Atomically Dispersed Metal‐Based Catalysts for Zn–CO<sub>2</sub>Batteries
Sanshuang Gao, Tianran Wei, Jiaqiang Sun, Qian Liu, Dui Ma, Wenxian Liu, Shusheng Zhang, Jun Luo, Xijun Liu
Abstract
Rechargeable aqueous Zn–CO 2 batteries show great promise in meeting severe environmental problems and energy crises due to their combination of CO 2 utilization and energy output, as well as advantages of high theoretical energy density, abundant raw materials, and high safety. Developing high‐efficiency and stable CO 2 reduction reaction (CO 2 RR) electrocatalysts is of critical importance for the promotion of this technology. Atomically dispersed metal‐based catalysts (ADMCs), with extremely high atom‐utilization efficiency, tunable coordination environments, and superior intrinsic catalytic activity, are emerging as promising candidates for Zn–CO 2 batteries. Herein, some recent developments in atomically dispersed metal‐based catalysts for Zn–CO 2 batteries are summarized, including transition metal and non‐transition metal sites. Moreover, various synthetic strategies, characterization methods, and the relationship between active site structures and CO 2 RR activity/Zn–CO 2 battery performance are introduced. Finally, some challenges and perspectives are also proposed for the future development of ADMCs in Zn–CO 2 batteries.