Yuan Zhimin, Sun Xianhui, Wang Haiquan, Zhao Xingling, Jiang Zaiyong
School of Chemistry & Chemical Engineering and Environmental Engineering, Weifang University, Weifang 261061, China.
Food and Drug Department, Weifang Vocational College, Weifang 261061, China.
Molecules. 2024 Aug 16;29(16):3882. doi: 10.3390/molecules29163882.
Heterogeneous CO hydrogenation catalytic reactions, as the strategies for CO emission reduction and green carbon resource recycling, play important roles in alleviating global warming and energy shortages. Among these strategies, photothermal CO hydrogenation technology has become one of the hot catalytic technologies by virtue of the synergistic advantages of thermal catalysis and photocatalysis. And it has attracted more and more researchers' attentions. Various kinds of effective photothermal catalysts have been gradually discovered, and nickel-based catalysts have been widely studied for their advantages of low cost, high catalytic activity, abundant reserves and thermal stability. In this review, the applications of nickel-based catalysts in photothermal CO hydrogenation are summarized. Finally, through a good understanding of the above applications, future modification strategies and design directions of nickel-based catalysts for improving their photothermal CO hydrogenation activities are proposed.
多相CO加氢催化反应作为CO减排和绿色碳资源循环利用的策略,在缓解全球变暖和能源短缺方面发挥着重要作用。在这些策略中,光热CO加氢技术凭借热催化和光催化的协同优势,已成为热门催化技术之一,并吸引了越来越多研究者的关注。各种有效的光热催化剂已逐渐被发现,其中镍基催化剂因其成本低、催化活性高、储量丰富和热稳定性好等优点而得到广泛研究。本文综述了镍基催化剂在光热CO加氢中的应用。最后,通过对上述应用的深入理解,提出了未来改进镍基催化剂光热CO加氢活性的改性策略和设计方向。
