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Volumn 64, Issue , 2015, Pages 138-146
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A comparative study of different protein immobilization methods for the construction of an efficient nano-structured lactate oxidase-SWCNT-biosensor
a
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Author keywords
Covalent immobilization; Lactate biosensor; Lactate oxidase; Physical adsorption; Protein immobilization; Protein stability
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Indexed keywords
ADSORPTION;
ATOMIC FORCE MICROSCOPY;
BIOSENSORS;
ELECTRODES;
SINGLE-WALLED CARBON NANOTUBES (SWCN);
X RAY PHOTOELECTRON SPECTROSCOPY;
YARN;
COVALENT IMMOBILIZATION;
LACTATE BIOSENSOR;
LACTATE OXIDASE;
PHYSICAL ADSORPTION;
PROTEIN IMMOBILIZATION;
PROTEIN STABILITY;
ENZYME IMMOBILIZATION;
1 (3 DIMETHYLAMINOPROPYL) 3 ETHYLCARBODIIMIDE;
4 AMINOTHIOPHENOL;
LACTATE 2 MONOOXYGENASE;
LACTIC ACID;
PLATINUM;
SINGLE WALLED NANOTUBE;
THIOPHENOL DERIVATIVE;
UNCLASSIFIED DRUG;
CARBON NANOTUBE;
IMMOBILIZED ENZYME;
LACTATE 2-MONOOXYGENASE;
MIXED FUNCTION OXIDASE;
NANOMATERIAL;
ADSORPTION;
AMPEROMETRY;
ARTICLE;
ATOMIC FORCE MICROSCOPY;
CALIBRATION;
CHRONOAMPEROMETRY;
CONFORMATIONAL TRANSITION;
CONTROLLED STUDY;
COVALENT IMMOBILIZATION;
ELECTROCHEMICAL ANALYSIS;
ELECTROCHEMISTRY;
ELECTRODE;
ENZYME ACTIVITY;
ENZYME STRUCTURE;
ENZYMIC BIOSENSOR;
INTERMETHOD COMPARISON;
LEACHING;
LIMIT OF DETECTION;
MEASUREMENT REPEATABILITY;
PHYSICAL ADSORPTION;
PROTEIN CONFORMATION;
PROTEIN IMMOBILIZATION;
PROTEIN STABILITY;
THERMOSTABILITY;
X RAY PHOTOELECTRON SPECTROSCOPY;
CHEMISTRY;
COMPARATIVE STUDY;
CONDUCTOMETRY;
DEVICE FAILURE ANALYSIS;
DEVICES;
ENZYME ACTIVATION;
ENZYME STABILITY;
EQUIPMENT DESIGN;
GENETIC PROCEDURES;
ULTRASTRUCTURE;
ADSORPTION;
BIOSENSING TECHNIQUES;
CONDUCTOMETRY;
ELECTRODES;
ENZYME ACTIVATION;
ENZYME STABILITY;
ENZYMES, IMMOBILIZED;
EQUIPMENT DESIGN;
EQUIPMENT FAILURE ANALYSIS;
LACTIC ACID;
MIXED FUNCTION OXYGENASES;
NANOSTRUCTURES;
NANOTUBES, CARBON;
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EID: 84907174459
PISSN: 09565663
EISSN: 18734235
Source Type: Journal
DOI: 10.1016/j.bios.2014.08.072 Document Type: Article |
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Times cited : (54)
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References (34)
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