Enhancement of microbial fuel cell performance by introducing a nano-composite cathode catalyst
Enhancement of microbial fuel cell performance by introducing a nano-composite cathode catalyst
Iron aminoantipyrine (Fe-AAPyr), graphene nanosheets (GNSs) derived catalysts and their physical mixture Fe-AAPyr-GNS were synthesized and investigated as cathode catalysts for oxygen reduction reaction (ORR) with the activated carbon (AC) as a baseline. Fe-AAPyr catalyst was prepared by Sacrificial Support Method (SSM) with silica as a template and aminoantipyrine (AAPyr) as the organic precursor. 3D-GNS was prepared using modified Hummers method technique. The Oxygen Reduction Reaction (ORR) activity of these catalysts at different loadings was investigated by using rotating ring disk (RRDE) electrode setup in the neutral electrolyte. The performance of the catalysts integrated into air-breathing cathode was also investigated. The co-presence of GNS (2 mg cm−2) and Fe-AAPyr (2 mg cm−2) catalyst within the air-breathing cathode resulted in the higher power generation recorded in MFC of 235 ± 1 μW cm−2. Fe-AAPyr catalyst itself showed high performance (217 ± 1 μW cm−2), higher compared to GNS (150 ± 5 μW cm−2) while AC generated power of roughly 104 μW cm−2.
Oxygen reduction reaction (ORR), Microbial fuel cell, PGM-Free, Graphene nanosheets, Iron catalyst
56-64
Kodali, Mounika
40a7e520-fcc7-46d0-bddf-5d03281fd902
Herrera, Sergio
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Kabir, Sadia
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Serov, Alexey
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Santoro, Carlo
03549f6d-d57f-4d79-8bae-2d9271aa7371
Ieropoulos, Ioannis
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Atanassov, Plamen
a1fe7e9b-9386-448a-90a8-a870c3163922
1 March 2018
Kodali, Mounika
40a7e520-fcc7-46d0-bddf-5d03281fd902
Herrera, Sergio
4deb7a9d-6460-4b75-91db-94e0e29e4a56
Kabir, Sadia
3dd325ad-c1d7-4ee6-83b1-f9e526810a16
Serov, Alexey
d546edc2-cf7a-4b1a-a443-70bffdd636a3
Santoro, Carlo
03549f6d-d57f-4d79-8bae-2d9271aa7371
Ieropoulos, Ioannis
6c580270-3e08-430a-9f49-7fbe869daf13
Atanassov, Plamen
a1fe7e9b-9386-448a-90a8-a870c3163922
Kodali, Mounika, Herrera, Sergio, Kabir, Sadia, Serov, Alexey, Santoro, Carlo, Ieropoulos, Ioannis and Atanassov, Plamen
(2018)
Enhancement of microbial fuel cell performance by introducing a nano-composite cathode catalyst.
Electrochimica Acta, 265, .
(doi:10.1016/j.electacta.2018.01.118).
Abstract
Iron aminoantipyrine (Fe-AAPyr), graphene nanosheets (GNSs) derived catalysts and their physical mixture Fe-AAPyr-GNS were synthesized and investigated as cathode catalysts for oxygen reduction reaction (ORR) with the activated carbon (AC) as a baseline. Fe-AAPyr catalyst was prepared by Sacrificial Support Method (SSM) with silica as a template and aminoantipyrine (AAPyr) as the organic precursor. 3D-GNS was prepared using modified Hummers method technique. The Oxygen Reduction Reaction (ORR) activity of these catalysts at different loadings was investigated by using rotating ring disk (RRDE) electrode setup in the neutral electrolyte. The performance of the catalysts integrated into air-breathing cathode was also investigated. The co-presence of GNS (2 mg cm−2) and Fe-AAPyr (2 mg cm−2) catalyst within the air-breathing cathode resulted in the higher power generation recorded in MFC of 235 ± 1 μW cm−2. Fe-AAPyr catalyst itself showed high performance (217 ± 1 μW cm−2), higher compared to GNS (150 ± 5 μW cm−2) while AC generated power of roughly 104 μW cm−2.
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Published date: 1 March 2018
Keywords:
Oxygen reduction reaction (ORR), Microbial fuel cell, PGM-Free, Graphene nanosheets, Iron catalyst
Identifiers
Local EPrints ID: 456226
URI: http://eprints.soton.ac.uk/id/eprint/456226
ISSN: 0013-4686
PURE UUID: 5c479d85-0378-4424-8bf5-555ba0a3d4c8
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Date deposited: 26 Apr 2022 19:07
Last modified: 17 Mar 2024 04:10
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Contributors
Author:
Mounika Kodali
Author:
Sergio Herrera
Author:
Sadia Kabir
Author:
Alexey Serov
Author:
Carlo Santoro
Author:
Plamen Atanassov
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