Enhanced power generation in microbial fuel cell by an agonist of electroactive biofilm – Sulfamethoxazole

•SMX enhanced the power generation as well as extended energy production duration.•Power density was improved by 18.09% with the presence of SMX.•Energy efficiency increased by 3-fold to 9.6 KW·h kg−1 with the presence of SMX.•Main exoelectrogenics were enriched by exposure to SMX.•SMX degradation p...

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Published inChemical engineering journal (Lausanne, Switzerland : 1996) Vol. 384; p. 123238
Main Authors Wu, Dan, Sun, Faqian, Chua, Feng Jun Desmond, Zhou, Yan
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.03.2020
Subjects
Electroactive biofilm
Electron transfer
Energy
Microbial fuel cell
Sulfamethoxazole
Electron transfer
Microbial fuel cell
Sulfamethoxazole
Energy
Electroactive biofilm
Online AccessGet full text
ISSN1385-8947
1873-3212
DOI10.1016/j.cej.2019.123238

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Abstract •SMX enhanced the power generation as well as extended energy production duration.•Power density was improved by 18.09% with the presence of SMX.•Energy efficiency increased by 3-fold to 9.6 KW·h kg−1 with the presence of SMX.•Main exoelectrogenics were enriched by exposure to SMX.•SMX degradation pathways were corresponded to the three main exoelectrogenics. Electroactive biofilm (EABF) is equipped with the capability of direct extracellular electron transfer. It is commonly employed in bioelectrochemical system (BES) for organics conversion and pollutants removal. In this study, for the first time, we find out one type of antibiotics namely sulfamethoxazole (SMX) can increase the activity and performance of EABF in microbial fuel cell (MFC). The results confirm that SMX acted as an agonist in promoting the regulation of EABF. The maximum power density increased by 18% with the presence of 20 mg L−1 SMX in comparison to 1 g L−1 acetate sodium as sole carbon source. Moreover, the energy efficiency also increased by almost 3-fold to 9.6 KW·h kg−1. Meanwhile, SMX can be completely transformed to other by-products via various pathways without inhibiting the performance of MFC. Interestingly, microbial community analysis shows the presence of SMX removed the competitive population in the anode and enhanced the abundance of exoelectrogens, suggesting another possible mechanism for energy enhancement. This study demonstrates that some organics which are toxic and bio-refractory, such as antibiotics, can be used to alter the microbial communities to enhance the performance of electricity generation.
AbstractList •SMX enhanced the power generation as well as extended energy production duration.•Power density was improved by 18.09% with the presence of SMX.•Energy efficiency increased by 3-fold to 9.6 KW·h kg−1 with the presence of SMX.•Main exoelectrogenics were enriched by exposure to SMX.•SMX degradation pathways were corresponded to the three main exoelectrogenics. Electroactive biofilm (EABF) is equipped with the capability of direct extracellular electron transfer. It is commonly employed in bioelectrochemical system (BES) for organics conversion and pollutants removal. In this study, for the first time, we find out one type of antibiotics namely sulfamethoxazole (SMX) can increase the activity and performance of EABF in microbial fuel cell (MFC). The results confirm that SMX acted as an agonist in promoting the regulation of EABF. The maximum power density increased by 18% with the presence of 20 mg L−1 SMX in comparison to 1 g L−1 acetate sodium as sole carbon source. Moreover, the energy efficiency also increased by almost 3-fold to 9.6 KW·h kg−1. Meanwhile, SMX can be completely transformed to other by-products via various pathways without inhibiting the performance of MFC. Interestingly, microbial community analysis shows the presence of SMX removed the competitive population in the anode and enhanced the abundance of exoelectrogens, suggesting another possible mechanism for energy enhancement. This study demonstrates that some organics which are toxic and bio-refractory, such as antibiotics, can be used to alter the microbial communities to enhance the performance of electricity generation.
ArticleNumber 123238
Author Sun, Faqian
Zhou, Yan
Chua, Feng Jun Desmond
Wu, Dan
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  givenname: Feng Jun Desmond
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  surname: Zhou
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  organization: Advanced Environmental Biotechnology Centre, Nanyang Environment and Water Research Institute, Nanyang Technological University, 1 Cleantech Loop, Singapore 639798, Singapore
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Keywords Electron transfer
Microbial fuel cell
Sulfamethoxazole
Energy
Electroactive biofilm
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Snippet •SMX enhanced the power generation as well as extended energy production duration.•Power density was improved by 18.09% with the presence of SMX.•Energy...
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SubjectTerms Electroactive biofilm
Electron transfer
Energy
Microbial fuel cell
Sulfamethoxazole
Title Enhanced power generation in microbial fuel cell by an agonist of electroactive biofilm – Sulfamethoxazole
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