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Pulse Electrolysis Turns on CO<sub>2</sub> Methanation through N‐Confused Cupric Porphyrin

Wei Hua, Tingting Liu, Zhangyi Zheng, Huihong Yuan, Long Xiao, Kun Feng, Jingshu Hui, Zhao Deng, Mutian Ma, Jian Cheng, Daqi Song, Fenglei Lyu, Jun Zhong, Yang Peng

2024Angewandte Chemie International Edition33 citationsDOI

Abstract

Abstract Breaking the D 4h symmetry in the square‐planar M−N 4 configuration of macrocycle molecular catalysts has witnessed enhanced electrocatalytic activity, but at the expense of electrochemical stability. Herein, we hypothesize that the lability of the active Cu−N 3 motifs in the N‐confused copper (II) tetraphenylporphyrin (CuNCP) could be overcome by applying pulsed potential electrolysis (PPE) during electrocatalytic carbon dioxide reduction. We find that applying PPE can indeed enhance the CH 4 selectivity on CuNCP by 3 folds to reach the partial current density of 170 mA cm −2 at &gt;60 % Faradaic efficiency (FE) in flow cell. However, combined ex situ X‐ray diffraction (XRD), transmission electron microscope (TEM), and in situ X‐ray absorption spectroscopy (XAS), infrared (IR), Raman, scanning electrochemical microscopy (SECM) characterizations reveal that, in a prolonged time scale, the decomplexation of CuNCP is unavoidable, and the promoted water dissociation under high anodic bias with lowered pH and enriched protons facilitates successive hydrogenation of *CO on the irreversibly reduced Cu nanoparticles, leading to the improved CH 4 selectivity. As a key note, this study signifies the adaption of electrolytic protocol to the catalyst structure for tailoring local chemical environment towards efficient CO 2 reduction.

Topics & Concepts

ChemistryCatalysisElectrochemistryTetraphenylporphyrinElectrolysisBulk electrolysisPorphyrinDissociation (chemistry)Inorganic chemistryChemical engineeringPhotochemistryElectrolyteElectrodeCyclic voltammetryPhysical chemistryOrganic chemistryEngineeringCO2 Reduction Techniques and CatalystsIonic liquids properties and applicationsCarbon dioxide utilization in catalysis
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