Chao Guojie, Wang Jian, Zong Wei, Fan Wei, Xue Tiantian, Zhang Longsheng, Liu Tianxi
Key Laboratory of Synthetic and Biological Colloids, Ministry of Education, School of Chemical and Material Engineering, Jiangnan University, Wuxi, People's Republic of China.
Jiangsu Engineering Research Center of New Energy Vehicle Energy Saving and Battery Safety, WUXI Institute of Technology, Wuxi, People's Republic of China.
Nanotechnology. 2024 Aug 6;35(43). doi: 10.1088/1361-6528/ad64d9.
Ammonia (NH) is a versatile and important compound with a wide range of uses, which is currently produced through the demanding Haber-Bosch process. Electrocatalytic nitrate reduction into ammonia (NRA) has recently emerged as a sustainable approach for NHsynthesis under ambient conditions. However, the NRA catalysis is a complex multistep electrochemical process with competitive hydrogen evolution reaction that usually results in poor selectivity and low yield rate for NHsynthesis. With maximum atom utilization and well-defined catalytic sites, single atom catalysts (SACs) display high activity, selectivity and stability toward various catalytic reactions. Very recently, a number of SACs have been developed as promising NRA electrocatalysts, but systematical discussion about the key factors that affect their NRA performance is not yet to be summarized to date. This review focuses on the latest breakthroughs of SACs toward NRA catalysis, including catalyst preparation, catalyst characterization and theoretical insights. Moreover, the challenges and opportunities for improving the NRA performance of SACs are discussed, with an aim to achieve further advancement in developing high-performance SACs for efficient NHsynthesis.
氨(NH₃)是一种用途广泛且重要的化合物,目前通过要求苛刻的哈伯-博施法生产。电催化硝酸盐还原制氨(NRA)最近已成为在环境条件下合成氨的一种可持续方法。然而,NRA催化是一个复杂的多步电化学过程,伴有竞争性析氢反应,这通常导致氨合成的选择性差和产率低。单原子催化剂(SACs)具有最大的原子利用率和明确的催化位点,对各种催化反应表现出高活性、选择性和稳定性。最近,许多SACs已被开发为有前景的NRA电催化剂,但迄今为止,尚未对影响其NRA性能的关键因素进行系统总结。本综述重点关注SACs在NRA催化方面的最新突破,包括催化剂制备、催化剂表征和理论见解。此外,还讨论了提高SACs的NRA性能所面临的挑战和机遇,旨在实现开发用于高效氨合成的高性能SACs方面的进一步进展。
