Hydroxylated and aminated polyaniline nanowire networks for improving anode performance in microbial fuel cells(ENVIRONMENTAL BIOTECHNOLOGY)
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概要
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Hydroxylated and aminated polyaniline nanowire networks were synthesized and used as anode materials to enhance the electrical outputs of microbial fuel cells (MFCs). MFCs with these anodes generated power and current densities as high as 0.28mW cm^<-2> (per geometric anode area) and 2.9mA cm^<-2>, respectively.
著者
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Watanabe Kazuya
Erato/jst Hashimoto Light Energy Conversion Project The University Of Tokyo:research Center For Adva
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Zhao Yong
ERATO/JST, Hashimoto Light Energy Conversion Project, The University of Tokyo
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Nakanishi Shuji
ERATO/JST, Hashimoto Light Energy Conversion Project, The University of Tokyo
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Hashimoto Kazuhito
ERATO/JST, Hashimoto Light Energy Conversion Project, The University of Tokyo
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Zhao Yong
Erato/jst Hashimoto Light Energy Conversion Project The University Of Tokyo
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Nakanishi Shuji
Erato/jst Hashimoto Light Energy Conversion Project The University Of Tokyo:research Center For Adva
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Hashimoto Kazuhito
Erato/jst Hashimoto Light Energy Conversion Project The University Of Tokyo:department Of Applied Ch
関連論文
- Hydroxylated and aminated polyaniline nanowire networks for improving anode performance in microbial fuel cells(ENVIRONMENTAL BIOTECHNOLOGY)
- Recent Developments in Microbial Fuel Cell Technologies for Sustainable Bioenergy
- Selection of Shewanella oneidensis MR-1 Gene-Knockout Mutants That Adapt to an Electrode-Respiring Condition
- Influences of Aerobic Respiration on Current Generation by Shewanella oneidensis MR-1 in Single-Chamber Microbial Fuel Cells
- Influences of Aerobic Respiration on Current Generation by Shewanella oneidensis MR-1 in Single-Chamber Microbial Fuel Cells
- Selection of Shewanella oneidensis MR-1 Gene-Knockout Mutants That Adapt to an Electrode-Respiring Condition