A Whole-Cell Inorganic-Biohybrid System Integrated by Reduced Graphene Oxide for Boosting Solar Hydrogen Production

The photoelectron transfer between semiconductors and cells is the rate-determining step that controls the solar H2 production of whole-cell inorganic-biohybrid systems (IBSs). Herein, we constructed an IBS by using reduced graphene oxide (RGO) to integrate Shewanella oneidensis MR-1 (SW) cells and...

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Published in	ACS catalysis Vol. 10; no. 22; pp. 13290 - 13295
Main Authors	Shen, Hongqiang, Wang, Yan-Zhai, Liu, Guiwu, Li, Longhua, Xia, Rong, Luo, Bifu, Wang, Jixiang, Suo, Di, Shi, Weidong, Yong, Yang-Chun
Format	Journal Article
Language	English
Published	American Chemical Society 20.11.2020
Subjects	H2 production Shewanella oneidensis MR-1 cuprous oxide reduced graphene oxide inorganic-biohybrid
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Abstract	The photoelectron transfer between semiconductors and cells is the rate-determining step that controls the solar H2 production of whole-cell inorganic-biohybrid systems (IBSs). Herein, we constructed an IBS by using reduced graphene oxide (RGO) to integrate Shewanella oneidensis MR-1 (SW) cells and Cu2O, which exhibited a 11–38-fold enhancement of photocatalytic H2 production compared with RGO-free IBSs (Cu2O/SW and Cu2O/organic electron mediator/SW). Further analysis revealed that RGO provided multifunctional contributions to H2 production from IBS, that is, sufficient area for IBS supporting, efficient photoelectron collection from Cu2O, and effective electron distribution into the cells. This study offers opportunities for rationally designing electron transfer pathways to achieve high-performance IBSs.
AbstractList	The photoelectron transfer between semiconductors and cells is the rate-determining step that controls the solar H2 production of whole-cell inorganic-biohybrid systems (IBSs). Herein, we constructed an IBS by using reduced graphene oxide (RGO) to integrate Shewanella oneidensis MR-1 (SW) cells and Cu2O, which exhibited a 11–38-fold enhancement of photocatalytic H2 production compared with RGO-free IBSs (Cu2O/SW and Cu2O/organic electron mediator/SW). Further analysis revealed that RGO provided multifunctional contributions to H2 production from IBS, that is, sufficient area for IBS supporting, efficient photoelectron collection from Cu2O, and effective electron distribution into the cells. This study offers opportunities for rationally designing electron transfer pathways to achieve high-performance IBSs.
Author	Shi, Weidong Wang, Jixiang Luo, Bifu Xia, Rong Liu, Guiwu Li, Longhua Suo, Di Yong, Yang-Chun Shen, Hongqiang Wang, Yan-Zhai
AuthorAffiliation	Pharmaceutical Sciences Laboratory Åbo Akademi University Biofuels Institute, School of Environment and Safety Engineering School of Material Science and Engineering Zhenjiang Hengshun Bioengineering Co., Ltd School of Chemistry and Chemical Engineering
AuthorAffiliation_xml	– name: Biofuels Institute, School of Environment and Safety Engineering – name: Åbo Akademi University – name: Pharmaceutical Sciences Laboratory – name: School of Chemistry and Chemical Engineering – name: School of Material Science and Engineering – name: Zhenjiang Hengshun Bioengineering Co., Ltd
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