Bi-based visible light-driven nano-photocatalyst: the design, synthesis, and its application in pollutant governance and energy development

•Bi-based photocatalyst can be designed to improve the visible light response.•Multiple strategies can be used to improve the efficiency of Bi-based photocatalyst.•Bi-based photocatalysts are efficient in mitigating various environmental pollution.•Bi-based photocatalyst aids in developing green new...

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Bibliographic Details
Published in:Nano today 2022-04, Vol.43, p.101432, Article 101432
Main Authors: Cui, Yanyan, Li, Mengke, Zhu, Nali, Cheng, Yan, Lam, Su Shiung, Chen, Jun, Gao, Yuxi, Zhao, Jiating
Format: Article
Language:English
Subjects:
Bi-based nanomaterial
Optimizing strategies
Photocatalyst
Pollutant degradation
Visible light
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Summary:•Bi-based photocatalyst can be designed to improve the visible light response.•Multiple strategies can be used to improve the efficiency of Bi-based photocatalyst.•Bi-based photocatalysts are efficient in mitigating various environmental pollution.•Bi-based photocatalyst aids in developing green new energy with high efficiency. [Display omitted] Environment and energy are the two most important aspects of human health and development. With hazardous materials being continuously produced by anthropogenic involvements, our living surroundings are becoming increasingly polluted and pose significant health risks. Meanwhile, the shortage of energy is becoming prominent with industrial development. The search for green and effective methods for environmental and energy governance has received widespread attention, particularly the exploration of the conversion and application of solar energy in advanced materials. Bismuth (Bi)-based nanomaterials have strong potential in environmental governance and clean energy generation due to their desirable characteristics and unique structure that effectively responds to visible light. Many factors such as composition, crystal structure, and surface fabrication can influence photocatalytic performance and their application in pollutant removal and energy generation. Here, we reviewed and compared a series of design strategies of visible light-responsive Bi-based photocatalyst, synthesis methods, and their applications in organic synthesis, air purification, pollutant degradation, carbon dioxide reduction, and water decomposition. This work may shed light on designing more environment-friendly and effective Bi-based materials and approaches to be applied in site remediation and energy generation.
ISSN:1748-0132
1878-044X
DOI:10.1016/j.nantod.2022.101432