Rational design of electrocatalytic carbon dioxide reduction for a zero-carbon network.
Li LiXiaodong LiYongfu SunYi XiePublished in: Chemical Society reviews (2022)
Electrocatalytic CO 2 reduction has attracted much attention for its potential application in CO 2 mitigation and fuel production. During the past two decades, the electrocatalytic reduction of CO 2 has made considerable progress, and it has become a promising tool to answer environmental problems. However, most research into electrocatalytic CO 2 reduction focuses on catalysts at the material level instead of evaluating the performance of the entire system for practical applications, which is insufficient to promote the sound development. This review emphasizes on how to rationally design an electrocatalytic CO 2 reduction system. We initially demonstrate the necessity of electrocatalytic CO 2 reduction and establish its economic analysis, and at the same time provide an overview of representative breakthroughs in this field. Then, we combine with advanced characterization technologies to deeply understand the reaction pathways of electrocatalytic CO 2 reduction at the molecular level. Furthermore, we point out how theoretical guidelines enable the rational design of high-throughput catalysts and the synergistic promotion of electrocatalytic CO 2 reduction performance by optimizing the electrocatalytic interface and the reactor. Finally, we customize impartial recommendations and criteria for electrocatalytic CO 2 reduction to promote its healthy development. We hope to stimulate high-quality research and may see the future application of electrocatalytic CO 2 reduction to solve sustainable energy and environmental problems.