In Situ Periodic Regeneration of Catalyst during CO<sub>2</sub> Electroreduction to C<sub>2+</sub> Products
Liang Xu, Xiaodong Ma, Limin Wu, Xingxing Tan, Xinning Song, Qinggong Zhu, Chunjun Chen, Qingli Qian, Zhimin Liu, Xiaofu Sun, Shoujie Liu, Buxing Han
Abstract
Abstract Developing electrocatalytic reactions with high‐efficiency can make important contributions to carbon neutrality. However, poor long‐term stability of catalysts is a bottleneck for its practical application. Herein, an “in situ periodic regeneration of catalyst (PR‐C)” strategy is proposed to give long‐term high efficiency of CO 2 electroreduction to generate C 2+ products over Cu catalyst by applying a positive potential pulse for a short time periodically in the halide‐containing electrolyte. The high Faradaic efficiency (81.2 %) and current density (22.6 mA cm −2 ) could be maintained completely at least 36 h, while the activity and selectivity decreased continuously without using the PR‐C method. Control experiments and operando characterization demonstrated that the surface structure and oxidation state of Cu could be recovered periodically by the PR‐C method, which was beneficial for CO 2 activation and C−C coupling.