Stainless steel-based materials for energy generation and storage in bioelectrochemical systems applications
Stainless steel-based materials for energy generation and storage in bioelectrochemical systems applications
Bioanodes were developed on stainless steel (SS)-based materials for energy generation and storage in bioelectrochemical systems (BES). Bioanode performances were studied in half-cells at poised potential of -0.2 V vs Ag/AgCl. Flame oxidised SS (FO-SS), reduced graphene oxide SS (rGO-SS), magnetite SS (Mag-SS) and Mag-FOSS achieved current densities of 0.78 mA cm-2, 0.72, 0.54 and 0.45 mA cm-2, respectively. Modified SS material showed improved startup time and biocompatibility compared to unmodified SS. In addition, in charge/discharge mode, Mag-SS and Mag-FO-SS showed promising results for energy storage, as they led to an increase of the current densities measured by respectively 24.5 ± 0.6% and 57.5 ± 7.9% compared to these recorded during the chronoamperometry experiments. This indicates that stainless steel based materials are promising anode materials for scale-up bioelectrochemical systems.
1181-1192
Fontmorin, Jean Marie
5bf4da48-91b0-4548-a4ef-c5dd8e0b630c
Hou, Junxian
c190116c-d388-4fa7-a40a-749101fd27ad
Rasul, Shahid
482cda2a-0a01-4f15-846a-c4aa2f73b824
Yu, Eileen
28e47863-4b50-4821-b80b-71fb5a2edef2
2018
Fontmorin, Jean Marie
5bf4da48-91b0-4548-a4ef-c5dd8e0b630c
Hou, Junxian
c190116c-d388-4fa7-a40a-749101fd27ad
Rasul, Shahid
482cda2a-0a01-4f15-846a-c4aa2f73b824
Yu, Eileen
28e47863-4b50-4821-b80b-71fb5a2edef2
Fontmorin, Jean Marie, Hou, Junxian, Rasul, Shahid and Yu, Eileen
(2018)
Stainless steel-based materials for energy generation and storage in bioelectrochemical systems applications.
ECS Transactions, 85 (13), .
(doi:10.1149/08513.1181ecst).
Abstract
Bioanodes were developed on stainless steel (SS)-based materials for energy generation and storage in bioelectrochemical systems (BES). Bioanode performances were studied in half-cells at poised potential of -0.2 V vs Ag/AgCl. Flame oxidised SS (FO-SS), reduced graphene oxide SS (rGO-SS), magnetite SS (Mag-SS) and Mag-FOSS achieved current densities of 0.78 mA cm-2, 0.72, 0.54 and 0.45 mA cm-2, respectively. Modified SS material showed improved startup time and biocompatibility compared to unmodified SS. In addition, in charge/discharge mode, Mag-SS and Mag-FO-SS showed promising results for energy storage, as they led to an increase of the current densities measured by respectively 24.5 ± 0.6% and 57.5 ± 7.9% compared to these recorded during the chronoamperometry experiments. This indicates that stainless steel based materials are promising anode materials for scale-up bioelectrochemical systems.
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Published date: 2018
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© The Electrochemical Society.
Venue - Dates:
233rd Meeting of the Electrochemical Society, , Seattle, United States, 2018-05-13 - 2018-05-17
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Local EPrints ID: 499256
URI: http://eprints.soton.ac.uk/id/eprint/499256
ISSN: 1938-6737
PURE UUID: 1a13f272-8121-4cd0-91b1-a52758024778
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Date deposited: 12 Mar 2025 18:24
Last modified: 13 Mar 2025 03:15
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Author:
Jean Marie Fontmorin
Author:
Junxian Hou
Author:
Shahid Rasul
Author:
Eileen Yu
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