Dynamically Stabilizing Oxygen Atoms in Silver Catalyst for Highly Selective and Durable CO <sub>2</sub> Reduction Reaction
Yuanxin Mao, Qing Mao, Hongbin Yang, Qi Liu, Xufeng Dong, Yifan Li, Shizong Zhou, Bin Liu
Abstract
Abstract Oxide derived catalyst displays outstanding catalytic activity and selectivity in electrochemical carbon dioxide reduction reaction (CO 2 RR), in which, it is found that residue oxygen atoms play a pivotal role in regulating the catalyst's electronic structure and thus the CO 2 RR process. Unfortunately, the intrinsic thermodynamic instability of oxygen atoms in oxide derived catalyst under cathodic CO 2 RR potentials makes it unstable during continuous electrolysis, greatly hindering its practical industrial applications. In this work, we develop a pulsed‐bias technique that is able to dynamically stabilize the residue oxygen atoms in oxide derived catalyst during electrochemical CO 2 RR. As a result, the oxide derived catalyst under pulsed bias exhibits super catalytic stability in catalyzing electrochemical CO 2 RR, while keeping excellent catalytic activity and selectivity.