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Enzymatic fuel cells with an oxygen resistant variant of pyranose-2-oxidase as anode biocatalyst

Enzymatic fuel cells with an oxygen resistant variant of pyranose-2-oxidase as anode biocatalyst
Enzymatic fuel cells with an oxygen resistant variant of pyranose-2-oxidase as anode biocatalyst

In enzymatic fuel cells (EnFCs), hydrogen peroxide formation is one of the main problems when enzymes, such as, glucose oxidase (GOx) is used due to the conversion of oxygen to hydrogen peroxide in the catalytic reaction. To address this problem, we here report the first demonstration of an EnFC using a variant of pyranose-2-oxidase (P2O-T169G) which has been shown to have low activity towards oxygen. A simple and biocompatible immobilisation approach incorporating multi-walled-carbon nanotubes within ferrocene (Fc)-Nafion film was implemented to construct EnFCs. Successful immobilisation of the enzymes was demonstrated showing 3.2 and 1.7-fold higher current than when P2O-T169G and GOx were used in solution, respectively. P2O-T169G showed 25% higher power output (maximum power density value of 8.45 ± 1.6 μW cm−2) and better stability than GOx in aerated glucose solutions. P2O-T169G maintained > 70% of its initial current whereas GOx lost activity > 90% during the first hour of 12 h operation at 0.15 V (vs Ag/Ag+). A different fuel cell configuration using gas-diffusion cathode and carbon paper electrodes were used to improve the power output of the fuel cell to 29.8 ± 6.1 µW cm−2. This study suggests that P2O-T169G with low oxygen activity could be a promising anode biocatalyst for EnFC applications.

Biosensors, Enzymatic fuel cells, Ferrocene, Glucose oxidase, Nafion, Pyranose-2-oxidase
0956-5663
17-25
Şahin, Samet
7a2bcc56-24f3-4502-86d2-5a6faa36f44c
Wongnate, Thanyaporn
b5f92cba-7626-4da4-b367-29fb6f73290b
Chuaboon, Litavadee
b72f5244-135e-44f2-82c0-d0efd87b3f1f
Chaiyen, Pimchai
0f5d310e-f669-41f9-9170-f72e0d7cee6d
Yu, Eileen Hao
28e47863-4b50-4821-b80b-71fb5a2edef2
Şahin, Samet
7a2bcc56-24f3-4502-86d2-5a6faa36f44c
Wongnate, Thanyaporn
b5f92cba-7626-4da4-b367-29fb6f73290b
Chuaboon, Litavadee
b72f5244-135e-44f2-82c0-d0efd87b3f1f
Chaiyen, Pimchai
0f5d310e-f669-41f9-9170-f72e0d7cee6d
Yu, Eileen Hao
28e47863-4b50-4821-b80b-71fb5a2edef2

Şahin, Samet, Wongnate, Thanyaporn, Chuaboon, Litavadee, Chaiyen, Pimchai and Yu, Eileen Hao (2018) Enzymatic fuel cells with an oxygen resistant variant of pyranose-2-oxidase as anode biocatalyst. Biosensors and Bioelectronics, 107, 17-25. (doi:10.1016/j.bios.2018.01.065).

Record type: Article

Abstract

In enzymatic fuel cells (EnFCs), hydrogen peroxide formation is one of the main problems when enzymes, such as, glucose oxidase (GOx) is used due to the conversion of oxygen to hydrogen peroxide in the catalytic reaction. To address this problem, we here report the first demonstration of an EnFC using a variant of pyranose-2-oxidase (P2O-T169G) which has been shown to have low activity towards oxygen. A simple and biocompatible immobilisation approach incorporating multi-walled-carbon nanotubes within ferrocene (Fc)-Nafion film was implemented to construct EnFCs. Successful immobilisation of the enzymes was demonstrated showing 3.2 and 1.7-fold higher current than when P2O-T169G and GOx were used in solution, respectively. P2O-T169G showed 25% higher power output (maximum power density value of 8.45 ± 1.6 μW cm−2) and better stability than GOx in aerated glucose solutions. P2O-T169G maintained > 70% of its initial current whereas GOx lost activity > 90% during the first hour of 12 h operation at 0.15 V (vs Ag/Ag+). A different fuel cell configuration using gas-diffusion cathode and carbon paper electrodes were used to improve the power output of the fuel cell to 29.8 ± 6.1 µW cm−2. This study suggests that P2O-T169G with low oxygen activity could be a promising anode biocatalyst for EnFC applications.

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More information

Published date: 1 June 2018
Additional Information: Publisher Copyright: © 2018
Keywords: Biosensors, Enzymatic fuel cells, Ferrocene, Glucose oxidase, Nafion, Pyranose-2-oxidase
Learn more about School of Chemistry research

Identifiers

Local EPrints ID: 498883
URI: http://eprints.soton.ac.uk/id/eprint/498883
DOI: doi:10.1016/j.bios.2018.01.065
ISSN: 0956-5663
PURE UUID: b598df59-dae1-4475-b98c-c3130a27d6c9
ORCID for Eileen Hao Yu: ORCID iD orcid.org/0000-0002-6872-975X

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Date deposited: 04 Mar 2025 17:50
Last modified: 05 Mar 2025 03:17

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Contributors

Author: Samet Şahin
Author: Thanyaporn Wongnate
Author: Litavadee Chuaboon
Author: Pimchai Chaiyen
Author: Eileen Hao Yu ORCID iD

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