Enzyme electrodes for glucose oxidation prepared by electropolymerization of pyrrole
Enzyme electrodes for glucose oxidation prepared by electropolymerization of pyrrole
In this work, a method of fabricating enzyme electrodes with the potential application for biofuel cells and biosensors was investigated. Enzyme electrodes were prepared by entrapping native glucose oxidase (GOx) and ferrocene wired GOx (FeFcGOx), as the dopants, in conducting polypyrrole matrices by electropolymerization. Furthermore, the developed polymer enzyme layer was characterized by physical and electrochemical analysis, and glucose oxidation activity on both electrodes was studied. Both electrodes showed direct electrical communication between the enzyme and electrode surface. Low glucose oxidation current was observed from the electrode containing GOx. Higher glucose oxidation current was obtained with FeFcGOx, and the current increased with the escalating glucose concentration suggesting that efficient electron transfer between the enzyme and the electrode surface were achieved. A maximum sensitivity of 20 mM for glucose concentration was obtained for the polymer electrode prepared from FeFcGOx.
Electropolymerization, Enzyme electrode and direct electron transfer, Glucose oxidation
489-493
Yu, E. H.
28e47863-4b50-4821-b80b-71fb5a2edef2
Sundmacher, K.
e0495a92-c60e-49c6-8bf2-28382ffeca6b
September 2007
Yu, E. H.
28e47863-4b50-4821-b80b-71fb5a2edef2
Sundmacher, K.
e0495a92-c60e-49c6-8bf2-28382ffeca6b
Yu, E. H. and Sundmacher, K.
(2007)
Enzyme electrodes for glucose oxidation prepared by electropolymerization of pyrrole.
Process Safety and Environmental Protection, 85 (5 B), .
(doi:10.1205/psep07031).
Abstract
In this work, a method of fabricating enzyme electrodes with the potential application for biofuel cells and biosensors was investigated. Enzyme electrodes were prepared by entrapping native glucose oxidase (GOx) and ferrocene wired GOx (FeFcGOx), as the dopants, in conducting polypyrrole matrices by electropolymerization. Furthermore, the developed polymer enzyme layer was characterized by physical and electrochemical analysis, and glucose oxidation activity on both electrodes was studied. Both electrodes showed direct electrical communication between the enzyme and electrode surface. Low glucose oxidation current was observed from the electrode containing GOx. Higher glucose oxidation current was obtained with FeFcGOx, and the current increased with the escalating glucose concentration suggesting that efficient electron transfer between the enzyme and the electrode surface were achieved. A maximum sensitivity of 20 mM for glucose concentration was obtained for the polymer electrode prepared from FeFcGOx.
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Published date: September 2007
Keywords:
Electropolymerization, Enzyme electrode and direct electron transfer, Glucose oxidation
Identifiers
Local EPrints ID: 498537
URI: http://eprints.soton.ac.uk/id/eprint/498537
ISSN: 0957-5820
PURE UUID: ffd4f472-e354-4ac0-b074-ca56ededfb41
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Date deposited: 20 Feb 2025 18:13
Last modified: 21 Feb 2025 03:16
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Author:
E. H. Yu
Author:
K. Sundmacher
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