-organic framework combining with restricted access molecularly imprinted nanomaterials for solid-phase extraction of gatifloxacin from bovine serum.
Journal of Chromatography B, 1157, Article122338-(2020)
Zhou YQ et al., Restricted access magnetic imprinted microspheres for directly selective extraction of tetracycline veterinary drugs from complex samples.
Journal of Chromatography A, 1613, Article460684-(2020)
Zhao YJ et al., A novel molecularly imprinted polymer electrochemiluminescence sensor based on Fe2O3@Ru(bpy)32+ for determination of clenbuterol.
Sensors and Actuators B: Chemical, 350, Article130822-(2022)
Sun ZA
Sun ZA et al., Preparation of magnetic surface molecularly imprinted polymers for melamine and its application in milk samples.Chinese Journal of Chromatography, 36, (8), 716-722, (2018)
Sun ZC
Sun ZC et al., Preparation and Characterization of Vanillin Molecularly Imprinted Polymer Microspheres.Modern Food Science and Technology, 31, (9), 132-137, (2015)
Si HT et al., Synthesis of magnetic molecularly imprinted nanoparticles and their selective adsorption for dibenzothiophene.
Journal of Functional Materials, 47, (S1), 188-192, (2016)
Sun ZC et al., Preparation of Cadmium(II) Ion Imprinted Polymer Microspheres by Seedball Swelling Suspension Polymerization.
Chinese Journal of Materials Research, 30, (9), 669-674, (2016)
Sun ZH
Lian HT et al., Graphene Doped Molecularly Imprinted Electrochemical Sensor for Uric Acid.Analytical Letters, 45, (18), 2717-2727, (2012)
Sun ZH et al., Sensitivity Enhancement of Graphene Doped Molecular Imprinting Electrochemical Sensors.
Journal of Huaqiao University (Natural Science), 33, (4), 401-407, (2012)
Sun ZJ
Niu QY et al., Preparation of Matrine-Imprinted Material Using Novel Surface-Molecular Imprinting Method and Its Molecule Recognition Character.Acta Chimica Sinica, 68, (24), 2600-2608, (2010)
Sun ZL
Sun Q et al., Determination of Parathion-methyl in Vegetables by Fluorescent-Labeled Molecular Imprinted Polymer.Chinese Journal of Chemistry, 29, (10), 2134-2140, (2011)
Sun ZM
Zhang YL et al., Molecularly imprinted photonic crystals for the direct label-free distinguishing of l-proline and d-proline.Physical Chemistry Chemical Physics, 15, (40), 17250-17256, (2013)
Sun ZP
Li YC et al., Novel Electrochemical Sensing Platform Based on a Molecularly Imprinted Polymer Decorated 3D Nanoporous Nickel Skeleton for Ultrasensitive and Selective Determination of Metronidazole.ACS Applied Materials & Interfaces, 7, (28), 15474-15480, (2015)
Sun ZS
Dong SJ et al., Chloride chemical sensor based on an organic conducting polypyrrole polymer.Analyst, 113, (10), 1525-1528, (1988)
Sun ZY
Liu CB et al., Application progress of molecular imprinting techniques in the tobacco industry.Applied Chemical Industry, 39, (9), 1401-1404, 418, (2010)
Zhang XH et al., Novel Biomimic Crystalline Colloidal Array for Fast Detection of Trace Parathion.
ACS Sensors, 2, (7), 1013-1019, (2017)
Sunayama H
Sunayama H et al., Fluorescent protein recognition polymer thin films capable of selective signal transduction of target binding events prepared by molecular imprinting with a post-imprinting treatment.Biosensors and Bioelectronics, 26, (2), 458-462, (2010)
Sunayama H et al., Molecularly imprinted materials: Applications to fluorescent sensing systems.
Kobunshi, 61, (6), 406-409, (2012)
Inoue Y et al., Fluorescent molecularly imprinted polymer thin films for specific protein detection prepared with dansyl ethylenediamine-conjugated O-acryloyl l-hydroxyproline.
Biosensors and Bioelectronics, 48, 113-119, (2013)
Suga Y et al., Molecularly imprinted polymers prepared using protein-conjugated cleavable monomers followed by site-specific post-imprinting introduction of fluorescent reporter molecules.
Chemical Communications, 49, (76), 8450-8452, (2013)
Sunayama H et al., Molecularly Imprinted Protein Recognition Cavities Bearing Exchangeable Binding Sites for Postimprinting Site-Directed Introduction of Reporter Molecules for Readout of Binding Events.
ACS Applied Materials & Interfaces, 6, (22), 20003-20009, (2014)
Sunayama H et al., Fluorescent protein-imprinted polymers capable of signal transduction of specific binding events prepared by a site-directed two-step post-imprinting modification.
Chemical Communications, 50, (11), 1347-1349, (2014)
Takeuchi T et al., Conjugated-Protein Mimics with Molecularly Imprinted Reconstructible and Transformable Regions that are Assembled Using Space-Filling Prosthetic Groups.
Angewandte Chemie International Edition, 53, (47), 12765-12770, (2014)
Takeuchi T et al., Book chapter, Molecularly Imprinted Polymers,
In: Encyclopedia of Polymeric Nanomaterials, Kobayashi S, Müllen K (Eds.) Springer: Berlin, Heidelberg, 1-5, (2014)
Taguchi H et al., Preparation of molecularly imprinted polymers for the recognition of proteins via the generation of peptide-fragment binding sites by semi-covalent imprinting and enzymatic digestion.
Analyst, 140, (5), 1448-1452, (2015)
Takeuchi T et al., Book chapter, Molecularly Imprinted Polymers,
In: Encyclopedia of Polymeric Nanomaterials, Kobayashi S, Müllen K (Eds.) Springer: Berlin, Heidelberg, 1291-1295, (2015)
Takeuchi T et al., Book chapter, Post-imprinting and In-Cavity Functionalization,
In: Molecularly Imprinted Polymers in Biotechnology, Mattiasson B, Ye L (Eds.) Springer: Berlin, Heidelberg, Ch. 4, 95-106, (2015)
Horikawa R et al., A Programmable Signaling Molecular Recognition Nanocavity Prepared by Molecular Imprinting and Post-Imprinting Modifications.
Angewandte Chemie International Edition, 55, (42), 13023-13027, (2016)
Murase N et al., Molecularly imprinted polymers bearing spiropyran-based photoresponsive binding sites capable of photo-triggered switching for molecular recognition activity.
Journal of Polymer Science Part B: Polymer Physics, 54, (16), 1637-1644, (2016)
Sunayama H et al., Fluorescence signaling molecularly imprinted polymers for antibiotics prepared via site-directed post-imprinting introduction of plural fluorescent reporters within the recognition cavity.
Journal of Materials Chemistry B, 4, (44), 7138-7145, (2016)
Takeuchi T et al., Preparation of Multi-Functional Molecularly Imprinted Polymer Receptors via Post-Imprinting Modifications.
Kobunshi Ronbunshu, 73, (1), 19-29, (2016)
Nakai S et al., Regioselective Molecularly Imprinted Reaction Field for [4 + 4] Photocyclodimerization of 2-Anthracenecarboxylic Acid.
Langmuir, 33, (9), 2103-2108, (2017)
Suda N et al., Oriented, molecularly imprinted cavities with dual binding sites for highly sensitive and selective recognition of cortisol.
Royal Society Open Science, 4, (8), ArticleNo170300-(2017)
Mori K et al., A Pretreatment-Free, Polymer-Based Platform Prepared by Molecular Imprinting and Post-Imprinting Modifications for Sensing Intact Exosomes.
Angewandte Chemie International Edition, 58, (6), 1612-1615, (2018)
Sunayama H et al., Regulation of protein-binding activities of molecularly imprinted polymers via post-imprinting modifications to exchange functional groups within the imprinted cavity.
Journal of Molecular Recognition, 31, (3), ArticleNoe2633-(2018)
Takeuchi T et al., Beyond natural antibodies - a new generation of synthetic antibodies created by post-imprinting modification of molecularly imprinted polymers.
Chemical Communications, 54, (49), 6243-6251, (2018)
Morishige T et al., Post-Imprinting-Modified Molecularly Imprinted Nanocavities with Two Synergetic, Orthogonal, Glycoprotein-Binding Sites to Transduce Binding Events into Fluorescence Changes.
ChemNanoMat, 5, (2), 224-229, (2019)
Saeki T et al., Orientationally Fabricated Zwitterionic Molecularly Imprinted Nanocavities for Highly Sensitive Glycoprotein Recognition.
Langmuir, 35, (5), 1320-1326, (2019)
Cheubong C et al., Molecularly Imprinted Nanogels Capable of Porcine Serum Albumin Detection in Raw Meat Extract for Halal Food Control.
Analytical Chemistry, 92, (9), 6401-6407, (2020)
Cheubong C et al., Molecularly imprinted polymer nanogel-based fluorescence sensing of pork contamination in halal meat extracts.
Biosensors and Bioelectronics, 172, Article112775-(2021)
Ikegami T et al., In Silico Characterization of Binding Properties on a Molecularly Imprinted Polymer.
Bunseki Kagaku, 70, (3), 111-124, (2021)
Sunayama H et al., Protein-imprinted polymer films prepared via cavity-selective multi-step post-imprinting modifications for highly selective protein recognition.
Analytical and Bioanalytical Chemistry, 413, (24), 6183-6189, (2021)
Sunayama H et al., Multi-Functional Nanocavities Fabricated Using Molecular Imprinting and Post-Imprinting Modifications for Efficient Biomarker Detection.
Chromatography, 42, (2), 73-81, (2021)
Sunayama H et al., Simultaneous Detection of Two Tumor Marker Proteins Using Dual-Colored Signaling Molecularly Imprinted Polymers Prepared via Multi-Step Post-Imprinting Modifications.
Bulletin of the Chemical Society of Japan, 94, (2), 525-531, (2021)
Sundaresan V
Arnold FH et al., Molecular recognition based on metal-ion patterning and template polymerization.Abstracts of Papers of the American Chemical Society, 208, (OLY), 469-469, (1994)
Chen G et al., A glucose sensing polymer.
Abstracts of Papers of the American Chemical Society, 213, (ANYL), 176-176, (1997)
Chen GH et al., A glucose-sensing polymer.
Abstracts of Papers of the American Chemical Society, 213, (MSE), 234-234, (1997)
Chen GH et al., A glucose-sensing polymer.
Nature Biotechnology, 15, (4), 354-357, (1997)
Arnold FH et al., Book chapter, Chiral ligand exchange adsorbents for amines and underivatized amino acids: "bait-and-switch" molecular imprinting,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 7, 109-118, (1998)
Sundhoro M
Sundhoro M et al., Rapid and accurate electrochemical sensor for food allergen detection in complex foods.Scientific Reports, 11, (1), Article20831-(2021)
Sundhoro M et al., An electrochemical molecularly imprinted polymer sensor for rapid and selective food allergen detection.
Food Chemistry, 344, Article128648-(2021)
Suntornsuk L
Prutthiwanasan B et al., Fluorescent labelling of ciprofloxacin and norfloxacin and its application for residues analysis in surface water.Talanta, 159, 74-79, (2016)
Prutthiwanasan B et al., Improved resolution of fluoroquinolones using cetyltrimethyl ammonium bromide-micellar electrokinetic chromatography and its application to residue analysis in surface water.
Journal of Chromatography B, 1092, 306-312, (2018)
Suo A
Suo A et al., New methods for preparation of molecularly imprinted polymers and their application in food safety.Journal of Food Safety and Quality, 5, (11), 3587-3591, (2014)
Chen NN et al., Synthesis of molecularly imprinted polymers by atom transfer radical polymerization for the solid-phase extraction of phthalate esters in edible oil.
Journal of Separation Science, 40, (6), 1327-1333, (2017)
Suo DC
Suo DC et al., Pseudo template molecularly imprinted polymer for determination of 14 kind of [beta]-agonists in animal urine by ultra-high-performance liquid chromatography-tandem mass spectrometry.Journal of Chromatography A, 1526, 23-30, (2017)
Suo H
Fu QB et al., On-line analysis of sulfonamides in pharmaceutical wastewater based on magnetic molecularly imprinted polymer extraction and near infrared spectroscopy.Analytical Methods, 4, (6), 1813-1819, (2012)
Gao B et al., Computational simulation and preparation of fluorescent magnetic molecularly imprinted silica nanospheres for ciprofloxacin or norfloxacin sensing.
Journal of Separation Science, 37, (24), 3753-3759, (2014)
Suo LL
Hu MH et al., Polydopamine-based molecularly imprinting polymers on magnetic nanoparticles for recognition and enrichment of ochratoxins prior to their determination by HPLC.Microchimica Acta, 185, (6), 300-(2018)
Supahun A
Abliz S et al., Preparation of Pb2+ Imprinted Acrylic Acid-co-Styrene and Analysis of Its Adsorption Properties by FAAS.Spectroscopy and Spectral Analysis, 31, (6), 1702-1706, (2011)
Supala E
Caserta G et al., Insights in electrosynthesis, target binding, and stability of peptide-imprinted polymer nanofilms.Electrochimica Acta, 381, Article138236-(2021)
Zhang XR et al., Out of Pocket
Suprijadi
Widayani et al., Preliminary Study of Molecularly Imprinted Polymer-based Potentiometric Sensor for Glucose.Procedia Engineering, 170, 84-87, (2017)
Suprijanto B
Harsini M et al., Selective melamine sensor based on nanoporous carbon paste/molecularly imprinted polymer.Journal of Chemical and Pharmaceutical Research, 6, (11), 305-311, (2014)
Supriyanto G
Neolaka YAB et al., Adsorption performance of Cr(VI)-imprinted poly(4-VP-co-MMA) supported on activated Indonesia (Ende-Flores) natural zeolite structure for Cr(VI) removal from aqueous solution.Journal of Environmental Chemical Engineering, 6, (2), 3436-3443, (2018)
Neolaka YAB et al., Characterization, isotherm, and thermodynamic data for selective adsorption of Cr(VI) from aqueous solution by Indonesia (Ende-Flores) natural zeolite Cr(VI)-imprinted-poly(4-VP-co-EGDMA)-ANZ (IIP-ANZ).
Data in Brief, 17, 1020-1029, (2018)
Neolaka YAB et al., Characterization, kinetic, and isotherm data for Cr(VI) removal from aqueous solution by Cr(VI)-imprinted poly(4-VP-co-MMA) supported on activated Indonesia (Ende-Flores) natural zeolite structure.
Data in Brief, 17, 969-979, (2018)
Wirawan T et al., Synthesis, characterization, and application of novel Zn(II)-ionic imprinted polymer for preconcentration of Zn(II) ions from aqueous solution.
IOP Conference Series: Materials Science and Engineering, 349, (1), ArticleNo012064-(2018)
Wirawan T et al., Adsorption of Zinc(II) onto Zn(II)-Ionic Imprinted Polymer.
IOP Conference Series: Materials Science and Engineering, 546, (2), Article022036-(2019)
Neolaka YAB et al., A Cr(VI)-imprinted-poly(4-VP-co-EGDMA) sorbent prepared using precipitation polymerization and its application for selective adsorptive removal and solid phase extraction of Cr(VI) ions from electroplating industrial wastewater.
Reactive and Functional Polymers, 147, Article104451-(2020)
Suquila FAC
Tarley CRT et al., Preparation and application of nanocomposite based on imprinted poly(methacrylic acid)-PAN/MWCNT as a new electrochemical selective sensing platform of Pb2+ in water samples.Journal of Electroanalytical Chemistry, 801, 114-121, (2017)
Suquila FAC et al., Restricted access copper imprinted poly(allylthiourea): The role of hydroxyethyl methacrylate (HEMA) and bovine serum albumin (BSA) on the sorptive performance of imprinted polymer.
Chemical Engineering Journal, 350, 714-728, (2018)
da Silva RCS et al., Assessment of surfactants on performance of molecularly imprinted polymer toward adsorption of pharmaceutical.
Journal of Environmental Chemical Engineering, 7, (2), Article103037-(2019)
de Oliveira LLG et al., Synthesis and application of restricted access material-ion imprinted poly(allylthiourea) for selective separation of Cd2+ and humic acid exclusion.
Reactive and Functional Polymers, 134, 93-103, (2019)
Suquila FAC et al., Performance of restricted access copper-imprinted poly(allylthiourea) in an on-line preconcentration and sample clean-up FIA-FAAS system for copper determination in milk samples.
Talanta, 202, 460-468, (2019)
de Oliveira LLG et al., Restricted access material-ion imprinted polymer-based method for on-line flow preconcentration of Cd2+ prior to flame atomic absorption spectrometry determination.
Microchemical Journal, 157, Article105022-(2020)
Tarley CRT et al., Development of selective preconcentration/clean-up method for imidazolinone herbicides determination in natural water and rice samples by HPLC-PAD using an imazethapyr imprinted poly(vinylimidazole-TRIM).
Food Chemistry, 334, Article127345-(2021)
Surapong N
Surapong N et al., Magnetic Molecularly Imprinted Polymer for the Selective Enrichment of Glyphosate, Glufosinate, and Aminomethylphosphonic Acid Prior to High-Performance Liquid Chromatography.ACS Omega, 6, (41), 27007-27016, (2021)
Surdo S
Mazzotta E et al., Proceeding, Microstructuring conducting polymers and molecularly imprinted polymers by light-activated electropolymerization on micromachined silicon. Applications in electrochemical sensing,1-4, (2013)
Surikumaran H
Surikumaran H et al., Molecular Imprinted Polymer of Methacrylic Acid Functionalised [beta]-Cyclodextrin for Selective Removal of 2, 4-Dichlorophenol.International Journal of Molecular Sciences, 15, (4), 6111-6136, (2014)
Surikumaran H et al., [beta]-Cyclodextrin Based Molecularly Imprinted Solid Phase Extraction for Class Selective Extraction of Priority Phenols in Water Samples.
Separation Science and Technology, 50, (15), 2342-2351, (2015)
Surikumaran H et al., Synthesis and evaluation of methacrylic acid functionalized [beta]-cyclodextrin based molecular imprinted polymer for 2, 4-dichlorophenol in water samples.
Desalination and Water Treatment, 57, (1), 254-267, (2016)
Surin M
Pardo A et al., Quercetin-imprinted chromatographic sorbents revisited: Optimization of synthesis and rebinding protocols for application to natural resources.Journal of Chromatography A, 1364, 128-139, (2014)
Suriyanarayanan S
Pietrzyk A et al., Selective Histamine Piezoelectric Chemosensor Using a Recognition Film of the Molecularly Imprinted Polymer of Bis(bithiophene) Derivatives.Analytical Chemistry, 81, (7), 2633-2643, (2009)
Pietrzyk A et al., Molecularly imprinted poly[bis(2, 2'-bithienyl)methane] film with built-in molecular recognition sites for a piezoelectric microgravimetry chemosensor for selective determination of dopamine.
Bioelectrochemistry, 80, (1), 62-72, (2010)
Pietrzyk A et al., Molecularly imprinted polymer (MIP) based piezoelectric microgravimetry chemosensor for selective determination of adenine.
Biosensors and Bioelectronics, 25, (11), 2522-2529, (2010)
Nicholls IA et al., Rational design of biomimetic molecularly imprinted materials: theoretical and computational strategies for guiding nanoscale structured polymer development.
Analytical and Bioanalytical Chemistry, 400, (6), 1771-1786, (2011)
Suriyanarayanan S et al., Book chapter, Chemosensors Based on Molecularly Imprinted Polymers,
In: Molecular Imprinting, Haupt K (Ed.) Springer: Berlin / Heidelberg, 165-265, (2012)
Suriyanarayanan S et al., Biotinyl moiety-selective polymer films with highly ordered macropores.
Chemical Communications, 49, (46), 5274-5276, (2013)
Elmlund L et al., Biotin selective polymer nano-films.
Journal of Nanobiotechnology, 12, (March), Article No 8-(2014)
Suriyanarayanan S et al., Hierarchical Thin Film Architectures for Enhanced Sensor Performance: Liquid Crystal-Mediated Electrochemical Synthesis of Nanostructured Imprinted Polymer Films for the Selective Recognition of Bupivacaine.
Biosensors, 4, (2), 90-110, (2014)
Nicholls IA et al., Book chapter, Theoretical and Computational Strategies for the Study of the Molecular Imprinting Process and Polymer Performance,
In: Molecularly Imprinted Polymers in Biotechnology, Mattiasson B, Ye L (Eds.) Springer: Berlin, Heidelberg, Ch. 2, 25-50, (2015)
Suriyanarayanan S et al., Electrochemically synthesized molecularly imprinted polythiophene nanostructures as recognition elements for an aspirin-chemosensor.
Sensors and Actuators B: Chemical, 253, 428-436, (2017)
Ndizeye N et al., Hierarchical polymeric architectures through molecular imprinting in liquid crystalline environments.
European Polymer Journal, 106, 223-231, (2018)
Nicholls IA et al., Book chapter, Theoretical and Computational Strategies in Molecularly Imprinted Polymer Development,
In: Molecularly Imprinted Polymers for Analytical Chemistry Applications, Kutner W, Sharma PS (Eds.) Royal Society of Chemistry: Ch. 7, 197-226, (2018)
Nilsson SME et al., Enantioselective hyperporous molecularly imprinted thin film polymers.
RSC Advances, 9, (58), 33653-33656, (2019)
Nicholls IA et al., The Use of Computational Methods for the Development of Molecularly Imprinted Polymers.
Polymers, 13, (17), ArticleNo2841-(2021)
Surugiu I
Surugiu I et al., An enzyme-linked molecularly imprinted sorbent assay.Analyst, 125, (1), 13-16, (2000)
Surugiu I et al., Development of a flow injection capillary chemiluminescent ELISA using an imprinted polymer instead of the antibody.
Analytical Chemistry, 73, (17), 4388-4392, (2001)
Surugiu I et al., Chemiluminescence imaging ELISA using an imprinted polymer as the recognition element instead of an antibody.
Analytical Chemistry, 73, (3), 487-491, (2001)
Surugiu I et al., Biomimetic arrays for optical multisensing.
Abstracts of Papers of the American Chemical Society, 221, (AGRO), 60-60, (2001)
Svitel J et al., Functionalized surfaces for optical biosensors: Applications to in vitro pesticide residual analysis.
Journal of Materials Science: Materials in Medicine, 12, (10-12), 1075-1078, (2001)
Ye L et al., Scintillation proximity assay using molecularly imprinted microspheres.
Analytical Chemistry, 74, (5), 959-964, (2002)
Surya SG
Surya SG et al., A chitosan gold nanoparticles molecularly imprinted polymer based ciprofloxacin sensor.RSC Advances, 10, (22), 12823-12832, (2020)
Suryana S
Suryana S et al., Rational design of salmeterol xinafoate imprinted polymer through computational method: Functional monomer and crosslinker selection.Polymers for Advanced Technologies, 33, (1), 221-234, (2022)
Suryanarayana MVS
Boopathi M et al., Plastic antibody for the recognition of chemical warfare agent sulphur mustard.Biosensors and Bioelectronics, 21, (12), 2339-2344, (2006)
Prathish KP et al., Molecularly imprinted polymer-based potentiometric sensor for degradation product of chemical warfare agents: Part I. Methylphosphonic acid.
Talanta, 71, (5), 1976-1980, (2007)
Suryanarayanan V
Wu CT et al., Detection of nicotine based on molecularly imprinted TiO2-modified electrodes.Analytica Chimica Acta, 633, (1), 119-126, (2009)
Suryanarayanan V et al., Molecularly Imprinted Electrochemical Sensors.
Electroanalysis, 22, (16), 1795-1811, (2010)
Susanti I
Suherman M et al., Performance Evaluation of Molecularly Imprinted Polymer using Propanol as Porogen for Atenolol Recognition in Human Serum.Indonesian Journal of Pharmaceutical Science and Technology, 6, (1), 27-35, (2019)
Susanto H
He DM et al., Photo-irradiation for preparation, modification and stimulation of polymeric membranes.Progress in Polymer Science, 34, (1), 62-98, (2009)
Suslick KS
Zimmerman SC et al., Synthetic hosts by monomolecular imprinting inside dendrimers.Nature, 418, (6896), 399-403, (2002)
Zimmerman SC et al., Molecular imprinting inside dendrimers.
Journal of the American Chemical Society, 125, (44), 13504-13518, (2003)
Askim JR et al., Optical sensor arrays for chemical sensing: the optoelectronic nose.
Chemical Society Reviews, 42, (22), 8649-8682, (2013)
Susmel S
Susmel S et al., 5-Phenyl-dipyrromethane and 5-(4-pyridyl)-dipyrromethane as modular building blocks for bio-inspired conductive molecularly imprinted polymer (cMIP). An electrochemical and piezoelectric investigation.RSC Advances, 5, (95), 78379-78388, (2015)
Susmel S et al., Selectivity and Efficiency of Conductive Molecularly Imprinted Polymer (c-MIP) Based on 5-Phenyl-Dipyrromethane and 5-Phenol-Dipyrromethane for Quorum Sensing Precursors Detection.
Chemosensors, 5, (1), ArticleNo5-(2017)
Suspčne C
Suspčne C et al., Reversible Coordination of Dioxygen by Tripodal Tetraamine Copper Complexes Incorporated in a Porous Silica Framework.Chemistry - A European Journal, 16, (21), 6352-6364, (2010)
Sussitz HF
Phan NVH et al., Polymerization Parameters Influencing the QCM Response Characteristics of BSA MIP.Biosensors, 4, (2), 161-171, (2014)
Samardzic R et al., Quartz Crystal Microbalance In-Line Sensing of Escherichia Coli in a Bioreactor Using Molecularly Imprinted Polymers.
Sensor Letters, 12, (6-7), 1152-1155, (2014)
Phan NVH et al., Combined Layer/Particle Approaches in Surface Molecular Imprinting of Proteins: Signal Enhancement and Competition.
Sensors, 18, (1), ArticleNo180-(2018)
Latif U et al., Molecular Imprinted Based Quartz Crystal Microbalance Sensors for Bacteria and Spores.
Chemosensors, 8, (3), ArticleNo64-(2020)
Sutcliffe OB
Casadio S et al., Development of a novel flexible polymer-based biosensor platform for the thermal detection of noradrenaline in aqueous solutions.Chemical Engineering Journal, 315, 459-468, (2017)
Lowdon JW et al., Engineering molecularly imprinted polymers (MIPs) for the selective extraction and quantification of the novel psychoactive substance (NPS) methoxphenidine and its regioisomers.
Analyst, 143, (9), 2002-2007, (2018)
Suthar AM
Patel RP et al., An overview of silica aerogels.International Journal of ChemTech Research, 1, (4), 1052-1057, (2009)
Sutherland DS
Guerreiro JRL et al., Molecular Imprinting of Complex Matrices at Localized Surface Plasmon Resonance Biosensors for Screening of Global Interactions of Polyphenols and Proteins.ACS Sensors, 1, (3), 258-264, (2016)
Guerreiro JRL et al., A saliva molecular imprinted localized surface plasmon resonance biosensor for wine astringency estimation.
Food Chemistry, 233, 457-466, (2017)
Sutlovic D
Nestic M et al., Molecularly imprinted solid phase extraction for simultaneous determination of [Delta]9-tetrahydrocannabinol and its main metabolites by gas chromatography-mass spectrometry in urine samples.Forensic Science International, 231, (1-3), 317-324, (2013)
Sutriyono E
Bow Y et al., Molecularly Imprinted Polymers (MIP) Based Electrochemical Sensor for Detection of Endosulfan Pesticide.International Journal on Advanced Science, Engineering and Information Technology, 7, (2), 662-668, (2017)
Bow Y et al., Proceeding, Preparation of molecularly imprinted polymers simazine as material potentiometric sensor,
ArticleNo01002, (2017)
Sutthivaiyakit P
Kunsa-Ngiem S et al., Magnetic molecularly imprinted polymer prepared by microwave heating for confirmatory determination of chloramphenicol in chicken feed using high-performance liquid chromatography-tandem mass spectrometry.Journal of Environmental Science and Health, Part B, 53, (11), 738-745, (2018)
Sutthivaiyakit S
Kunsa-Ngiem S et al., Magnetic molecularly imprinted polymer prepared by microwave heating for confirmatory determination of chloramphenicol in chicken feed using high-performance liquid chromatography-tandem mass spectrometry.Journal of Environmental Science and Health, Part B, 53, (11), 738-745, (2018)
Sutto S
Naklua W et al., An imprinted dopamine receptor for discovery of highly potent and selective D3 analogues with neuroprotective effects.Process Biochemistry, 50, (10), 1537-1556, (2015)
Suwantong O
Chaipuang A et al., Synthesis of copper(II) ion-imprinted polymers via suspension polymerization.Polymers for Advanced Technologies, 29, (12), 3134-3141, (2018)
Phungpanya C et al., Synthesis of prednisolone molecularly imprinted polymer nanoparticles by precipitation polymerization.
Polymers for Advanced Technologies, 29, (12), 3075-3084, (2018)
Suwanwong Y
Suwanwong Y et al., Effects of Polymerization Methods and Functional Monomers on Curcumin Imprinted Polymer Properties.Separation Science and Technology, 49, (7), 1086-1095, (2014)
Larpant N et al., Exploring Matrix Effects on Binding Properties and Characterization of Cotinine Molecularly Imprinted Polymer on Paper-Based Scaffold.
Polymers, 11, (3), ArticleNo570-(2019)
Suwanwong Y et al., Molecularly imprinted polymers for the extraction and determination of water-soluble vitamins: A review from 2001 to 2020.
European Polymer Journal, 161, Article110835-(2021)
Suyanto
Harsini M et al., Melamine selective electrode based on nanoporous carbon/molecularly imprinted polymer.Journal of Chemical and Pharmaceutical Research, 6, (9), 65-70, (2014)
Suzuki A
Suzuki A et al., Preparation of shape selective acid catalysts by a surface molecular imprinting method.unknown source, (2000)
Suzuki A et al., Design of catalytic sites at oxide surfaces by metal-complex attaching and molecular imprinting techniques.
Journal of Molecular Catalysis A: Chemical, 182-183, (1), 125-136, (2002)
Ide T et al., Lanthanide selective adsorption by ion-imprinted polymer with chelidonic acid monoamide groups.
Separation Science and Technology, 51, (18), 2887-2895, (2016)
Suzuki H
Shoji R et al., Atrazine sensor based on a nano chemical receptor modified electrode.Bunseki Kagaku, 52, (12), 1141-1146, (2003)
Fuchiwaki Y et al., 6-Chloro-N, N-Diethyl-1, 3, 5-Triazine-2, 4-Diamine (Simazine) Electrochemical Sensing Chip Based on Biomimetic Recognition Utilizing a Molecularly Imprinted Polymer Layer on a Gold Chip.
Analytical Letters, 41, (8), 1398-1407, (2008)
Kubo I et al., Atrazine sensing chip based on molecularly imprinted polymer layer.
Electrochemistry, 76, (8), 541-544, (2008)
Uchiyamada K et al., Directional Coupler Biosensor with Molecularly Imprinted Polymer.
Sensors and Materials, 30, (5), 1009-1017, (2018)
Uchiyamada K et al., Perforated Bimodal Interferometric Biosensor for Affinity Sensing.
Advanced Materials Technologies, 4, (9), Article1800533-(2019)
Suzuki J
Morihara K et al., Footprint catalysis .1. A new method for designing tailor-made catalysts with substrate-specificity - silica (alumina) catalysts for butanolysis of benzoic anhydride.Bulletin of the Chemical Society of Japan, 61, (11), 3991-3998, (1988)
Teraguchi M et al., Enantioselective permeation through membranes of chiral helical polymers prepared by depinanylsilylation of poly(diphenylacetylene) with a high content of the pinanylsilyl group.
Macromolecules, 36, (26), 9694-9697, (2003)
Suzuki M
Matsui J et al., Molecular recognition in continuous polymer rods prepared by a molecular imprinting technique.Analytical Chemistry, 65, (17), 2223-2224, (1993)
Suzuki M et al., Preparation of porous polymers by "in situ precipitation" using low molecular weight gelators.
Polymer Journal, 34, (6), 474-(2002)
Suzuki O
Kumazawa T et al., Molecularly imprinted solid-phase extraction for the selective determination of methamphetamine, amphetamine, and methylenedioxyphenylalkylamine designer drugs in human whole blood by gas chromatography-mass spectrometry.Journal of Separation Science, 35, (5-6), 726-733, (2012)
Suzuki T
Kamata K et al., Voltammetric anion recognition by a highly cross-linked polyviologen film.Journal of Electroanalytical Chemistry, 473, (1-2), 145-155, (1999)
Djourelov N et al., Positron annihilation lifetime spectroscopy of molecularly imprinted hydroxyethyl methacrylate based polymers.
Polymer, 48, (9), 2692-2699, (2007)
Shiraishi Y et al., Selective photooxidation of chlorophenols with molecularly imprinted polymers containing a photosensitizer.
New Journal of Chemistry, 34, (4), 714-717, (2010)
Suárez IJ
Fernández-Barbero A et al., Gels and microgels for nanotechnological applications.Advances in Colloid and Interface Science, 147-148, 88-108, (2009)
Suárez-Rodríguez JL
Suárez-Rodríguez JL et al., Molecularly imprinted polymers for developing biomimetic optical sensors.Quimica Analitica, 18, (Suppl 1), 20-22, (1999)
Al-Kindy S et al., Molecularly imprinted polymers and optical sensing applications.
Critical Reviews in Analytical Chemistry, 30, (4), 291-309, (2000)
Suárez-Rodríguez JL et al., Flavonol fluorescent flow-through sensing based on a molecular imprinted polymer.
Analytica Chimica Acta, 405, (1-2), 67-76, (2000)
Suárez-Rodríguez JL et al., Fluorescent competitive flow-through assay for chloramphenicol using molecularly imprinted polymers.
Biosensors and Bioelectronics, 16, (9-12), 955-961, (2001)
Svalova TS
Kozitsina AN et al., Sensors Based on Bio and Biomimetic Receptors in Medical Diagnostic, Environment, and Food Analysis.Biosensors, 8, (2), ArticleNo35-(2018)
Svec F
Lämmerhofer M et al., Separation of enantiomers by capillary electrochromatography.TrAC Trends in Analytical Chemistry, 19, (11), 676-698, (2000)
Svec F et al., Monolithic stationary phases for capillary electrochromatography based on synthetic polymers: Designs and applications.
HRC - Journal of High Resolution Chromatography, 23, (1), 3-18, (2000)
Svec F et al., Design of the monolithic polymers used in capillary electrochromatography columns.
Journal of Chromatography A, 887, (1-2), 3-29, (2000)
Hilder EF et al., Polymeric monolithic stationary phases for capillary electrochromatography.
Electrophoresis, 23, (22-23), 3934-3953, (2002)
Hilder EF et al., Development and application of polymeric monolithic stationary phases for capillary electrochromatography.
Journal of Chromatography A, 1044, (1-2), 3-22, (2004)
Svec F, Less common applications of monoliths: Preconcentration and solid-phase extraction.
Journal of Chromatography B, 841, (1-2), 52-64, (2006)
Lv YQ et al., Molecular imprinting of proteins in polymers attached to the surface of nanomaterials for selective recognition of biomacromolecules.
Biotechnology Advances, 31, (8), 1172-1186, (2013)
Lv YQ et al., Molecularly imprinted plasmonic nanosensor for selective SERS detection of protein biomarkers.
Biosensors and Bioelectronics, 80, 433-441, (2016)
Wen LY et al., Smart Lhotská I et al., Preparation of citrinin-selective molecularly imprinted polymer and its use for on-line solid-phase extraction coupled to liquid chromatography.
Analytical and Bioanalytical Chemistry, 411, (11), 2395-2404, (2019)
Novosvetská L et al., Fully automated method based on on-line molecularly imprinted polymer solid-phase extraction for determination of lovastatin in dietary supplements containing red yeast rice.
Analytical and Bioanalytical Chemistry, 411, (6), 1219-1228, (2019)
Kholová A et al., Comparison study of nanofibers, composite nano/microfiber materials, molecularly imprinted polymers, and core-shell sorbents used for on-line extraction-liquid chromatography of ochratoxins in Tokaj wines.
Microchemical Journal, 170, Article106680-(2021)
Svenson J
Svenson J et al., Spectroscopic studies of the molecular imprinting self-assembly process.Journal of Molecular Recognition, 11, (1-6), 83-86, (1998)
Adbo K et al., Enantioselective Tröger's base synthetic receptors.
Bioorganic Chemistry, 27, (5), 363-371, (1999)
Nicholls IA et al., Can we rationally design molecularly imprinted polymers?
Analytica Chimica Acta, 435, (1), 9-18, (2001)
Svenson J et al., On the thermal and chemical stability of molecularly imprinted polymers.
Analytica Chimica Acta, 435, (1), 19-24, (2001)
Svenson J et al., A molecularly imprinted polymer-based synthetic transaminase.
Journal of the American Chemical Society, 126, (27), 8554-8560, (2004)
Svenson J et al., H-1 nuclear magnetic resonance study of the molecular imprinting of (-)-nicotine: template self-association, a molecular basis for cooperative ligand binding.
Journal of Chromatography A, 1024, (1-2), 39-44, (2004)
Svenson J et al., The role of functional monomer-template complexation on the performance of atrazine molecularly imprinted polymers.
Analytical Letters, 38, (1), 57-69, (2005)
Svenson J, Ultrasound-assisted preparation of molecularly imprinted polymers: Effects on polymer morphology, binding, and chromatographic behavior.
Analytical Letters, 39, (14), 2749-2760, (2006)
Rosengren-Holmberg JP et al., Synthesis and ligand recognition of paracetamol selective polymers: semi-covalent versus non-covalent molecular imprinting.
Organic & Biomolecular Chemistry, 7, (15), 3148-3155, (2009)
Svensson A
Kriz D et al., Introducing biomimetic sensors based on molecularly imprinted polymers as recognition elements.Analytical Chemistry, 67, (13), 2142-2144, (1995)
Svensson C
Zorita S et al., Selective determination of acidic pharmaceuticals in wastewater using molecularly imprinted solid-phase extraction.Analytica Chimica Acta, 626, (2), 147-154, (2008)
Manesiotis P et al., Water-compatible imprinted polymers for selective depletion of riboflavine from beverages.
Journal of Materials Chemistry, 19, (33), 6185-6193, (2009)
Svensson-Bonde J
Shen XT et al., Bacterial Imprinting at Pickering Emulsion Interfaces.Angewandte Chemie International Edition, 53, (40), 10687-10690, (2014)
Svitel J
Surugiu I et al., Development of a flow injection capillary chemiluminescent ELISA using an imprinted polymer instead of the antibody.Analytical Chemistry, 73, (17), 4388-4392, (2001)
Surugiu I et al., Biomimetic arrays for optical multisensing.
Abstracts of Papers of the American Chemical Society, 221, (AGRO), 60-60, (2001)
Svitel J et al., Functionalized surfaces for optical biosensors: Applications to in vitro pesticide residual analysis.
Journal of Materials Science: Materials in Medicine, 12, (10-12), 1075-1078, (2001)
Svoboda P
Svoboda P et al., Synthesis of a molecularly imprinted sorbent for selective solid-phase extraction of [beta]-N-methylamino-L-alanine.Talanta, 144, 1021-1029, (2015)
Svoboda P et al., Development of matrix effect-free MISPE-UHPLC-MS/MS method for determination of lovastatin in Pu-erh tea, oyster mushroom, and red yeast rice.
Journal of Pharmaceutical and Biomedical Analysis, 140, 367-376, (2017)
Svorc L
Svorc L, Determination of Caffeine: A Comprehensive Review on Electrochemical Methods.International Journal of Electrochemical Science, 8, 5755-5773, (2013)
Sváb-Kovács A
Nagy-Szakolczai A et al., The molecular imprinting effect of propranolol and dibenzylamine as model templates: Binding strength and selectivity.Analytica Chimica Acta, 1125, 258-266, (2020)
Swain SK
Sahu D et al., Nano silver imprinted polyvinyl alcohol nanocomposite thin films for Hg2+ sensor.Sensors and Actuators B: Chemical, 246, 96-107, (2017)
Swaminathan J
Yoshimi Y et al., Metaniche session 2016: Tailor-made sensors for rapid Therapeutic Drug Monitoring - Interactions between Biomaterial Physicists, Chemical Engineers and Clinicians for successful translation of technologies in Healthcare.Journal of Stem Cells & Regenerative Medicine, 12, (2), 105-107, (2016)
Swamy AM
Varma NN et al., HPLC Bioassay of Elvitegravir using a Molecularly Imprinted Polymer Based Solid Phase Extraction in RAT Plasma: Application to Pharmacokinetic Studies.Journal of Analytical Chemistry, 76, (10), 1172-1181, (2021)
Swietlow A
Zander A et al., Analysis of nicotine and its oxidation products in nicotine chewing gum by a molecularly imprinted solid phase extraction.Analytical Chemistry, 70, (15), 3304-3314, (1998)
Swihart MT
Zheng L et al., Core-shell quantum dots coated with molecularly imprinted polymer for selective photoluminescence sensing of perfluorooctanoic acid.Talanta, 194, 1-6, (2019)
Switnicka-Plak M
Shen XT et al., Reflux precipitation polymerization: a new synthetic insight in molecular imprinting at high temperature.RSC Advances, 6, (85), 81491-81499, (2016)
Switnicka-Plak MA
Rossetti C et al., Automated Protein Biomarker Analysis: on-line extraction of clinical samples by Molecularly Imprinted Polymers.Scientific Reports, 7, ArticleNo44298-(2017)
McKitterick N et al., On-line duplex molecularly imprinted solid-phase extraction for analysis of low-abundant biomarkers in human serum by liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1655, Article462490-(2021)
Syawali F
Syawali F et al., Effect of template removal process with methanol solvent on cavities number of melamine molecularly imprinted polymer (MIPS).Journal of Physics: Conference Series, 1282, (1), Article012030-(2019)
Syazni Nik Mohamed Kamal NN
Husin NA et al., Application of a new choline-imidazole based deep eutectic solvents in hybrid magnetic molecularly imprinted polymer for efficient and selective removal of naproxen from aqueous samples.Materials Chemistry and Physics, 261, Article124228-(2021)
Syed WH
Malihe KS et al., Magnetite molecularly imprinted nanoparticles for selective detection of phenol in wastewater samples followed by high performance liquid chromatography.Indian Journal of Scientific Research, 5, (1), 362-368, (2014)
Sykes ECH
Lawton TJ et al., Long Range Chiral Imprinting of Cu(110) by Tartaric Acid.The Journal of Physical Chemistry C, 117, (43), 22290-22297, (2013)
Sykes PH
Tan LH et al., The characteristics of Ishikawa endometrial cancer cells are modified by substrate topography with cell-like features and the polymer surface.International Journal of Nanomedicine, 2015, (10), 4883-4895, (2015)
Sykora D
Svec F et al., Monolithic stationary phases for capillary electrochromatography based on synthetic polymers: Designs and applications.HRC - Journal of High Resolution Chromatography, 23, (1), 3-18, (2000)
Sykora S
Sykora S et al., Virus-like particles as virus substitutes to design artificial virus-recognition nanomaterials.Chemical Communications, 51, (12), 2256-2258, (2015)
Symanski EA
Bruening ML et al., Imprinting of photocleavable monomers on gold films.Abstracts of Papers of the American Chemical Society, 223, (CHED), 731-731, (2002)
Synbulatov IV
Voronin AV et al., Molecularly imprinted sorbent for biological fluids sample preparation in forensic toxicology (in Russian).Sudebno-Meditsinskaya Ekspertisa, 64, (6), 39-42, (2021)
Syoji M
Fujii Y et al., Template synthesis of polymer schiff-base cobalt(III) Complex and formation of specific cavity for chiral amino-acid.Chemistry Letters, 13, (9), 1487-1490, (1984)
Syritski V
Syritski V et al., Electrosynthesized molecularly imprinted polypyrrole films for enantioselective recognition of l-aspartic acid.Electrochimica Acta, 53, (6), 2729-2736, (2008)
Menaker A et al., Electrosynthesized Surface-Imprinted Conducting Polymer Microrods for Selective Protein Recognition.
Advanced Materials, 21, (22), 2271-2275, (2009)
Öpik A et al., Molecularly imprinted polymers: a new approach to the preparation of functional materials.
Proceedings of the Estonian Academy of Sciences, 58, (1), 3-11, (2009)
Lautner G et al., Selective Artificial Receptors Based on Micropatterned Surface-Imprinted Polymers for Label-Free Detection of Proteins by SPR Imaging.
Advanced Functional Materials, 21, (3), 591-597, (2011)
Tretjakov A et al., Surface molecularly imprinted polydopamine films for recognition of immunoglobulin G.
Microchimica Acta, 180, (15-16), 1433-1442, (2013)
Ayankojo AG et al., Molecularly Imprinted Polymer Integrated with a Surface Acoustic Wave Technique for Detection of Sulfamethizole.
Analytical Chemistry, 88, (2), 1476-1484, (2016)
Tretjakov A et al., Molecularly imprinted polymer film interfaced with Surface Acoustic Wave technology as a sensing platform for label-free protein detection.
Analytica Chimica Acta, 902, 182-188, (2016)
Boroznjak R et al., A computational approach to study functional monomer-protein molecular interactions to optimize protein molecular imprinting.
Journal of Molecular Recognition, 30, (10), ArticleNoe2635-(2017)
Ayankojo AG et al., Enhancing binding properties of imprinted polymers for the detection of small molecules.
Proceedings of the Estonian Academy of Sciences, 67, (2), 138-146, (2018)
Ayankojo AG et al., Molecularly imprinted poly(meta-phenylenediamine) based QCM sensor for detecting Amoxicillin.
Sensors and Actuators B: Chemical, 258, 766-774, (2018)
Ayankojo AG et al., Hybrid molecularly imprinted polymer for amoxicillin detection.
Biosensors and Bioelectronics, 118, 102-107, (2018)
Kidakova A et al., Preparation of a surface-grafted protein-selective polymer film by combined use of controlled/living radical photopolymerization and microcontact imprinting.
Reactive and Functional Polymers, 125, 47-56, (2018)
Kidakova A et al., Advanced sensing materials based on molecularly imprinted polymers towards developing point-of-care diagnostics devices.
Proceedings of the Estonian Academy of Sciences, 68, (2), 158-167, (2019)
Ayankojo AG et al., Molecularly imprinted polymer-based sensor for electrochemical detection of erythromycin.
Talanta, 209, Article120502-(2020)
Ayankojo AG et al., Sulfamethizole-imprinted polymer on screen-printed electrodes: Towards the design of a portable environmental sensor.
Sensors and Actuators B: Chemical, 320, Article128600-(2020)
Kidakova A et al., Molecularly imprinted polymer-based SAW sensor for label-free detection of cerebral dopamine neurotrophic factor protein.
Sensors and Actuators B: Chemical, 308, Article127708-(2020)
Ayankojo AG et al., Molecularly imprinted polymer based electrochemical sensor for quantitative detection of SARS-CoV-2 spike protein.
Sensors and Actuators B: Chemical, 353, Article131160-(2022)
Syu MJ
Syu MJ et al., Towards bilirubin imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate) for the specific binding of a-bilirubin.Analytica Chimica Acta, 504, (1), 167-177, (2004)
Syu MJ et al., An allosteric model for the binding of bilirubin to the bilirubin imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate).
Analytica Chimica Acta, 539, (1-2), 97-106, (2005)
Syu MJ et al., Binding specificity of [alpha]-bilirubin-imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate) toward [alpha]-bilirubin.
Biomaterials, 26, (22), 4684-4692, (2005)
Tsai HA et al., Synthesis of creatinine-imprinted poly([beta]-cyclodextrin) for the specific binding of creatinine.
Biomaterials, 26, (15), 2759-2766, (2005)
Tsai HA et al., Synthesis and characterization of creatinine imprinted poly(4-vinylpyridine-co-divinylbenzene) as a specific recognition receptor.
Analytica Chimica Acta, 539, (1-2), 107-116, (2005)
Hsieh RY et al., Designing a molecularly imprinted polymer as an artificial receptor for the specific recognition of creatinine in serums.
Biomaterials, 27, (9), 2083-2089, (2006)
Syu MJ et al., Ionic effect on the binding of bilirubin to the imprinted poly(methacrylic acid-co-ethylene glycol dimethylacrylate).
Journal of Chromatography A, 1122, (1-2), 54-62, (2006)
Syu MJ et al., Amperometric detection of bilirubin from a micro-sensing electrode with a synthetic bilirubin imprinted poly(MAA-co-EGDMA) film.
Biosensors and Bioelectronics, 22, (4), 550-557, (2006)
Wu AH et al., Synthesis of bilirubin imprinted polymer thin film for the continuous detection of bilirubin in an MIP/QCM/FIA system.
Biosensors and Bioelectronics, 21, (12), 2345-2353, (2006)
Huang CY et al., A portable potentiostat for the bilirubin-specific sensor prepared from molecular imprinting.
Biosensors and Bioelectronics, 22, (8), 1694-1699, (2007)
Chen CY et al., Diagnostic role of biliary pancreatic elastase for cholangiocarcinoma in patients with cholestasis.
Clinica Chimica Acta, 390, (1-2), 82-89, (2008)
Chang YS et al., Synthesis of an Imprinted Hybrid Organic-Inorganic Polymeric Sol-Gel Matrix Toward the Specific Binding and Isotherm Kinetics Investigation of Creatinine.
Analytical Chemistry, 81, (6), 2098-2105, (2009)
Chou SK et al., Via zinc(II) protoporphyrin to the synthesis of poly(ZnPP-MAA-EGDMA) for the imprinting and selective binding of bilirubin.
Biomaterials, 30, (7), 1255-1262, (2009)
Syu MJ et al., Synthesis of Recognition Matrix from 4-Methylamino-N-Allylnaphthal-Imide with Fluorescent Effect for the Imprinting of Creatinine.
Analytical Chemistry, 82, (21), 8821-8829, (2010)
Tsai HA et al., Preparation of imprinted poly(tetraethoxysilanol) sol-gel for the specific uptake of creatinine.
Chemical Engineering Journal, 168, (3), 1369-1376, (2011)
Syu MJ et al., Amperometric Sensing of Bilirubin By the Ionic Liquid Doped Imprinted Polymer Modified Electrode.
ECS Meeting Abstracts, MA2018-02, (56), 1991-1991, (2018)
Syu YZ
Ling TR et al., Size-selective recognition of catecholamines by molecular imprinting on silica-alumina gel.Biosensors and Bioelectronics, 21, (6), 901-907, (2005)
Szabelski P
Szabelski P et al., Energetic heterogeneity of the surface of a molecularly imprinted polymer studied by high-performance liquid chromatography.Journal of Chromatography A, 964, (1-2), 99-111, (2002)
Stanley BJ et al., Affinity distributions of a molecularly imprinted polymer calculated numerically by the expectation-maximization method.
Langmuir, 19, (3), 772-778, (2003)
Szabelski P, A simple model of enantioselective adsorption on chiral stationary phases.
Applied Surface Science, 227, (1-4), 94-103, (2004)
Szabelski P et al., Phenomenological Modeling of Separation of Enantiomers by Nonlinear Chromatography.
Acta Chromatographica, 20, (4), 513-547, (2008)
Szablewski M
Szatkowska P et al., Molecularly Imprinted Polymers' Applications: A Short Review.Mini-Reviews in Organic Chemistry, 10, (4), 400-408, (2013)
Szajnecki L
Plesz K et al., Synthesis of Molecularly Imprinted Copolymer and its Application as a SPE Sorbent for Preconcentration of Metoprolol and Vitamin B6 from Water.Journal of Liquid Chromatography & Related Technologies, 32, (13), 1831-1846, (2009)
Szajnecki L et al., Studies on sorption of bifenthrin and diazinon insecticides on molecularly imprinted polymers.
Polymers for Advanced Technologies, 30, (7), 1595-1604, (2019)
Szakolczai A
Dorkó Z et al., Binding capacity of molecularly imprinted polymers and their nonimprinted analogs.Journal of Separation Science, 38, (24), 4240-4247, (2015)
Dorkó Z et al., Relationship between Commonly Used Adsorption Isotherm Equations Impedes Isotherm Selection.
Periodica Polytechnica Chemical Engineering, 61, (1), 10-14, (2017)
Szatkowska P
Szatkowska P et al., Molecularly Imprinted Polymers' Applications: A Short Review.Mini-Reviews in Organic Chemistry, 10, (4), 400-408, (2013)
Szczepankiewicz SH
Wickham JM et al., Electrodes with imprinted polymer membranes.Abstracts of Papers of the American Chemical Society, 223, (ANYL), 074-074, (2002)
Szczepanska N
Plotka-Wasylka J et al., Miniaturized solid-phase extraction techniques.TrAC Trends in Analytical Chemistry, 73, 19-38, (2015)
Plotka-Wasylka J et al., Modern trends in solid phase extraction: New sorbent media.
TrAC Trends in Analytical Chemistry, 77, 23-43, (2016)
Plotka-Wasylka J et al., New Polymeric Materials for Solid Phase Extraction.
Critical Reviews in Analytical Chemistry, 47, (5), 373-383, (2017)
Plotka-Wasylka J et al., Book chapter, Miniaturized Solid Phase Extraction,
In: Green Extraction Techniques Principles, Advances and Applications, Ibáńez E, Cifuentes A (Eds.) Elsevier: Ch. 10, 279-318, (2017)
Szczubialka K
Wybranska K et al., Photochemical molecular imprinting of cholesterol.Journal of Inclusion Phenomena and Macrocyclic Chemistry, 61, (1), 147-151, (2008)
Wybranska K et al., Adenine Molecularly Imprinted Polymer-Coated Submicrometer Silica Gel Particles.
Chemistry of Materials, 22, (18), 5392-5399, (2010)
Plewa A et al., Molecularly Imprinted Hybrid Adsorbents for Adenine and Adenosine-5'-triphosphate.
Journal of Medicinal Chemistry, 55, (20), 8712-8720, (2012)
Mikulska A et al., Polymeric/silicagel hybrid molecularly photoimprinted adsorbents for adenosine and its derivatives.
European Polymer Journal, 59, 230-238, (2014)
Iwanowska A et al., Selective adsorption of modified nucleoside cancer biomarkers by hybrid molecularly imprinted adsorbents.
Journal of Separation Science, 39, (15), 3072-3080, (2016)
Szczukocki D
Czarny K et al., The impact of estrogens on aquatic organisms and methods for their determination.Critical Reviews in Environmental Science and Technology, 47, (11), 909-963, (2017)
Czarny K et al., Molecularly imprinted polymer film grafted from porous silica for efficient enrichment of steroid hormones in water samples.
Journal of Separation Science, 42, (17), 2858-2866, (2019)
Szefczyk B
Azenha M et al., Molecular Dynamics Simulations of Pregelification Mixtures for the Production of Imprinted Xerogels.Langmuir, 27, (8), 5062-5070, (2011)
Azenha M et al., Computational and Experimental Study of the Effect of PEG in the Preparation of Damascenone-Imprinted Xerogels.
Langmuir, 29, (6), 2024-2032, (2013)
Szekely G
Kupai J et al., Role of Chirality and Macroring in Imprinted Polymers with Enantiodiscriminative Power.ACS Applied Materials & Interfaces, 7, (18), 9516-9525, (2015)
Razali M et al., Sustainable wastewater treatment and recycling in membrane manufacturing.
Green Chemistry, 17, (12), 5196-5205, (2015)
Szekely G et al., Genotoxic Impurities in Pharmaceutical Manufacturing: Sources, Regulations, and Mitigation.
Chemical Reviews, 115, (16), 8182-8229, (2015)
Szekely G et al., Book chapter, Biomimics of Metalloenzymes via Imprinting,
In: Molecularly Imprinted Catalysts: Principles, Syntheses and Applications, Li SJ, Cao SS, Piletsky SA, Turner APF (Eds.) Elsevier: Amsterdam, Ch. 7, 121-158, (2016)
Didaskalou C et al., Valorisation of agricultural waste with an adsorption/nanofiltration hybrid process: from materials to sustainable process design.
Green Chemistry, 19, (13), 3116-3125, (2017)
Kupai J et al., Long-term stability and reusability of molecularly imprinted polymers.
Polymer Chemistry, 8, (4), 666-673, (2017)
Pogány P et al., Experimental and theoretical investigation of the complexation of methacrylic acid and diisopropyl urea.
Spectrochimica Acta Part A-Molecular and Biomolecular Spctroscopy, 170, 69-76, (2017)
Sulc R et al., Phospholipid imprinted polymers as selective endotoxin scavengers.
Scientific Reports, 7, ArticleNo44299-(2017)
Voros V et al., Process Intensification via Continuous and Simultaneous Isolation of Antioxidants: An Upcycling Approach for Olive Leaf Waste.
ACS Sustainable Chemistry & Engineering, 7, (22), 18444-18452, (2019)
Szeliga J
Szultka M et al., Development of novel molecularly imprinted solid-phase microextraction fibers and their application for the determination of antibiotic drugs in biological samples by SPME-LC/MS<sup>n</sup>.Analytical and Bioanalytical Chemistry, 403, (3), 785-796, (2012)
Szilágyi A
Weiser D et al., Bioimprinted lipases in PVA nanofibers as efficient immobilized biocatalysts.Tetrahedron, 72, (46), 7335-7342, (2016)
Szilégyi A
Gyarmati B et al., Reversible disulphide formation in polymer networks: A versatile functional group from synthesis to applications.European Polymer Journal, 49, (6), 1268-1286, (2013)
Szulejko JE
Shakerian F et al., Advanced polymeric materials: Synthesis and analytical application of ion imprinted polymers as selective sorbents for solid phase extraction of metal ions.TrAC Trends in Analytical Chemistry, 83, (Part B), 55-69, (2016)
Szultka M
Buszewski B et al., Past, Present, and Future of Solid Phase Extraction: A Review.Critical Reviews in Analytical Chemistry, 42, (3), 198-213, (2012)
Szultka M et al., Development of novel molecularly imprinted solid-phase microextraction fibers and their application for the determination of antibiotic drugs in biological samples by SPME-LC/MS<sup>n</sup>.
Analytical and Bioanalytical Chemistry, 403, (3), 785-796, (2012)
Szultka M et al., Simultaneous determination of selected chemotherapeutics in human whole blood by molecularly imprinted polymers coated solid phase microextraction fibers and liquid chromatography-tandem mass spectrometry.
Journal of Chromatography B, 940, 66-76, (2013)
Buszewski B et al., Book chapter, Solid phase extraction - principles, trends and applications,
In: MEMBRANY TEORIA I PRAKTYKA (Membrane Theory and Practice), Wodzki R (Ed.) Stowarzyszenie na Rzecz Rozwoju Wydzialu Chemii Uniwersytet Mikolaja Kopernika: Torun, Poland, 99-131, (2014)
Szultka M et al., Microextraction sample preparation techniques in biomedical analysis.
Journal of Separation Science, 37, (21), 3094-3105, (2014)
Szultka M et al., Pharmacokinetic study of amoxicillin in human plasma by solid-phase microextraction followed by high-performance liquid chromatography-triple quadrupole mass spectrometry.
Biomedical Chromatography, 28, (2), 255-264, (2014)
Szultka-Mlynska M
Szultka-Mlynska M et al., Nanoporous Conducting Polymer-Based Coatings in Microextraction Techniques for Environmental and Biomedical Applications.Critical Reviews in Analytical Chemistry, 46, (3), 236-247, (2016)
Szumski M
Szumski M et al., Molecularly imprinted polymers: A new tool for separation of steroid isomers.Journal of Separation Science, 27, (10-11), 837-842, (2004)
Szumski M et al., Considerations on influence of charge distribution on determination of biomolecules and microorganisms and tailoring the monolithic (continuous bed) materials for bioseparations.
Journal of Biochemical and Biophysical Methods, 70, (1), 107-115, (2007)
Buszewski B et al., Supramolecular recognition of estrogens via molecularly imprinted polymers.
Analytical and Bioanalytical Chemistry, 397, (7), 2977-2986, (2010)
Szumski M et al., Monolithic molecularly imprinted polymeric capillary columns for isolation of aflatoxins.
Journal of Chromatography A, 1364, 163-170, (2014)
Szutowski M
Lulinski P et al., Dopamine-imprinted polymers: Template-monomer interactions, analysis of template removal and application to solid phase extraction.Molecules, 12, (11), 2434-2449, (2007)
Lulinski P et al., Efficient strategy for the selective determination of dopamine in human urine by molecularly imprinted solid-phase extraction.
Journal of Separation Science, 39, (5), 895-903, (2016)
Szuwarzynski M
Plewa A et al., Molecularly Imprinted Hybrid Adsorbents for Adenine and Adenosine-5'-triphosphate.Journal of Medicinal Chemistry, 55, (20), 8712-8720, (2012)
Szwabinska K
Cieplak M et al., Selective Electrochemical Sensing of Human Albumin By Semi-Covalent Imprinting.ECS Meeting Abstracts, MA2015-01, (45), 2309-2309, (2015)
Cieplak M et al., Selective electrochemical sensing of human serum albumin by semi-covalent molecular imprinting.
Biosensors and Bioelectronics, 74, 960-966, (2015)
Szymczyk K
Bryla M et al., Application of molecularly imprinted polymers to determine B1, B2, and B3 fumonisins in cereal products.Journal of Separation Science, 36, (3), 578-584, (2013)
Roszko M et al., Simultaneous separation of chlorinated/brominated dioxins, polychlorinated biphenyls, polybrominated diphenyl ethers and their methoxylated derivatives from hydroxylated analogues on molecularly imprinted polymers prior to gas/liquid chromatography and mass spectrometry.
Talanta, 144, 171-183, (2015)
Székely G
Székely G et al., A hybrid approach to reach stringent low genotoxic impurity contents in active pharmaceutical ingredients: Combining molecularly imprinted polymers and organic solvent nanofiltration for removal of 1, 3-diisopropylurea.Separation and Purification Technology, 86, (1), 79-87, (2012)
Székely G et al., Design, preparation and characterization of novel molecularly imprinted polymers for removal of potentially genotoxic 1, 3-diisopropylurea from API solutions.
Separation and Purification Technology, 86, (1), 190-198, (2012)
Székely G et al., Removal of potentially genotoxic acetamide and arylsulfonate impurities from crude drugs by molecular imprinting.
Journal of Chromatography A, 1240, (1), 52-58, (2012)
Székely G et al., Molecularly imprinted organic solvent nanofiltration membranes - Revealing molecular recognition and solute rejection behaviour.
Reactive and Functional Polymers, 86, 215-224, (2015)
Szücs J
Bognár J et al., Nanosphere Lithography as a Versatile Method to Generate Surface-Imprinted Polymer Films for Selective Protein Recognition.Advanced Functional Materials, 23, (37), 4703-4709, (2013)
SĽkora D
Svec F et al., Design of the monolithic polymers used in capillary electrochromatography columns.Journal of Chromatography A, 887, (1-2), 3-29, (2000)
Sádecká J
Karasová G et al., Selective extraction of derivates of p-hydroxy-benzoic acid from plant material by using a molecularly imprinted polymer.Journal of Separation Science, 28, (18), 2468-2476, (2005)
Sáez P
Pereira E et al., Preparation of molecularly imprinted polymers for diphenylamine removal from organic gunshot residues.Journal of the Chilean Chemical Society, 59, (4), 2731-2736, (2014)
Cáceres C et al., Molecularly Imprinted Polymers for the Selective Extraction of Bisphenol A and Progesterone from Aqueous Media.
Polymers, 10, (6), ArticleNo679-(2018)
Sánchez A
Pérez-Quintanilla D et al., Preparation of hybrid organic-inorganic mesoporous silicas applied to mercury removal from aqueous media: Influence of the synthesis route on adsorption capacity and efficiency.Journal of Colloid and Interface Science, 472, 126-134, (2016)
Sánchez Arribas A
Lorenzo MÁ et al., Determination of butylparaben by adsorptive stripping voltammetry at glassy carbon electrodes modified with multi-wall carbon nanotubes.Microchemical Journal, 110, 510-516, (2013)
Sánchez DA
Sánchez DA et al., Immobilization and bioimprinting strategies to enhance the performance in organic medium of the metagenomic lipase LipC12.Journal of Biotechnology, 342, 13-27, (2021)
Sánchez-Anguiano MG
Garza-Montelongo E et al., Molecularly Imprinted Polymer for the Binding and Recognition of Basic Blue 41 Dye.Journal of the Chilean Chemical Society, 66, (2), 5215-5219, (2021)
Sánchez-Baeza F
Salvador JP et al., A New Methodology for the Rational Design of Molecularly Imprinted Polymers.Analytical Letters, 40, (7), 1294-1306, (2007)
Sánchez-Barragán I
Salinas-Castillo A et al., Iodinated molecularly imprinted polymer for room temperature phosphorescence optosensing of fluoranthene.Chemical Communications, (25), 3224-3226, (2005)
Sánchez-Barragán I et al., Molecularly imprinted polymers based on iodinated monomers for selective room-temperature phosphorescence optosensing of fluoranthene in water.
Analytical Chemistry, 77, (21), 7005-7011, (2005)
Sánchez-Barragán I et al., Room-temperature phosphorescence (RTP) for optical sensing.
TrAC Trends in Analytical Chemistry, 25, (10), 958-967, (2006)
Sánchez-Barragán I et al., A molecularly imprinted polymer for carbaryl determination in water.
Sensors and Actuators B: Chemical, 123, (2), 798-804, (2007)
Traviesa-Alvarez JM et al., Room temperature phosphorescence optosensing of benzo[a]pyrene in water using halogenated molecularly imprinted polymers.
Analyst, 132, (3), 218-223, (2007)
Sánchez-González J
Sánchez-González J et al., Porous membrane-protected molecularly imprinted polymer micro-solid-phase extraction for analysis of urinary cocaine and its metabolites using liquid chromatography - Tandem mass spectrometry.Analytica Chimica Acta, 898, 50-59, (2015)
Chantada-Vázquez MP et al., Simple and Sensitive Molecularly Imprinted Polymer - Mn-Doped ZnS Quantum Dots Based Fluorescence Probe for Cocaine and Metabolites Determination in Urine.
Analytical Chemistry, 88, (5), 2734-2741, (2016)
Chantada-Vázquez MP et al., Synthesis and characterization of novel molecularly imprinted polymer - coated Mn-doped ZnS quantum dots for specific fluorescent recognition of cocaine.
Biosensors and Bioelectronics, 75, 213-221, (2016)
Sánchez-González J et al., Development of magnetic molecularly imprinted polymers for solid phase extraction of cocaine and metabolites in urine before high performance liquid chromatography - tandem mass spectrometry.
Talanta, 147, 641-649, (2016)
Sánchez-González J et al., Determination of cocaine and its metabolites in plasma by porous membrane-protected molecularly imprinted polymer micro-solid-phase extraction and liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1451, 15-22, (2016)
Sánchez-González J et al., Magnetic molecularly imprinted polymer based - micro-solid phase extraction of cocaine and metabolites in plasma followed by high performance liquid chromatography - tandem mass spectrometry.
Microchemical Journal, 127, 206-212, (2016)
Sánchez-González J et al., Cannabinoids assessment in plasma and urine by high performance liquid chromatography-tandem mass spectrometry after molecularly imprinted polymer microsolid-phase extraction.
Analytical and Bioanalytical Chemistry, 409, (5), 1207-1220, (2017)
Chantada-Vázquez MP et al., Development and application of molecularly imprinted polymer - Mn-doped ZnS quantum dot fluorescent optosensing for cocaine screening in oral fluid and serum.
Talanta, 181, 232-238, (2018)
Sánchez-González J et al., Development of a micro-solid-phase extraction molecularly imprinted polymer technique for synthetic cannabinoids assessment in urine followed by liquid chromatography-tandem mass spectrometry.
Journal of Chromatography A, 1550, 8-20, (2018)
Sánchez-González J et al., NMR spectroscopy for assessing cocaine-functional monomer interactions when preparing molecularly imprinted polymers.
Microchemical Journal, 147, 813-817, (2019)
Sánchez-González J et al., HPLC-MS/MS combined with membrane-protected molecularly imprinted polymer micro-solid-phase extraction for synthetic cathinones monitoring in urine.
Drug Testing and Analysis, 11, (1), 33-44, (2019)
Sánchez-González S
Herrero-Hernández E et al., Occurrence of phenols and phenoxyacid herbicides in environmental waters using an imprinted polymer as a selective sorbent.Science of The Total Environment, 454 - 455, 299-306, (2013)
Sánchez-Martín MJ
Herrero-Hernández E et al., Efficiency of a molecularly imprinted polymer for selective removal of phenols and phenoxyacids from contaminated waters.International Journal of Environmental Science and Technology, 12, (10), 3079-3088, (2015)
Samah NA et al., Molecularly imprinted polymer for the removal of diclofenac from water: Synthesis and characterization.
Science of The Total Environment, 631-632, 1534-1543, (2018)
Samah NA et al., Modelling the Diclofenac and Indomethacin Recovery by Molecularly Imprinted Polymer.
Journal of Physical Science, 29, (Suppl.1), 67-74, (2018)
Sánchez-Ortega A
Gómez-Caballero A et al., Molecularly imprinted poly[tetra(o-aminophenyl)porphyrin] as a stable and selective coating for the development of voltammetric sensors.Journal of Electroanalytical Chemistry, 638, (2), 246-253, (2010)
Sánchez-Polo M
Sánchez-Polo M et al., Molecular imprinted polymer to remove tetracycline from aqueous solutions.Microporous And Mesoporous Materials, 203, 32-40, (2015)
Sánchez-Rojas FS
Espinosa-Bosch M et al., Determination of paracetamol: Historical evolution.Journal of Pharmaceutical and Biomedical Analysis, 42, (3), 291-321, (2006)
Sârbu A
Dima SO et al., Proofs for molecular imprinting of an acrylic copolymer by phase inversion.UPB Scientific Bulletin, Series B: Chemistry and Materials Science, 71, (4), 21-30, (2009)
Nicolescu TV et al., Influence of crosslinker/porogen ratio upon imprinted polymer parameters.
U. P. B. Science Bulletin, Series B, 73, (1), 163-172, (2011)
Florea AM et al., An innovative approach to prepare hypericin molecularly imprinted pearls using a "phyto-template".
Talanta, 148, 37-45, (2016)
Florea AM et al., One-step preparation of molecularly imprinted hollow beads for pseudohypericin separation from Hypericum perforatum L. extracts.
European Polymer Journal, 100, 48-56, (2018)
Sänger J
Kunath S et al., Cell and Tissue Imaging with Molecularly Imprinted Polymers as Plastic Antibody Mimics.Advanced Healthcare Materials, 4, (9), 1322-1326, (2015)
Séverac C
Mingotaud AF et al., Book chapter, Next generation molecular imprinted polymers: Examples of liquid crystalline materials and hydrogels for protein recognition,In: Molecular Recognition: Biotechnology, Chemical Engineering and Materials Applications, McEvoy JA (Ed.) Nova Science Publishers, Inc.: New York, Ch. 2, 45-77, (2011)
Sóti PL
Weiser D et al., Bioimprinted lipases in PVA nanofibers as efficient immobilized biocatalysts.Tetrahedron, 72, (46), 7335-7342, (2016)
Sönmezoglu S
Gültekin A et al., Development of a highly sensitive MIP based-QCM nanosensor for selective determination of cholic acid level in body fluids.Materials Science and Engineering: C, 42, 436-442, (2014)
Gültekin A et al., Preparation of MIP-based QCM nanosensor for detection of caffeic acid.
Talanta, 119, 533-537, (2014)
Söylemez MA
Kusçuoglu CK et al., A smartphone-based colorimetric PET sensor platform with molecular recognition via thermally initiated RAFT-mediated graft copolymerization.Sensors and Actuators B: Chemical, 296, Article126653-(2019)
Söylemez MA et al., Preparation and detailed structural characterization of Penicillin G imprinted polymers by PALS and XPS.
Radiation Physics and Chemistry, 159, 174-180, (2019)
Söylemez MA et al., Synthesis of well-defined molecularly imprinted bulk polymers for the removal of azo dyes from water resources.
Current Research in Green and Sustainable Chemistry, 4, Article100196-(2021)
Sözgen Baskan K
Karaman Ersoy S et al., Preparation, characterization and usage of molecularly imprinted polymer for the isolation of quercetin from hydrolyzed nettle extract.Journal of Chromatography B, 1017-1018, 89-100, (2016)
Sümbelli Y
Sümbelli Y et al., Molecularly imprinted polymer embedded-cryogels as selective genotoxic impurity scavengers.Separation Science and Technology, 56, (18), 3066-3078, (2021)
Süngü ÇZ
Süngü ÇZ et al., Molecularly imprinted polymeric shell coated monodisperse-porous silica microspheres as a stationary phase for microfluidic boronate affinity chromatography.Journal of Separation Science, 42, (11), 1962-1971, (2019)
Süssenbach D
Rackow B et al., Imprinting of molecular information on resin surfaces and testing of a multidentate imprint with monodentate "guest." XXII.Zeitschrift für Chemie, 7, (11), 444-445, (1967)
Süssmuth RD
Altintas Z et al., Integrated Approaches Toward High-Affinity Artificial Protein Binders Obtained via Computationally Simulated Epitopes for Protein Recognition.Advanced Functional Materials, 29, (15), Article1807332-(2019)
Tchinda R et al., Recognition of protein biomarkers using epitope-mediated molecularly imprinted films: Histidine or cysteine modified epitopes?
Biosensors and Bioelectronics, 123, 260-268, (2019)
Drzazgowska J et al., Self-Assembled Monolayer Epitope Bridges for Molecular Imprinting and Cancer Biomarker Sensing.
Analytical Chemistry, 92, (7), 4798-4806, (2020)
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