Prevention and removal of membrane and separator biofouling in bioelectrochemical systems: a comprehensive review
Prevention and removal of membrane and separator biofouling in bioelectrochemical systems: a comprehensive review
Bioelectrochemical systems (BESs) have made significant progress in recent years in all aspects of their technology. BESs usually work with a membrane or a separator, which is one of their most critical components affecting performance. Quite often, biofilm from either the anolyte or catholyte forms on the membrane, which can negatively affect its performance. In critical cases, the long-term power performance observed for microbial fuel cells (MFCs) has dropped by over 90%. Surface modification and composite material approaches as well as chemical and physical cleaning techniques involving surfactants, acids, hydroxides, and ultrasounds have been successfully implemented to combat biofilm formation. Surface modifications produced up to 6–7 times higher power performance in the long-term, whereas regeneration strategies resulted in up to 100% recovery of original performance. Further studies include tools such as fluid dynamics-based design and plasma cleaning. The biofouling area is still underexplored in the field of bioelectrochemistry and requires systematic improvement. Therefore, this review summarizes the most recent knowledge with the aim of helping the research and engineering community select the best strategy and discuss further perspectives for combating the undesirable biofilm.
Pasternak, Grzegorz
fd3857b4-1e43-4fa7-aab8-0162c02b2c1b
de Rosset, Aleksander
a211be00-dc2b-4ae4-8e7e-3e099ea4b94a
Tyszkiewicz, Natalia
de08cdd3-e6e4-4ce3-819a-6def741587c0
Widera, Bartosz
a4bf0da3-78ca-4b04-aaf9-a9ce12368448
Greenman, John
eb3d9b82-7cac-4442-9301-f34884ae4a16
Ieropoulos, Yannis
6c580270-3e08-430a-9f49-7fbe869daf13
15 July 2022
Pasternak, Grzegorz
fd3857b4-1e43-4fa7-aab8-0162c02b2c1b
de Rosset, Aleksander
a211be00-dc2b-4ae4-8e7e-3e099ea4b94a
Tyszkiewicz, Natalia
de08cdd3-e6e4-4ce3-819a-6def741587c0
Widera, Bartosz
a4bf0da3-78ca-4b04-aaf9-a9ce12368448
Greenman, John
eb3d9b82-7cac-4442-9301-f34884ae4a16
Ieropoulos, Yannis
6c580270-3e08-430a-9f49-7fbe869daf13
Pasternak, Grzegorz, de Rosset, Aleksander, Tyszkiewicz, Natalia, Widera, Bartosz, Greenman, John and Ieropoulos, Yannis
(2022)
Prevention and removal of membrane and separator biofouling in bioelectrochemical systems: a comprehensive review.
iScience, 25 (7).
(doi:10.1016/j.isci.2022.104510).
Abstract
Bioelectrochemical systems (BESs) have made significant progress in recent years in all aspects of their technology. BESs usually work with a membrane or a separator, which is one of their most critical components affecting performance. Quite often, biofilm from either the anolyte or catholyte forms on the membrane, which can negatively affect its performance. In critical cases, the long-term power performance observed for microbial fuel cells (MFCs) has dropped by over 90%. Surface modification and composite material approaches as well as chemical and physical cleaning techniques involving surfactants, acids, hydroxides, and ultrasounds have been successfully implemented to combat biofilm formation. Surface modifications produced up to 6–7 times higher power performance in the long-term, whereas regeneration strategies resulted in up to 100% recovery of original performance. Further studies include tools such as fluid dynamics-based design and plasma cleaning. The biofouling area is still underexplored in the field of bioelectrochemistry and requires systematic improvement. Therefore, this review summarizes the most recent knowledge with the aim of helping the research and engineering community select the best strategy and discuss further perspectives for combating the undesirable biofilm.
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Published date: 15 July 2022
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Local EPrints ID: 503650
URI: http://eprints.soton.ac.uk/id/eprint/503650
ISSN: 2589-0042
PURE UUID: 251d2a5b-5240-438d-87a3-87a9076bcacb
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Date deposited: 07 Aug 2025 16:53
Last modified: 08 Aug 2025 02:04
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Author:
Grzegorz Pasternak
Author:
Aleksander de Rosset
Author:
Natalia Tyszkiewicz
Author:
Bartosz Widera
Author:
John Greenman
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