A Cu-Zn nanoparticle promoter for selective carbon dioxide reduction and its application in visible-light-active Z-scheme systems using water as an electron donor

Ge Yin; Hiroshi Sako; Ramesh V. Gubbala; Shigenori Ueda; Akira Yamaguchi; Hideki Abe; Masahiro Miyauchi

Journal ArticleOPEN ACCESS

A Cu-Zn nanoparticle promoter for selective carbon dioxide reduction and its application in visible-light-active Z-scheme systems using water as an electron donor

Chemical Communications (2018) 54(32) 3947-3950

DOI: 10.1039/c8cc00535d

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Abstract

Selective carbon dioxide photoreduction to produce formic acid was achieved under visible light irradiation using water molecules as electron donors, similar to natural plants, based on the construction of a Z-scheme light harvesting system modified with a Cu-Zn alloy nanoparticle co-catalyst. The faradaic efficiency of our Z-scheme system for HCOOH generation was over 50% under visible light irradiation.

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Yin, G., Sako, H., Gubbala, R. V., Ueda, S., Yamaguchi, A., Abe, H., & Miyauchi, M. (2018). A Cu-Zn nanoparticle promoter for selective carbon dioxide reduction and its application in visible-light-active Z-scheme systems using water as an electron donor. Chemical Communications, 54(32), 3947–3950. https://doi.org/10.1039/c8cc00535d

A Cu-Zn nanoparticle promoter for selective carbon dioxide reduction and its application in visible-light-active Z-scheme systems using water as an electron donor

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