With the development of the global economy and the continuous consumption of fossil energy, a large amount of greenhouse gas CO2 has been emitted into the atmosphere. Therefore, how to reduce the concentration of CO2 in the atmosphere and convert it into high value-added products has gradually become a hot spot in scientific research. Photocatalytic CO2 reduction technology can combine semiconductor with solar energy to convert CO2 into high value-added organic carbon source through photocatalysis, which is of great significance for the effective utilization of solar energy and the emission reduction of CO2. After decades of exploration, many effective photocatalysts have been discovered. Among them, Bi2WO6 with visible light absorption ability, as a new-type bismuth-based catalyst, has been widely studied due to its unique two-dimensional layered structure, stability, low cost and non-toxicity, et al. In this review, recent Advances of Bi2WO6 in photocatalytic CO2 reduction reaction are summarized, including reaction mechanism, product selective regulation, In-situ Fourier transform infrared spectra application, density functional theory calculation, and various modification strategies. Finally, based on the in-depth understanding of the above advances, the future modification strategies and design ideas of Bi2WO6 in the field of photocatalytic CO2 research are proposed. This has important practical significance for the latter design and development of Bi2WO6-based composite photocatalysts with high CO2 conversion performance.
Keywords: Bi(2)WO(6); CO(2) reduction; Layer structure; Photocatalysis.
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