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Volumn 26, Issue 2, 2010, Pages 696-702
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Layer-by-layer assembly sensitive electrochemical sensor for selectively probing l-histidine based on molecular imprinting sol-gel at functionalized indium tin oxide electrode
a,b
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Author keywords
Electrochemical sensor; L histidine; Layer by layer assembly; Molecularly imprinted polymers; Multi walled carbon nanotubes
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Indexed keywords
AMPEROMETRIC;
DETECTION LIMITS;
DIFFERENTIAL PULSE VOLTAMMETRY;
DIRECT DETECTION;
ELECTROCHEMICAL METHODS;
FUNCTIONALIZED;
HIGH SENSITIVITY;
HUMAN BLOODS;
INDIUM TIN OXIDE ELECTRODES;
L-HISTIDINE;
LAYER-BY-LAYER ASSEMBLIES;
MOLECULAR IMPRINTING;
MOLECULARLY IMPRINTED;
MOLECULARLY IMPRINTED POLYMER;
SCANNING ELECTRON MICROSCOPES;
SOL-GEL TECHNOLOGY;
TARGET MOLECULE;
CARBON NANOTUBES;
CYCLIC VOLTAMMETRY;
ELECTROCHEMICAL ELECTRODES;
GELS;
INDIUM;
INDIUM COMPOUNDS;
ITO GLASS;
MOLECULAR MODELING;
MULTIWALLED CARBON NANOTUBES (MWCN);
PHOSPHATASES;
PHOTOLITHOGRAPHY;
PLASMA WAVES;
POLYMERIZATION;
POLYMERS;
SCANNING ELECTRON MICROSCOPY;
SENSORS;
SOL-GEL PROCESS;
SOL-GELS;
SOLS;
TIN;
TIN OXIDES;
TITANIUM COMPOUNDS;
ELECTROCHEMICAL SENSORS;
HISTIDINE;
INDIUM TIN OXIDE;
MULTI WALLED NANOTUBE;
POLYMER;
AMINO ACID ANALYSIS;
AMINO ACID BLOOD LEVEL;
AMPEROMETRY;
ARTICLE;
BIOSENSOR;
CHEMICAL MODIFICATION;
CONTROLLED STUDY;
CYCLIC POTENTIOMETRY;
DIFFERENTIAL PULSE VOLTAMMETRY;
ELECTROCHEMISTRY;
ELECTRODE;
MOLECULAR IMPRINTING;
PHYSICAL CHEMISTRY;
SCANNING ELECTRON MICROSCOPY;
SENSITIVITY ANALYSIS;
BIOSENSING TECHNIQUES;
CONDUCTOMETRY;
CRYSTALLIZATION;
EQUIPMENT DESIGN;
EQUIPMENT FAILURE ANALYSIS;
HISTIDINE;
MICROELECTRODES;
MOLECULAR PROBE TECHNIQUES;
NANOTUBES, CARBON;
TIN COMPOUNDS;
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EID: 77956924544
PISSN: 09565663
EISSN: None
Source Type: Journal
DOI: 10.1016/j.bios.2010.06.062 Document Type: Article |
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Times cited : (80)
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References (30)
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