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Volumn 39, Issue 1, 2013, Pages 76-81
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Supramolecular architecture based on the self-assembling of multiwall carbon nanotubes dispersed in polyhistidine and glucose oxidase: Characterization and analytical applications for glucose biosensing
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Author keywords
Carbon nanotubes dispersion; Electrochemical glucose biosensor; Glucose oxidase; Layer by layer; Polyhistidine; Self assembly
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Indexed keywords
AMPEROMETRIC;
AMPEROMETRIC BIOSENSORS;
ANALYTICAL APPLICATIONS;
ASCORBIC ACIDS;
BI-LAYER;
BIOSENSING;
CARBON NANOTUBES DISPERSION;
DETECTION LIMITS;
DISPERSING PROPERTY;
ELECTROCATALYTIC PROPERTIES;
ELECTROCHEMICAL TECHNIQUES;
GLASSY CARBON ELECTRODES;
GLUCOSE BIOSENSOR;
LAYER-BY-LAYERS;
LINEAR RANGE;
MILK SAMPLE;
MINIMUM INTERFERENCE;
MULTI-STRUCTURE;
PERMSELECTIVE PROPERTIES;
POLYHISTIDINE;
QUANTIFICATION LIMIT;
SELF-ASSEMBLING;
SUPRAMOLECULAR ARCHITECTURES;
URIC ACIDS;
CARBON NANOTUBES;
DISPERSIONS;
GLASS MEMBRANE ELECTRODES;
GLUCOSE;
GLUCOSE OXIDASE;
KETONES;
ORGANIC ACIDS;
SELF ASSEMBLY;
SUPRAMOLECULAR CHEMISTRY;
GLUCOSE SENSORS;
ASCORBIC ACID;
GALACTOSE;
GLUCOSE OXIDASE;
LACTOSE;
MALTOSE;
MULTI WALLED NANOTUBE;
POLYHISTIDINE;
URIC ACID;
AMPEROMETRY;
ARTICLE;
BIOCATALYSIS;
BIOSENSOR;
CALIBRATION;
CARBON DIOXIDE ELECTRODE;
CHEMICAL STRUCTURE;
DISPERSION;
ELECTROCHEMICAL ANALYSIS;
GENETIC PROCEDURES;
GLUCOSE ASSAY;
INFRARED SPECTROSCOPY;
LIMIT OF DETECTION;
LIMIT OF QUANTITATION;
MILK;
REFERENCE VALUE;
SENSITIVITY ANALYSIS;
SENSITIVITY AND SPECIFICITY;
SUPRAMOLECULAR CHEMISTRY;
SURFACE PROPERTY;
ASPERGILLUS NIGER;
BIOSENSING TECHNIQUES;
ELECTROCHEMICAL TECHNIQUES;
ENZYMES, IMMOBILIZED;
FLUOROCARBON POLYMERS;
GLUCOSE;
GLUCOSE OXIDASE;
HISTIDINE;
HUMANS;
INFANT FORMULA;
NANOTUBES, CARBON;
SENSITIVITY AND SPECIFICITY;
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EID: 84865715610
PISSN: 09565663
EISSN: 18734235
Source Type: Journal
DOI: 10.1016/j.bios.2012.06.041 Document Type: Article |
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Times cited : (29)
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References (41)
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