Imprinted Polymer Author Index from mipdatabase.com

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This file created: 09/07/2011

Naaman R

Cohen SR et al., Thermally induced disorder in organized organic monolayers on solid substrates.
Journal of Physical Chemistry, 90, (14), 3054-3056, (1986)

Pachón LD et al., Chiral imprinting of palladium with cinchona alkaloids.
Nature Chemistry, 1, (2), 160-164, (2009)

Nacano LR

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)

Naczk M

Naczk M et al., Extraction and analysis of phenolics in food.
Journal of Chromatography A, 1054, (1-2), 95-111, (2004)

Naenna T

Nantasenamat C et al., Proceeding, The use of artificial neural network for the prediction of imprinting factor of molecularly imprinted polymer,
Art. No. E0118, (2005)

Nantasenamat C et al., Quantitative prediction of imprinting factor of molecularly imprinted polymers by artificial neural network.
Journal of Computer-Aided Molecular Design, 19, (7), 509-524, (2006)

Nantasenamat C et al., Prediction of selectivity index of pentachlorophenol-imprinted polymers.
EXCLI Journal, 5, 150-163, (2006)

Nantasenamat C et al., Quantitative structure-imprinting factor relationship of molecularly imprinted polymers.
Biosensors and Bioelectronics, 22, (12), 3309-3317, (2007)

Nantasenamat C et al., A practical overview of quantitative structure-activity relationship.
EXCLI Journal, 8, 74-88, (2009)

Nagahori N

Nagahori N et al., Synthetic studies on specific glyco-ligands by molecular imprinting method.
Abstracts of Papers of the American Chemical Society, 215, (CARB), 043-043, (1998)

Nagai K

Yashima E et al., Helical Polymers: Synthesis, Structures, and Functions.
Chemical Reviews, 109, (11), 6102-6211, (2009)

Nagai Y

Yoshikawa M et al., Proceeding, Chiral recognition ability of oligopeptide derivatives consisiting of glutamyl residues,
In: Polymer Preprints, Japan, 625, (2002)

Yoshikawa M et al., Chiral recognition ability of oligopeptide derivatives consisting of glutamyl residues.
Journal of Applied Polymer Science, 95, (6), 1302-1309, (2005)

Naganawa R

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)

Kanekiyo Y et al., Proceeding, Endocrine disruptor-responsive QCM sensors constructed using molecularly imprinted amylose as sensing elements,
In: Polymer Preprints, Japan, 1661, (2002)

Kanekiyo Y et al., Molecular imprinting of bisphenol A and alkylphenols using amylose as a host matrix.
Chemical Communications, (22), 2698-2699, (2002)

Kanekiyo Y et al., pH-responsive molecularly imprinted polymers.
Angewandte Chemie-International Edition, 42, (26), 3014-3016, (2003)

Nagano J

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., 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)

Nagaoka S

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)

Nagaoka T

Deore B et al., Overoxidized polypyrrole with dopant complementary cavities as a new molecularly imprinted polymer matrix.
Analytical Sciences, 15, (9), 827-828, (1999)

Chen ZD et al., Enantioselective uptake of amino acid with overoxidized polypyrrole colloid templated with L-lactate.
Analyst, 125, (12), 2249-2254, (2000)

Chen ZD et al., Recognition of vitamin K-1 with a molecularly imprinted self-assembled monolayer film.
Bunseki Kagaku, 49, (7), 543-545, (2000)

Deore B et al., Potential-induced enantioselective uptake of amino acid into molecularly imprinted overoxidized polypyrrole.
Analytical Chemistry, 72, (17), 3989-3994, (2000)

Zhou YX et al., Chiral selective molecular sensors for amino acids by electrochemical detection.
Abstracts of Papers of the American Chemical Society, 221, (ANYL), 31-31, (2001)

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)

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., Molecularly imprinted overoxidized polypyrrole colloids: Promising materials for molecular recognition.
Microchimica Acta, 143, (2-3), 155-162, (2003)

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., 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 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)

Nagar A

Devanathan S et al., Subpicomolar sensing of d-opioid receptor ligands by molecular-imprinted polymers using plasmon-waveguide resonance spectroscopy.
Analytical Chemistry, 77, (8), 2569-2574, (2005)

Nagel B

Warsinke A et al., Towards Separation-Free Electrochemical Affinity Sensors by Using Antibodies, Aptamers, and Molecularly Imprinted Polymers - A Review.
Analytical Letters, 39, (13), 2507-2556, (2006)

Naidu GR

Krishna PG et al., Selective recognition of neodymium(III) using ion imprinted polymer particles.
Journal of Molecular Recognition, 18, (1), 109-116, (2005)

Prasad K et al., Design and Development of Imprinted Polymer Inclusion Membrane-Based Field Monitoring Device for Trace Determination of Phorate (O, O-Diethyl S-Ethyl Thiomethyl Phophorodithioate) in Natural Waters.
Electroanalysis, 19, (11), 1195-1200, (2007)

Naidu GRK

Prasad K et al., Ion imprinted polymer based ion-selective electrode for the trace determination of dysprosium(III) ions.
Analytica Chimica Acta, 566, (1), 69-74, (2006)

Metilda P et al., Ion imprinted polymer based sensor for monitoring toxic uranium in environmental samples.
Analytica Chimica Acta, 582, (1), 147-153, (2007)

Prasad K et al., Molecularly imprinted polymer (biomimetic) based potentiometric sensor for atrazine.
Sensors and Actuators B: Chemical, 123, (1), 65-70, (2007)

Vishnuvardhan V et al., Fabrication and topographical analysis of non-covalently imprinted polymer inclusion membranes for the selective sensing of pinacolyl methylphosphonate--A simulant of Soman.
Electrochimica Acta, 52, (24), 6922-6928, (2007)

James D et al., Design of two-dimensional biomimetic uranyl optrode and its application to the analysis of natural waters.
Talanta, 74, (5), 1420-1427, (2008)

Naim AA

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)

Nair AB

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)

Najafi B

Lieberzeit PA et al., Book chapter, Generating bio-analogous recognition of artificial materials - Sensors and electronic noses for odours,
In: Mining Smartness from Nature, Vincenzini P, Graziani S (Eds.) Scientific.net: 103-107, (2008)

Lieberzeit PA et al., Real-life application of a QCM-based e-nose: quantitative characterization of different plant-degradation processes.
Analytical and Bioanalytical Chemistry, 391, (8), 2897-2903, (2008)

Lieberzeit PA et al., Proceeding, Acoustic chemosensors for real-life environments,
431-433, (2008)

Lieberzeit PA et al., QCM sensor array for monitoring terpene emissions from odoriferous plants.
Monatshefte für Chemie / Chemical Monthly, 140, (8), 947-952, (2009)

Iqbal N et al., QCM-Arrays for Sensing Terpenes in Fresh and Dried Herbs via Bio-Mimetic MIP Layers.
Sensors, 10, (7), 6361-6376, (2010)

Najafi M

Aghaei A et al., A novel capacitive biosensor for cholesterol assay that uses an electropolymerized molecularly imprinted polymer.
Electrochimica Acta, 55, (5), 1503-1508, (2010)

Najafi M et al., Molecularly imprinted polymer-based potentiometric sensor for 2-aminopyridine as a potential impurity in piroxicam.
Drug Testing and Analysis, 3, (2), 132-137, (2011)

Najafi M et al., Selective recognition of chloroacetic acids by imprinted polyaniline film.
Journal of Applied Polymer Science, 121, (1), 292-298, (2011)

Naka K

Tabushi I et al., Supramolecular sensor based on SnO2 electrode modified with octadecylsilyl monolayer having molecular-binding sites.
Tetrahedron Letters, 28, (37), 4299-4302, (1987)

Yamamura K et al., Guest selective molecular recognition by an octadecylsilyl monolayer covalently bound on an SnO2 electrode.
Journal of the Chemical Society-Chemical Communications, (2), 79-81, (1988)

Nakade H

Das K et al., Synthesis and recognition properties of polymers containing embedded binding sites.
Macromolecules, 37, (2), 310-314, (2004)

Nakagama T

Lin JM et al., Molecularly imprinted polymer as chiral selector for enantioseparation of amino acids by capillary gel electrophoresis.
Chromatographia, 43, (11-12), 585-591, (1996)

Lin JM et al., Capillary electrochromatographic separation of amino acid enantiomers using on-column prepared molecularly imprinted polymer.
Journal of Pharmaceutical and Biomedical Analysis, 15, (9-10), 1351-1358, (1997)

Lin JM et al., Capillary electrochromatographic separation of amino acid enantiomers with molecularly imprinted polymers as chiral recognition agents.
Fresenius Journal of Analytical Chemistry, 357, (1), 130-132, (1997)

Lin JM et al., Temperature effect on chiral recognition of some amino acids with molecularly imprinted polymer filled capillary electrochromatography.
Biomedical Chromatography, 11, (5), 298-302, (1997)

Lin JM et al., Enantioseparation of D, L-phenylalanine by molecularly imprinted polymer particles filled capillary electrochromatography.
Journal Of Liquid Chromatography & Related Technologies, 20, (10), 1489-1506, (1997)

Nakagawa H

Nakagawa H et al., Spacer effect in the template polycondensation of nucleotide analogs with diamines.
Makromolekulare Chemie-Macromolecular Chemistry And Physics, 183, (9), 2065-2070, (1982)

Nakagiri T

Yano K et al., Stereoselective recognition of dipeptide derivatives in molecularly imprinted polymers which incorporate an L-valine derivative as a novel functional monomer.
Analytica Chimica Acta, 357, (1-2), 91-98, (1997)

McNiven SJ et al., Book chapter, Application of molecular imprinting to the recognition and detection of bioactive materials,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 6, 90-108, (1998)

Nakai K

Yoshikawa M et al., Molecularly Imprinted Nanofiber Membranes from Carboxylated Polysulfone by Electrospray Deposition.
Macromolecular Rapid Communications, 28, (21), 2100-2105, (2007)

Nakajima T

Nakamura M et al., Uniformly sized molecularly imprinted polymer for atropine and its application to the determination of atropine and scopolamine in pharmaceutical preparations containing Scopolia extract.
Journal of Pharmaceutical and Biomedical Analysis, 37, (2), 231-237, (2005)

Nakamae K

Miyata T et al., Biomolecule-sensitive hydrogels.
Advanced Drug Delivery Reviews, 54, (1), 79-98, (2002)

Nakaminami T

Miyata T et al., Tumor marker-responsive behavior of gels prepared by biomolecular imprinting.
Proceedings of the National Academy of Sciences of the United States of America, 103, (5), 1190-1193, (2006)

Nakamoto T

Wyszynski B et al., Linking biological and artificial olfaction: biomimetic quartz crystal microbalance odor sensors.
IEEJ Transactions on Electrical and Electronic Engineering, 4, (3), 334-338, (2009)

Nakamura A

Kawanami Y et al., Imprinted polymer catalysts for the hydrolysis of p-nitrophenyl acetate.
Journal of Molecular Catalysis A: Chemical, 145, (1-2), 107-110, (1999)

Nakamura H

Uezu K et al., Novel metal ion-imprinted resins prepared by surface template polymerization with W/O emulsion.
Journal of Chemical Engineering of Japan, 27, (3), 436-438, (1994)

Tomioka Y et al., Phenobarbital molecularly imprinted polymer selectively binds phenobarbital.
Biological & Pharmaceutical Bulletin, 20, (4), 397-400, (1997)

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)

Uezu K et al., Metal-imprinted microsphere prepared by surface template polymerization with W/O/W emulsions.
Journal of Chemical Engineering of Japan, 32, (3), 262-267, (1999)

Nakamura H et al., Current research activity in biosensors.
Analytical and Bioanalytical Chemistry, 377, (3), 446-468, (2003)

Sano A et al., Recent advances in materials for separation.
Bunseki Kagaku, 56, (5), 279-297, (2007)

Nakamura M

Nakamura N

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)

Nakamura S

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)

Nakane Y

Kubo I et al., The Establishment of Bisphenol A Sensing System Utilizing Molecularly Imprinted Polymer Receptor and Electrochemical Determination.
International Journal of Electrochemistry, 2011, Article ID 534936-(2011)

Nakanishi K

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)

Nakano I

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)

Nakano M

Itou Y et al., Optical resolution of racemic amino acid derivatives with molecularly imprinted membranes from tetrapetide consisting of glycinyl residues.
Journal of Membrane Science, 325, (1), 371-375, (2008)

Nakano T

Okamoto Y et al., Asymmetric polymerization.
Chemical Reviews, 94, (2), 349-372, (1994)

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 et al., Proceeding, Synthesis of polymer gel by molecular imprinting method using helical polymethacrylate as template,
In: Polymer Preprints, Japan, 1508, (2002)

Satonaka T et al., Proceeding, Synthesis of polymer gel by molecular imprinting using helical polymethacrylate as template and its chiral recognition ability,
In: Polymer Preprints, Japan, 1708, (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)

Nakano Y

Nakano Y, Science and technology of polymer gels.
Journal of Chemical Engineering of Japan, 38, (8), 605-614, (2005)

Nakao A

He J et al., Memorization of coordination environments in ultrathin titania films.
RIKEN Reviews, 45, 37-41, (2002)

Nakao K

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)

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)

Nakashima A

Nakashima A et al., Metal ion-template syntheses of hybrid resins and the template effect on their selectivities for metal ions.
Memoirs of the Faculty of Science, Kyushu University, Series C., 16, (1), 33-42, (1987)

Nakashima K

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)

Nakashima Y

Ohkubo K et al., Preparation and catalytic property of L-histidyl group-introduced, cross-linked poly(ethylene imine)s imprinted by a transition-state analog of an esterolysis reaction.
Polymer, 35, (24), 5372-5374, (1994)

Ishii T et al., Regioselective introduction of two boronic acid groups into [60]fullerene using saccharides as imprinting templates.
Chemical Communications, 1047-1048, (1998)

Nakashio F

Uezu K et al., Novel metal ion-imprinted resins prepared by surface template polymerization with W/O emulsion.
Journal of Chemical Engineering of Japan, 27, (3), 436-438, (1994)

Yoshida M et al., Metal ion-imprinted resins with novel bifunctional monomer by surface template polymerization.
Journal of Chemical Engineering of Japan, 29, (1), 174-176, (1996)

Hara T et al., Separation of rare earth metals by imprinted polymers utilizing surface template polymerization.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 30-30, (1997)

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)

Uezu K et al., Metal ion-imprinted polymers prepared by surface template polymerization with W/O emulsions.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 101-101, (1997)

Yoshida M et al., A novel bifunctional organophosphorus monomer for metal ion-imprinted polymers by surface template polymerization.
Abstracts of Papers of the American Chemical Society, 213, (IEC), 25-25, (1997)

Uezu K et al., Book chapter, Metal ion-imprinted polymers prepared by surface template polymerization with water-in-oil emulsions,
In: Molecular and Ionic Recognition with Imprinted Polymers, Bartsch RA, Maeda M (Eds.) The American Chemical Society: Washington DC, Ch. 19, 278-289, (1998)

Yoshida M et al., Spacer effect of novel bifunctional organophosphorus monomers in metal-imprinted polymers prepared by surface template polymerization.
Journal of Polymer Science Part A: Polymer Chemistry, 36, (15), 2727-2734, (1998)

Uezu K et al., Metal-imprinted microsphere prepared by surface template polymerization with W/O/W emulsions.
Journal of Chemical Engineering of Japan, 32, (3), 262-267, (1999)

Nakata H

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)

Nakayama D

Watanabe M et al., Molecular specific swelling change of hydrogels in accordance with the concentration of guest molecules.
Journal of the American Chemical Society, 120, (22), 5577-5578, (1998)

Nakayama K

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)

Nakayama S

Arai R et al., Proceeding, A speculation of mechanism of gate effect of molecularly imprinted polymer based on solution content and adsorption,
(2009)

Yoshimi Y et al., Influence of the solvent on nature of gate effect in molecularly imprinted membrane.
Analytica Chimica Acta, 682, (1-2), 110-116, (2010)

Nakayama T

Nakayama T et al., Proceeding, Star shaped molecularly imprinted polymer working as a drug carrier,
(2006)

Yoshimi Y et al., Star shaped molecularly imprinted polymer.
Polymer Preprints, Japan, 55, (2), 5404-5405, (2006)

Nakazato K

Hjertén S et al., Gels mimicking antibodies in their selective recognition of proteins.
Chromatographia, 44, (5-6), 227-234, (1997)

Nakazawa H

Nam GH

Nam GH et al., Separation characteristics of molecular imprinted poly(methacrylic acid) for retinoid derivatives.
Journal of Applied Polymer Science, 90, (4), 1081-1087, (2003)

Nam KH

Nam KH et al., Preparation of molecularly imprinted poly(methacrylic acid) and its HPLC separation characteristics of retinoids.
Polymer-Korea, 26, (6), 710-717, (2002)

Namiesnik J

Kloskowski A et al., Progress in Development of Molecularly Imprinted Polymers as Sorbents for Sample Preparation.
Critical Reviews in Analytical Chemistry, 39, (1), 43-58, (2009)

Kloskowski A et al., Sol-Gel Technique A Versatile Tool for Adsorbent Preparation.
Critical Reviews in Analytical Chemistry, 40, (3), 172-186, (2010)

Spietelun A et al., Current trends in solid-phase microextraction (SPME) fibre coatings.
Chemical Society Reviews, 39, (11), 4524-4537, (2010)

Namjumanesh MH

Javanbakht M et al., Molecularly imprinted solid-phase extraction for the selective determination of bromhexine in human serum and urine with high performance liquid chromatography.
Talanta, 80, (1), 133-138, (2009)

Javanbakht M et al., Solid-phase extraction of tramadol from plasma and urine samples using a novel water-compatible molecularly imprinted polymer.
Journal of Chromatography B, 878, (20), 1700-1706, (2010)

Namvar A

Namvar A et al., Microbial imprinted polypyrrole/poly(3-methylthiophene) composite films for the detection of Bacillus endospores.
Biosensors and Bioelectronics, 22, (9-10), 2018-2024, (2007)

Warriner K et al., Book chapter, Molecular Imprinted Polymers for Biorecognition of Bioagents,
In: Principles of Bacterial Detection: Biosensors, Recognition Receptors and Microsystems, Zourob M, Elwary S, Turner A (Eds.) Springer: New York, Ch. 29, 785-814, (2008)

Nango M

Yamashita K et al., Two-step imprinting procedure of inter-penetrating polymer network-type stimuli-responsive hydrogel-adsorbents.
Polymer Journal, 35, (7), 545-550, (2003)

Ohkouchi H et al., Molecular design of a functionalized photosensitive hydrogel.
Polymer Preprints, Japan, 54, (1), 1783-(2005)

Nannen H

Lieberzeit PA et al., From nanopatterning to functionality - surface and bulk imprinting for analytical purposes.
Superlattices and Microstructures, 36, (1-3), 133-142, (2004)

Lieberzeit PA et al., Book chapter, Nanostructured functional polymers for engine oil quality sensors,
In: Proceedings Of The IEEE Sensors 2004, Rocha D, Sarro PM, Vellekoop MJ (Eds.) IEEE: New York, 449-450, (2004)

Nantasenamat C

Nantasenamat C et al., Proceeding, The use of artificial neural network for the prediction of imprinting factor of molecularly imprinted polymer,
Art. No. E0118, (2005)

Piacham T et al., Proceeding, Molecularly imprinted polymer as a tool for nanobiosensors and enzyme mimics,
Art. No. E0119, (2005)

Nantasenamat C et al., In silico design for synthesis of molecularly imprinted microspheres specific towards bisphenol A by precipitation polymerization.
EXCLI Journal, 5, 103-117, (2006)

Nantasenamat C et al., Prediction of selectivity index of pentachlorophenol-imprinted polymers.
EXCLI Journal, 5, 150-163, (2006)

Nantasenamat C et al., Quantitative structure-imprinting factor relationship of molecularly imprinted polymers.
Biosensors and Bioelectronics, 22, (12), 3309-3317, (2007)

Isarankura-Na-Ayudhya C et al., Computational Insights on Sulfonamide Imprinted Polymers.
Molecules, 13, (12), 3077-3091, (2008)

Nantasenamat C et al., A practical overview of quantitative structure-activity relationship.
EXCLI Journal, 8, 74-88, (2009)

Piacham T et al., Synthesis and Theoretical Study of Molecularly Imprinted Nanospheres for Recognition of Tocopherols.
Molecules, 14, (8), 2985-3002, (2009)

Naohara S

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)

Narang S

Narayanaswamy R

Ng SM et al., Fluorescence sensor using a molecularly imprinted polymer as a recognition receptor for the detection of aluminium ions in aqueous media.
Analytical and Bioanalytical Chemistry, 386, (5), 1235-1244, (2006)

Ng SM et al., Molecularly imprinted [beta]-cyclodextrin polymer as potential optical receptor for the detection of organic compound.
Sensors and Actuators B: Chemical, 139, (1), 156-165, (2009)

Roche PJR et al., Multiple surface plasmon resonance quantification of dextromethorphan using a molecularly imprinted [beta]-cyclodextrin polymer: A potential probe for drug-drug interactions.
Sensors and Actuators B: Chemical, 139, (1), 22-29, (2009)

Ng SM et al., Demonstration of a simple, economical and practical technique utilising an imprinted polymer for metal ion sensing.
Microchimica Acta, 169, (3), 303-311, (2010)

Narducci D

Narducci D et al., Investigation of gas-surface interactions at self-assembled silicon surfaces acting as gas sensors.
Applied Surface Science, 212-213, (1), 491-496, (2003)

Nariai H

Kubo H et al., Multiple hydrogen bonding-based fluorescent imprinted polymers for cyclobarbital prepared with 2, 6-bis(acrylamido)pyridine.
Chemical Communications, (22), 2792-2793, (2003)

Mukawa T et al., Novel strategy for molecular imprinting of phenolic compounds utilizing disulfide templates.
Journal of Pharmaceutical and Biomedical Analysis, 30, (6), 1943-1947, (2003)

Ikegami T et al., Covalent molecular imprinting of bisphenol A using its diesters followed by the reductive cleavage with LiAlH4.
Journal of Chromatography B-Analytical Technologies in the Biomedical and Life Sciences, 804, (1), 197-201, (2004)

Ikegami T et al., Bisphenol A-recognition polymers prepared by covalent molecular imprinting.
Analytica Chimica Acta, 504, (1), 131-135, (2004)

Ikegami T et al., Synthetic polymers adsorbing bisphenol A and its analogues prepared by covalent molecular imprinting using bisphenol A dimethacrylate as a template molecule.
Analytical and Bioanalytical Chemistry, 378, (8), 1898-1902, (2004)

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)

Narimatsu A

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)

Yoshimi Y et al., Development of an enzyme-free glucose sensor using the gate effect of a molecularly imprinted polymer.
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