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Volumn 63, Issue , 2015, Pages 138-144
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Electrostatic interaction between an enzyme and electrodes in the electric double layer examined in a view of direct electron transfer-type bioelectrocatalysis
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Author keywords
Denaturation; Direct electron transfer; Electric double layer; Electric field; Orientation
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Indexed keywords
CRYSTAL ORIENTATION;
DENATURATION;
ELECTRIC FIELDS;
ELECTROCHEMISTRY;
ELECTRODES;
ELECTROLYTIC REDUCTION;
ELECTRON TRANSITIONS;
ELECTROSTATIC SEPARATORS;
ENZYME ACTIVITY;
SELF ASSEMBLED MONOLAYERS;
ADSORPTION;
ELECTROSTATICS;
ENZYMES;
ADSORPTION POTENTIAL;
BIOELECTRO-CATALYSIS;
DIRECT ELECTRON TRANSFER;
ELECTRIC DOUBLE LAYER;
OPEN CIRCUIT POTENTIAL;
POINT OF ZERO CHARGE;
POSITIVE SURFACE CHARGE;
STRONG ELECTRIC FIELDS;
ENZYME ELECTRODES;
BUTANETHIOL;
COPPER EFFLUX OXIDASE;
GOLD;
NEOMYCIN;
OXIDOREDUCTASE;
THIOL;
UNCLASSIFIED DRUG;
COPPER OXIDASE;
N-BUTYL MERCAPTAN;
THIOL DERIVATIVE;
ADSORPTION KINETICS;
ARTICLE;
BIOELECTROCATALYSIS;
CATALYSIS;
CONCENTRATION (PARAMETERS);
DIRECT ELECTRON TRANSPORT;
ELECTRIC DOUBLE LAYER;
ELECTRIC FIELD;
ELECTRICAL PARAMETERS;
ELECTRODE;
ELECTRON TRANSPORT;
ENZYME ACTIVE SITE;
ESCHERICHIA COLI;
GOLD ELECTRODE;
HOLD POTENTIAL;
MATHEMATICAL COMPUTING;
NONHUMAN;
PROTEIN EXPRESSION;
STATIC ELECTRICITY;
SURFACE CHARGE;
ADSORPTION;
CHEMISTRY;
ELECTRICITY;
GENETIC PROCEDURES;
ISOLATION AND PURIFICATION;
PROTEIN DENATURATION;
SURFACE PROPERTY;
ELECTRIC POTENTIAL;
ENZYME DENATURATION;
ENZYME STABILITY;
ENZYME STRUCTURE;
PROTEIN INTERACTION;
REDUCTION;
ADSORPTION;
BIOSENSING TECHNIQUES;
CATALYSIS;
ELECTRICITY;
ELECTRON TRANSPORT;
GOLD;
OXIDOREDUCTASES;
PROTEIN DENATURATION;
SULFHYDRYL COMPOUNDS;
SURFACE PROPERTIES;
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EID: 84904861835
PISSN: 09565663
EISSN: 18734235
Source Type: Journal
DOI: 10.1016/j.bios.2014.07.025 Document Type: Article |
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Times cited : (49)
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References (40)
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