Edge-Site Co–N<sub><i>x</i></sub> Model Single-Atom Catalysts for CO<sub>2</sub> Electroreduction
Yao‐Ti Cheng, Jianzhao Peng, Guotao Lai, Xian Yue, Fuzhi Li, Qing Wang, Lina Chen, Jun Gu
Abstract
Metal–nitrogen–carbon single-atom catalysts with metal sites at the edge of the carbon layers are widely used in electrocatalytic processes such as CO 2 reduction. For the single-atom catalysts prepared with pyrolysis methods, the local structure of the metal sites, including the type of the ligands and the coordination number, cannot be precisely controlled, making it difficult to investigate the relationship between the electrocatalytic properties and the local structure. In this work, Co–N x complexes with 2–4 pyridinic ligands are prepared and anchored at the edge of carbon black with conjugated pyrazine linkers as the model edge-site Co single-atom catalysts. Only the Co–N 4 catalyst shows high selectivity toward CO in CO 2 electroreduction, with the turnover frequency 1 order of magnitude higher than that of Co–N 2 and Co–N 3 catalysts. Compared with Co–N 2 and Co–N 3 sites, the Co–N 4 site shows stronger adsorption of COOH and CO species and weaker adsorption of H 2 O and the H atom due to the low-spin electron configuration, which rationalizes the high CO 2 reduction activity and low hydrogen evolution activity of the Co–N 4 catalyst.