Metal–Organic Framework Supported Low‐Nuclearity Cluster Catalysts for Highly Selective Carbon Dioxide Electroreduction to Ethanol
Bing Shao, Du Huang, Rui‐Kang Huang, Xing‐Lu He, Yan Luo, Yi‐Lei Xiang, Linbin Jiang, Min Dong, Shixiong Li, Zhong Zhang, Jin Huang
Abstract
Abstract It is still a great challenge to achieve high selectivity of ethanol in CO 2 electroreduction reactions (CO 2 RR) because of the similar reduction potentials and lower energy barrier of possible other C 2+ products. Here, we report a MOF‐based supported low‐nuclearity cluster catalysts (LNCCs), synthesized by electrochemical reduction of three‐dimensional (3D) microporous Cu‐based MOF, that achieves a single‐product Faradaic efficiency (FE) of 82.5 % at −1.0 V (versus the reversible hydrogen electrode) corresponding to the effective current density is 8.66 mA cm −2 . By investigating the relationship between the species of reduction products and the types of catalytic sites, it is confirmed that the multi‐site synergism of Cu LNCCs can increase the C−C coupling effect, and thus achieve high FE of CO 2 –to–ethanol. In addition, density functional theory (DFT) calculation and operando attenuated total reflectance surface‐enhanced infrared absorption spectroscopy further confirmed the reaction path and mechanism of CO 2 –to–EtOH.