Electrocatalytic CO_(2) reduction at mild conditions is a promising strategy to transform greenhouse gases into fuels or value-added chemicals to solve the increasingly serious environmental and energy problems.The mo...Electrocatalytic CO_(2) reduction at mild conditions is a promising strategy to transform greenhouse gases into fuels or value-added chemicals to solve the increasingly serious environmental and energy problems.The most crucial factor in determining the CO_(2) reduction performance is to develop efficient electrocatalysts with high selectivity and stability.Among the various electrocatalysts,indium-based catalysts have attracted extensive attention due to their non-toxicity,low cost,and high formic acid/formate selectivity.In this work,we comprehensively review the recent development and research progress of indium-based electrocatalysts for CO_(2)RR.The reaction mechanism,reaction pathways,structure-activity relationship,and strategies to enhance the activity of CO_(2)RR on indium-based catalysts have also been briefly presented and discussed.Finally,the existing challenges and future developments for indium-based highperformance catalysts for CO_(2)RR are proposed.展开更多
基金supported by National Science Foundation of China(Nos.22225606,22261142663 and 22176029)the Excellent Youth Foundation of Sichuan Scientific Committee(No.2021JDJQ0006)。
文摘Electrocatalytic CO_(2) reduction at mild conditions is a promising strategy to transform greenhouse gases into fuels or value-added chemicals to solve the increasingly serious environmental and energy problems.The most crucial factor in determining the CO_(2) reduction performance is to develop efficient electrocatalysts with high selectivity and stability.Among the various electrocatalysts,indium-based catalysts have attracted extensive attention due to their non-toxicity,low cost,and high formic acid/formate selectivity.In this work,we comprehensively review the recent development and research progress of indium-based electrocatalysts for CO_(2)RR.The reaction mechanism,reaction pathways,structure-activity relationship,and strategies to enhance the activity of CO_(2)RR on indium-based catalysts have also been briefly presented and discussed.Finally,the existing challenges and future developments for indium-based highperformance catalysts for CO_(2)RR are proposed.
