Recent review of BixMOy (M=V, Mo, W) for photocatalytic CO2 reduction into solar fuels

The utilization of solar energy for CO2 conversion not only enables a green and low-carbon recycling of CO2 with renewable energy, but also solves ecological problems. BixMOy (M = V, Mo, W) materials have typical layered structures and unique electronic properties that provide suitable band gaps and...

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Bibliographic Details
Published in:Chemosphere (Oxford) 2022-11, Vol.307, p.136026-136026, Article 136026
Main Authors: Ren, Guangmin, Wei, Zixuan, Liu, Sitong, Shi, Meng, Li, Zizhen, Meng, Xiangchao
Format: Article
Language:English
Subjects:
BixMOy (M = V, Mo, W)
CO2 reduction
Mechanism
Modification
Photocatalysis
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Summary:The utilization of solar energy for CO2 conversion not only enables a green and low-carbon recycling of CO2 with renewable energy, but also solves ecological problems. BixMOy (M = V, Mo, W) materials have typical layered structures and unique electronic properties that provide suitable band gaps and potential to meet the basic conditions for CO2 reduction. However, pristine BixMOy faces with problems such as small specific surface area, insufficient active sites, low charge carriers’ separation and utilization efficiency. This review comprehensively described the basic principles and reaction pathways of photocatalytic CO2 reduction, and further presented the research progress of BixMOy catalysts in CO2 conversion reactions. In this perspective, we further focus on the design concepts and modification strategies to improve the photocatalytic CO2 reduction activity of BixMOy, such as morphology control, constructing surface vacancies and heterojunction fabrication. Finally, based on representative researches, the present review will be expected to provide updated information and insights for developing advanced BixMOy materials to further improve CO2 reduction activity and selectivity. [Display omitted] •The review aims to explore the potential of the BixMOy materials for photocatalytic CO2 reduction.•Modification strategies including morphology control, fabrication of defects and heterojunctions, carbonaceous materials coupling, etc.•The challenges and future prospects in the BixMOy photocatalytic CO2 conversion field are proposed.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2022.136026