Advanced Catalyst Design and Reactor Configuration Upgrade in Electrochemical Carbon Dioxide Conversion
Zhitong Wang, Yansong Zhou, Peng Qiu, Chenfeng Xia, Wensheng Fang, Jian Jin, Lei Huang, Peilin Deng, Yaqiong Su, Rachel Crespo‐Otero, Xinlong Tian, Bo You, Wei Guo, Devis Di Tommaso, Yuanjie Pang, Shujiang Ding, Bao Yu Xia
Abstract
Abstract Electrochemical carbon dioxide reduction reaction (CO 2 RR) driven by renewable energy shows great promise in mitigating and potentially reversing the devastating effects of anthropogenic climate change and environmental degradation. The simultaneous synthesis of energy‐dense chemicals can meet global energy demand while decoupling emissions from economic growth. However, the development of CO 2 RR technology faces challenges in catalyst discovery and device optimization that hinder their industrial implementation. In this contribution, a comprehensive overview of the current state of CO 2 RR research is provided, starting with the background and motivation for this technology, followed by the fundamentals and evaluated metrics. Then the underlying design principles of electrocatalysts are discussed, emphasizing their structure–performance correlations and advanced electrochemical assembly cells that can increase CO 2 RR selectivity and throughput. Finally, the review looks to the future and identifies opportunities for innovation in mechanism discovery, material screening strategies, and device assemblies to move toward a carbon‐neutral society.