Journal
ELECTROANALYSIS
Volume 22, Issue 15, Pages 1707-1716Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/elan.201000020
Keywords
Carbon nanotube; Ionic liquids; Chloropromazine; Alcohol dehydrogenase; Ethanol; Biosensors
Categories
Funding
- Iranian Nanotechnology Inventive
- Research Office of University of Kurdistan
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Potential cycling was used I'm oxidation of chloropromazine and producing an electroactive redox couples which strongly adsorbed on the electrode surface modified with carbon nanotubes and ionic liquid nanocomposite The modified electrode shows excellent electrocatalytic activity toward NADH oxidation The differential pulse voltammetry detection provided high sensitivity. 05835 A M. low detection limit. SO nM at concentration range up to 20 mu M An ethanol biosensor was also developed by immobilizing alcohol dehydrogenase enzyme onto nanocomposite Differential pulse voltammetric detection of ethanol gives linear responses over the concentration range 40 mu M-1 5 mM with detection limit 5 Oil and sensitivity I 97 mu A mM(-1)
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