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Volumn 667, Issue 1-2, 2010, Pages 63-70
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Computational investigation and synthesis of a sol-gel imprinted material for sensing application of some biologically active molecules
a
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Author keywords
Computational design; Molecular imprinting; Molecular modeling; Neurotransmitters; Surface template
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Indexed keywords
AMINO GROUP;
BIOLOGICALLY ACTIVE MOLECULES;
COMMON MODE;
COMPUTATIONAL APPROACH;
COMPUTATIONAL DESIGN;
COMPUTATIONAL INVESTIGATION;
ELECTROCHEMICAL MEASUREMENTS;
GLASSY CARBON ELECTRODES;
HARTREE-FOCK METHODS;
HYBRID SOL-GEL MATERIALS;
IMPRINTED MATERIALS;
INTERACTION ENERGIES;
INTERMOLECULAR FORCES;
MOLECULAR CAVITY;
MOLECULAR IMPRINTING;
MOLECULARLY IMPRINTED;
MONOMER UNITS;
PRECURSOR MONOMER;
SENSING APPLICATIONS;
SOL-GEL THIN FILMS;
SQUARE WAVE VOLTAMMETRY;
SURFACE TEMPLATES;
TETRAETHYL ORTHOSILICATES;
BRAIN;
CHEMICAL BONDS;
CYCLIC VOLTAMMETRY;
GELS;
GLASS MEMBRANE ELECTRODES;
GLASSY CARBON;
MOLECULAR MODELING;
MOLECULES;
MONOMERS;
POLYMERIZATION;
SOL-GEL PROCESS;
SOL-GELS;
SOLS;
SYNTHESIS (CHEMICAL);
SURFACES;
AMINO ACID DERIVATIVE;
BIOMATERIAL;
CARBON;
MONOMER;
NEUROTRANSMITTER;
TETRAETHOXYSILANE;
ARTICLE;
BIOFILM;
BIOSYNTHESIS;
CONFORMATIONAL TRANSITION;
CONTROLLED STUDY;
CYCLIC POTENTIOMETRY;
ELECTROCHEMICAL ANALYSIS;
ELECTRODE;
ENERGY;
GEL;
HYDROLYSIS;
MATERIAL COATING;
MATHEMATICAL COMPUTING;
MOLECULAR IMPRINTING;
MOLECULAR INTERACTION;
NANOENCAPSULATION;
PRIORITY JOURNAL;
PROCESS OPTIMIZATION;
SURFACE PROPERTY;
BIOSENSING TECHNIQUES;
CARBON;
ELECTROCHEMICAL TECHNIQUES;
ELECTRODES;
GELS;
MOLECULAR IMPRINTING;
NEUROTRANSMITTER AGENTS;
SILANES;
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EID: 77952495956
PISSN: 00032670
EISSN: 18734324
Source Type: Journal
DOI: 10.1016/j.aca.2010.04.005 Document Type: Article |
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Times cited : (24)
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References (32)
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