A novel sediment microbial fuel cell with a biocathode in the rice rhizosphere

Zheng Chen; Yan chao Huang; Jian hong Liang; Feng Zhao; Yong guan Zhu

doi:10.1016/j.biortech.2011.10.040

A novel sediment microbial fuel cell with a biocathode in the rice rhizosphere

Zheng Chen, Yan chao Huang, Jian hong Liang, Feng Zhao, Yong guan Zhu^*

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

133 Citations (Scopus)

Abstract

Wetland plants possess the unique ability to release oxygen as well as organic matter into the rhizosphere. It is understood that microbial fuel cells (MFCs) can use organic matter from plants as key electron donors, but the effect of root excreted oxygen on MFCs is presently unknown. In this study, a novel biocathode was buried in the rice rhizosphere and found to be capable of delivering electrons to root excreted oxygen for oxygen reduction reactions. The voltages between electrodes in the rhizosphere and bulk soil were found to increase initially, but dissipate after approximately 1. month. Results from the MFC and oxygen microelectrode experiments indicated that the oxygen efflux rate from rice roots was dependent on the root maturity. Furthermore, the excreted oxygen from wetland plant roots could be used for the construction of highly efficient biocathodes.

Original language	English
Pages (from-to)	55-59
Number of pages	5
Journal	Bioresource Technology
Volume	108
DOIs	https://doi.org/10.1016/j.biortech.2011.10.040
Publication status	Published - Mar 2012
Externally published	Yes

Keywords

Biocathode
Microbial fuel cells
Radius oxygen loss
Rice
Wetland plant

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1016/j.biortech.2011.10.040

Cite this

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title = "A novel sediment microbial fuel cell with a biocathode in the rice rhizosphere",

abstract = "Wetland plants possess the unique ability to release oxygen as well as organic matter into the rhizosphere. It is understood that microbial fuel cells (MFCs) can use organic matter from plants as key electron donors, but the effect of root excreted oxygen on MFCs is presently unknown. In this study, a novel biocathode was buried in the rice rhizosphere and found to be capable of delivering electrons to root excreted oxygen for oxygen reduction reactions. The voltages between electrodes in the rhizosphere and bulk soil were found to increase initially, but dissipate after approximately 1. month. Results from the MFC and oxygen microelectrode experiments indicated that the oxygen efflux rate from rice roots was dependent on the root maturity. Furthermore, the excreted oxygen from wetland plant roots could be used for the construction of highly efficient biocathodes.",

keywords = "Biocathode, Microbial fuel cells, Radius oxygen loss, Rice, Wetland plant",

author = "Zheng Chen and Huang, {Yan chao} and Liang, {Jian hong} and Feng Zhao and Zhu, {Yong guan}",

note = "Funding Information: We are grateful to the anonymous reviewers for their useful criticism and suggestions for improvement. We also thank Prof. Jun Yang for his identification of algae and Ms. Laura Webb for reviewing the English usage. The research has received funding from the National Science Foundation of China (Grant No. 41090280 ) and the Knowledge Innovation Program of CAS (KZCX2-EW-402). Appendix A ",

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doi = "10.1016/j.biortech.2011.10.040",

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AU - Chen, Zheng

AU - Huang, Yan chao

AU - Liang, Jian hong

AU - Zhao, Feng

AU - Zhu, Yong guan

N1 - Funding Information: We are grateful to the anonymous reviewers for their useful criticism and suggestions for improvement. We also thank Prof. Jun Yang for his identification of algae and Ms. Laura Webb for reviewing the English usage. The research has received funding from the National Science Foundation of China (Grant No. 41090280 ) and the Knowledge Innovation Program of CAS (KZCX2-EW-402). Appendix A

PY - 2012/3

Y1 - 2012/3

N2 - Wetland plants possess the unique ability to release oxygen as well as organic matter into the rhizosphere. It is understood that microbial fuel cells (MFCs) can use organic matter from plants as key electron donors, but the effect of root excreted oxygen on MFCs is presently unknown. In this study, a novel biocathode was buried in the rice rhizosphere and found to be capable of delivering electrons to root excreted oxygen for oxygen reduction reactions. The voltages between electrodes in the rhizosphere and bulk soil were found to increase initially, but dissipate after approximately 1. month. Results from the MFC and oxygen microelectrode experiments indicated that the oxygen efflux rate from rice roots was dependent on the root maturity. Furthermore, the excreted oxygen from wetland plant roots could be used for the construction of highly efficient biocathodes.

AB - Wetland plants possess the unique ability to release oxygen as well as organic matter into the rhizosphere. It is understood that microbial fuel cells (MFCs) can use organic matter from plants as key electron donors, but the effect of root excreted oxygen on MFCs is presently unknown. In this study, a novel biocathode was buried in the rice rhizosphere and found to be capable of delivering electrons to root excreted oxygen for oxygen reduction reactions. The voltages between electrodes in the rhizosphere and bulk soil were found to increase initially, but dissipate after approximately 1. month. Results from the MFC and oxygen microelectrode experiments indicated that the oxygen efflux rate from rice roots was dependent on the root maturity. Furthermore, the excreted oxygen from wetland plant roots could be used for the construction of highly efficient biocathodes.

KW - Biocathode

KW - Microbial fuel cells

KW - Radius oxygen loss

KW - Rice

KW - Wetland plant

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DO - 10.1016/j.biortech.2011.10.040

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SN - 0960-8524

VL - 108

SP - 55

EP - 59

JO - Bioresource Technology

JF - Bioresource Technology

ER -

A novel sediment microbial fuel cell with a biocathode in the rice rhizosphere

Abstract

Keywords

UN SDGs

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