Photocatalytic Reduction on Bismuth-Based p-Block Semiconductors

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Cui, Dandan
Wang, Liang
Du, Yi
Hao, Weichang
Chen, Jun
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2018
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Abstract

With the constant increase in demand for fuel energy, research on the exploration of renewable energy sources is becoming significantly critical. Herein, photocatalysis for the direct conversion of solar to chemical energy has attracted tremendous attention. In particular, because of the energy band edges mainly formed by p orbitals or s-p hybridized states, resulting in narrow band gaps and highly dispersive band structures, photocatalysts constructed from p-block elements exhibit remarkable visible-light photocatalytic activity. Taking bismuth oxyhalide-based photocatalysts, a typical family of p-block semiconductors, as an example, the following perspective mainly focuses on three significant strategies, including constituent adjustment, vacancy engineering, and the construction of heterostructures, on the design and construction of bismuth-based solar-conversion systems with high efficiencies in terms of H2 evolution, CO2 reduction, and N2 fixation. Finally, our thoughts on future challenges to be overcome for the development of advanced photoreduction systems are presented.

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ACS Sustainable Chemistry & Engineering

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6

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12

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This document is the Accepted Manuscript version of a Published Work that appeared in final form in Chemistry of Materials, © 2018 American Chemical Society after peer review and technical editing by the publisher. To access the final edited and published work see https://doi.org/10.1021/acssuschemeng.8b04977

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Inorganic chemistry

Analytical chemistry

Chemical engineering

Science & Technology

Physical Sciences

Chemistry, Multidisciplinary

Green & Sustainable Science & Technology

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Cui, D; Wang, L; Du, Y; Hao, W; Chen, J, Photocatalytic Reduction on Bismuth-Based p-Block Semiconductors, ACS Sustainable Chemistry & Engineering, 2018, 6 (12), pp. 15936-15953

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