Biological and microbial fuel cells
Biological and microbial fuel cells
Biological fuel cells have attracted increasing interest in recent years because of their applications in environmental treatment; energy recovery and small scale power sources. Microbial Fuel Cell (MFC) is a promising technology for efficient wastewater treatment, generating energy as direct electricity for onsite applications, and recovering resources such as nutrients and heavy metals. Enzyme based fuel cells are of particular interest in biomedical research and healthcare; in environmental monitoring, and as the power source for portable electronic devices. The technology developed for fabrication of enzyme electrodes is described. Different enzyme immobilization methods using layered structures with self-assembled monolayers and entrapment of enzymes in polymer matrixes are reviewed. The performances of enzymatic biofuel cells are summarized and approaches on further development to overcome current challenges are discussed. This innovative technology will have a major impact and benefit to medical science and clinical research, healthcare management and energy production from renewable sources. Applications and advantages of using MFC for wastewater treatment are described: including organic matter removal efficiency, electricity generation, and resource recovery. The performance of organic removal, nutrients, and heavy metals recovery from municipal wastewater and real industrial wastewater are summarized. In addition, H2 and acetate production from microbial electrochemical cells are also reviewed to highlight the commercial implementation and challenge of this technology.
Bio-fuel cells, Enzyme immobilization, Enzymes, Heavy metal recovery, Hydrogen, Mediator, Microbial, Microbial-electrosynthesis, Nutrient recovery, Organic removal, Redox polymer
290-316
Da Li, Li
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Şahin, Samet
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Izadi, Paniz
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Ghangrekar, Makarand
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Duteanu, Narcis M.
cad44aea-feee-41e8-8d41-957c7dc78da5
Erable, Benjamin
2a08d0da-7167-4625-97df-03fb80f20842
Scott, Keith
38909157-296d-4fe7-a245-1b98e1fee913
Yu, Eileen Hao
28e47863-4b50-4821-b80b-71fb5a2edef2
1 January 2022
Da Li, Li
fddb3b71-b176-4fc4-8713-03a065086db7
Şahin, Samet
7a2bcc56-24f3-4502-86d2-5a6faa36f44c
Izadi, Paniz
0fda147e-44cf-4480-b72b-c3303c570573
Ghangrekar, Makarand
8d8b8794-5c4c-4200-abbe-93550f8f10fa
Duteanu, Narcis M.
cad44aea-feee-41e8-8d41-957c7dc78da5
Erable, Benjamin
2a08d0da-7167-4625-97df-03fb80f20842
Scott, Keith
38909157-296d-4fe7-a245-1b98e1fee913
Yu, Eileen Hao
28e47863-4b50-4821-b80b-71fb5a2edef2
Da Li, Li, Şahin, Samet, Izadi, Paniz, Ghangrekar, Makarand, Duteanu, Narcis M., Erable, Benjamin, Scott, Keith and Yu, Eileen Hao
(2022)
Biological and microbial fuel cells.
In,
Letcher, Trevor M.
(ed.)
Comprehensive Renewable Energy: Volume 1-9.
2 ed.
Elsevier, .
(doi:10.1016/B978-0-12-819727-1.00055-8).
Record type:
Book Section
Abstract
Biological fuel cells have attracted increasing interest in recent years because of their applications in environmental treatment; energy recovery and small scale power sources. Microbial Fuel Cell (MFC) is a promising technology for efficient wastewater treatment, generating energy as direct electricity for onsite applications, and recovering resources such as nutrients and heavy metals. Enzyme based fuel cells are of particular interest in biomedical research and healthcare; in environmental monitoring, and as the power source for portable electronic devices. The technology developed for fabrication of enzyme electrodes is described. Different enzyme immobilization methods using layered structures with self-assembled monolayers and entrapment of enzymes in polymer matrixes are reviewed. The performances of enzymatic biofuel cells are summarized and approaches on further development to overcome current challenges are discussed. This innovative technology will have a major impact and benefit to medical science and clinical research, healthcare management and energy production from renewable sources. Applications and advantages of using MFC for wastewater treatment are described: including organic matter removal efficiency, electricity generation, and resource recovery. The performance of organic removal, nutrients, and heavy metals recovery from municipal wastewater and real industrial wastewater are summarized. In addition, H2 and acetate production from microbial electrochemical cells are also reviewed to highlight the commercial implementation and challenge of this technology.
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Published date: 1 January 2022
Additional Information:
Publisher Copyright:
© 2022 Elsevier Ltd. All rights reserved.
Keywords:
Bio-fuel cells, Enzyme immobilization, Enzymes, Heavy metal recovery, Hydrogen, Mediator, Microbial, Microbial-electrosynthesis, Nutrient recovery, Organic removal, Redox polymer
Identifiers
Local EPrints ID: 498938
URI: http://eprints.soton.ac.uk/id/eprint/498938
PURE UUID: 571528de-5115-42db-92dc-5583a78937fd
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Date deposited: 04 Mar 2025 18:20
Last modified: 05 Mar 2025 03:17
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Contributors
Author:
Li Da Li
Author:
Samet Şahin
Author:
Paniz Izadi
Author:
Makarand Ghangrekar
Author:
Narcis M. Duteanu
Author:
Benjamin Erable
Author:
Keith Scott
Author:
Eileen Hao Yu
Editor:
Trevor M. Letcher
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