Issue 44, 2019

Freestanding ultrathin bismuth-based materials for diversified photocatalytic applications

Abstract

The emerging ultrathin materials with a suitable energy band structure have been regarded as a new type of photocatalyst. Among them, bismuth-based ultrathin materials display intriguing photocatalytic performance due to the unique structural and electronic properties, strong light response and appealing energy band structure. This critical review summarizes recent progress in the design and tailoring of diversified Bi-based ultrathin materials for various photocatalytic applications. We start with the introduction from the crystal structure, materials design and synthesis of various Bi-based ultrathin photocatalysts, such as bismuth oxide, bismuth oxyhalides, Bi2WO6, Bi2MoO6, BiVO4 and so on. Then, strategies for local atomic arrangement, electronic structure, and carrier concentration tuning, so as to boost the performance, are summarized, such as crystal facet control, bismuth-enrichment strategy, surface adjustment, heteroatom doping, defect engineering, co-catalyst modification, and utilization of solid solutions, single atoms, and heterojunctions. Furthermore, advancements of versatile photocatalytic applications over Bi-based ultrathin materials are discussed, including oxygen evolution, hydrogen evolution, organic syntheses, CO2 reduction, N2 reduction, and pollutant removal, with an emphasis on the structure–activity relationship. Finally, the existing challenges and future research opportunities are also presented.

Graphical abstract: Freestanding ultrathin bismuth-based materials for diversified photocatalytic applications

Article information

Article type
Review Article
Submitted
14 rugs. 2019
Accepted
14 spal. 2019
First published
17 spal. 2019

J. Mater. Chem. A, 2019,7, 25203-25226

Freestanding ultrathin bismuth-based materials for diversified photocatalytic applications

J. Xiong, P. Song, J. Di, H. Li and Z. Liu, J. Mater. Chem. A, 2019, 7, 25203 DOI: 10.1039/C9TA10144F

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