化学
催化作用
脱氯作用
电催化剂
电化学
无机化学
四氯乙烯
硝基苯
三氯乙烯
二氯乙烷
水溶液
氧化还原
法拉第效率
有机化学
电极
生物降解
物理化学
作者
Chungseok Choi,Soonho Kwon,Yuanzuo Gao,Seonjeong Cheon,Jing Li,Fabian Menges,William A. Goddard,Hailiang Wang
摘要
Electrochemical reactions and their catalysis are important for energy and environmental applications, such as carbon neutralization and water purification. However, the synergy in electrocatalysis between CO2 utilization and wastewater treatment has not been explored. In this study, we find that the electrochemical reduction of chlorinated organic compounds such as 1,2-dichloroethane, trichloroethylene, and tetrachloroethylene into ethylene in aqueous media, which is a category of challenging reactions due to the competition of H2 evolution, can be substantially enhanced by simultaneously carrying out the reduction of CO2 on an easily prepared and cost-effective Cu metal catalyst. In the case of 1,2-dichloroethane dechlorination, a 6-fold improvement in Faradaic efficiency and a 19-fold increase in partial current density are demonstrated. Through electrochemical kinetic studies, in situ Raman spectroscopy, and computational simulations, we further find that CO2 reduction reduces hydrogen coverage on the Cu catalyst, which not only exposes more active sites for the dechlorination reaction but also enhances the effective reductive potential on the catalyst surface and reduces the kinetic barrier of the rate-determining step.
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