Tuning Structural Changes in Glucose Oxidase for Enzyme Fuel Cell Applications

Stabilization and electrical contacting of redox enzymes with electrodes are fundamental requirements for bioelectronics devices, including biosensors and enzyme fuel cells (EFCs). In this study, we show increased glucose oxidase (GOx) stability by immobilization with Nafion. The immobilization proc...

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Bibliographic Details
Published in:ACS applied materials & interfaces 2015-12, Vol.7 (51), p.28311-28318
Main Authors: Mecheri, Barbara, De Porcellinis, Diana, Campana, Patricia T, Rainer, Alberto, Trombetta, Marcella, Marletta, Alexandre, Oliveira, Osvaldo N, Licoccia, Silvia
Format: Article
Language:English
Subjects:
Bioelectric Energy Sources
Electricity
Electrodes
Enzymes, Immobilized - chemistry
Glucose Oxidase - chemistry
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Summary:Stabilization and electrical contacting of redox enzymes with electrodes are fundamental requirements for bioelectronics devices, including biosensors and enzyme fuel cells (EFCs). In this study, we show increased glucose oxidase (GOx) stability by immobilization with Nafion. The immobilization process affected GOx conformation but was not detrimental to its activity, which was maintained for more than 120 days. The GOx/Nafion system was interfaced to a carbon cloth electrode and assembled in a prototypal EFC fed with glucose. Polarization and power density curves demonstrated that GOx/Nafion system was able to generate power, exploiting a Nafion-assisted electron transfer process to the electrode. Our findings are consistent with the onset of pH-dependent conformational equilibrium for the enzyme secondary structure and its active site. Significantly, the protective effect exerted by Nafion on the enzyme structure may be tuned by varying parameters such as the pH to fabricate durable EFCs with good electrocatalytic performance.
ISSN:1944-8244
1944-8252
DOI:10.1021/acsami.5b08610