Direct voltammetric sensing of l-Cysteine at pristine GaN nanowires electrode

Biosensors and Bioelectronics

Volumn 26, Issue 4, 2010, Pages 1688-1691

  Lai, Yao Tong ^a   Ganguly, Abhijit ^b   Chen, Li Chyong ^b   Chen, Kuei Hsien ^a,b  

^a INSTITUTE OF ATOMIC AND MOLECULAR SCIENCES   (Taiwan)

^b NATIONAL TAIWAN UNIVERSITY   (Taiwan)

Author keywords

Cyclic voltammetry; Electrochemical sensor; GaN nanowires; L Cysteine; Surface sensitivity

Indexed keywords

DETECTION LIMITS; DIRECT SENSING; DYNAMIC RANGE; ELECTRO-CATALYTIC OXIDATION; ELECTROACTIVE; GALLIUM NITRIDE NANOWIRES; GAN NANOWIRES; L-CYSTEINE; NANOMATERIAL; OPTIMUM SENSITIVITY; PHYSIOLOGICAL CONDITION; SCAN RATES; SURFACE-MODIFICATION; VOLTAMMETRIC; VOLTAMMETRIC INVESTIGATION; WIDE-BAND-GAP SEMICONDUCTOR;

AMINO ACIDS; ELECTROCATALYSIS; ELECTROCHEMICAL SENSORS; ELECTRODES; GALLIUM ALLOYS; GALLIUM NITRIDE; NANOWIRES; OXIDATION; PH EFFECTS; SENSORS;

CYCLIC VOLTAMMETRY;

CYSTEINE; GALLIUM; NANOMATERIAL;

ARTICLE; BIOSENSOR; CATALYSIS; CONTROLLED STUDY; CYCLIC POTENTIOMETRY; ELECTROCHEMICAL DETECTION; INTERMETHOD COMPARISON; NANOTECHNOLOGY; OXIDATION; PH; PROCESS OPTIMIZATION; REACTION ANALYSIS; SEMICONDUCTOR; SENSITIVITY ANALYSIS;

BIOSENSING TECHNIQUES; CYSTEINE; ELECTROCHEMICAL TECHNIQUES; ELECTRODES; GALLIUM; HYDROGEN-ION CONCENTRATION; MICROSCOPY, ELECTRON, SCANNING; NANOWIRES; OXIDATION-REDUCTION; SENSITIVITY AND SPECIFICITY;

EID: 78649760584     PISSN: 09565663     EISSN: None     Source Type: Journal    
DOI: 10.1016/j.bios.2010.07.005     Document Type: Article

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