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Volumn 59, Issue , 2014, Pages 1-5
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A novel label-free electrochemical sensor for Hg2+ based on the catalytic formation of metal nanoparticle
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Author keywords
Electrochemical sensor; Gold nanoparticle; Label free
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Indexed keywords
COORDINATION REACTIONS;
ELECTRODES;
GOLD;
METAL NANOPARTICLES;
SIGNAL DETECTION;
GRAPHENE;
NANOPARTICLES;
CATALYTIC FORMATION;
ELECTROCHEMICAL SIGNALS;
ELECTRON TRANSFER;
GOLD NANOPARTICLES;
LABEL FREE;
MODIFIED ELECTRODE SURFACES;
SELECTIVE DETECTION;
STRIPPING VOLTAMMETRY;
ELECTROCHEMICAL SENSORS;
DNA;
GOLD NANOPARTICLE;
GRAPHENE;
MERCURY;
METAL ION;
METAL NANOPARTICLE;
THYMINE;
DIVALENT CATION;
DNA PROBE;
GRAPHITE;
ANODIC STRIPPING POTENTIOMETRY;
ARTICLE;
CATALYSIS;
CHEMICAL REACTION;
COORDINATION;
DNA PROBE;
DNA SEQUENCE;
ELECTROCHEMICAL ANALYSIS;
ELECTROCHEMICAL DETECTION;
ELECTROCHEMICAL SENSOR;
ELECTRON TRANSPORT;
HIGH PERFORMANCE LIQUID CHROMATOGRAPHY;
LIMIT OF DETECTION;
OXIDATION;
SENSOR;
BIOSENSOR;
CHEMICAL ANALYSIS;
COMPARATIVE STUDY;
CONTROLLED STUDY;
ELECTRODE;
NANOFABRICATION;
POTENTIOMETRY;
PROCESS OPTIMIZATION;
SENSITIVITY ANALYSIS;
CHEMISTRY;
EVALUATION STUDY;
GENETIC PROCEDURES;
PROCEDURES;
BIOSENSING TECHNIQUES;
CATALYSIS;
CATIONS, DIVALENT;
DNA PROBES;
ELECTROCHEMICAL TECHNIQUES;
GRAPHITE;
LIMIT OF DETECTION;
MERCURY;
METAL NANOPARTICLES;
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EID: 84897049950
PISSN: 09565663
EISSN: 18734235
Source Type: Journal
DOI: 10.1016/j.bios.2014.02.074 Document Type: Article |
Times cited : (57)
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References (22)
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