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Bioelectrocatalysis of Oxygen Reduction Reaction by Laccase on Gold Electrodes

✍ Scribed by Gautam Gupta; Vijaykumar Rajendran; Plamen Atanassov

Book ID
102181958
Publisher
John Wiley and Sons
Year
2004
Tongue
English
Weight
116 KB
Volume
16
Category
Article
ISSN
1040-0397

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✦ Synopsis

Abstract

Direct electron transfer (DET) reaction of oxygen electroreduction catalyzed by enzyme laccase on monolayer modified gold electrodes was studied. Three different monolayers were investigated, from which 4‐aminothiophenol was found to be optimal for the direct electron transfer to take place. The electrocatalytic reduction of the oxygen at the electrode surface was found to depend significantly on the method of immobilization. Fungal laccase from Coriolus hirsitus modified with sodium‐periodate demonstrated more anodic onset potential for oxygen reduction than the tree laccase from Rhus vernicifera. Physical immobilization of enzyme did not result in any manifestation of bioelectrocatalytic activity. A maximum anodic shift in reduction potential of 300β€…mV was observed for fungal laccase covalently coupled on the electrode surface.

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