Copper-based catalysts for CO2 hydrogenation: a perspective on active sites

EES catalysis Pub Date : 2023-08-14 DOI:10.1039/D3EY00152K
Yun-Fei Shi, Sicong Ma and Zhi-Pan Liu
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Abstract

CO2 hydrogenation is regarded as a revolutionized field in heterogeneous catalysis, not only mitigating environmental problems caused by greenhouse gases but also producing valuable chemicals. This Perspective, going over both theoretical and experimental advances, aims to bridge Cu-based catalyst structures, the most important type of CO2 hydrogenation catalyst, and their catalysis applications with varied activity and selectivity. We provide a systematic overview of the catalytic active sites, the reaction mechanism, and their impact on the reaction selectivity, stability, and activity for CO2 hydrogenation. There is a particular focus on the nature of the industrial Cu/ZnO/Al2O3 catalyst, where a large volume of literature is available exploring the reaction energetics on the possible reaction sites, including Cu metal, CuZn alloy, and ZnOxHy overlayers. The recent advances in designing better catalytic active sites, such as the Cu single-atom catalyst, supported Cu cluster catalyst, and bimetallic Cu–M, are then followed to illustrate how the activity and selectivity vary upon changing the active sites. Our perspectives on the future research directions are finally provided, which should benefit the understanding of complex catalytic active sites and the design of better CO2 hydrogenation catalysts.

Abstract Image

用于CO2加氢的铜基催化剂:活性位点的观点
CO2加氢被认为是多相催化中一个革命性的领域,不仅可以缓解温室气体造成的环境问题,还可以生产有价值的化学品。这一观点涵盖了理论和实验进展,旨在桥接铜基催化剂结构(最重要的CO2加氢催化剂类型)及其具有不同活性和选择性的催化应用。我们系统地概述了催化活性位点、反应机理及其对CO2加氢反应选择性、稳定性和活性的影响。特别关注工业Cu/ZnO/Al2O3催化剂的性质,其中有大量文献可用于探索可能的反应位点上的反应能量学,包括Cu金属、CuZn合金和ZnOxHy覆盖层。随后介绍了设计更好的催化活性位点的最新进展,如Cu单原子催化剂、负载型Cu簇催化剂和双金属Cu–M,以说明活性和选择性如何随着活性位点的变化而变化。最后给出了我们对未来研究方向的展望,这将有助于理解复杂的催化活性位点和设计更好的CO2加氢催化剂。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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