Rational Design of Nanocatalysts with Nonmetal Species Modification for Electrochemical CO(2)Reduction
ADVANCED ENERGY MATERIALS(2020)
摘要
Converting CO(2)to valuable carbonaceous fuels and chemicals via electrochemical CO(2)reduction by using renewable energy sources is considered to be a scalable strategy with substantial environmental and economic benefits. One of the challenges in this field is to develop nanocatalysts with superior electrocatalytic activity and selectivity for targeted products. Nonmetal species modification of nanocatalysts is of great significance for the construction of distinctive active sites to overcome the kinetic limitations of CO(2)reduction. These types of modification enable the efficient control of the selectivity and significantly decrease the reaction overpotential. Herein, a comprehensive review of the recent progress of nonmetal species modification of nanocatalysts for electrochemical CO(2)reduction is presented. After discussing some fundamental parameters and the basic principles of CO(2)reduction, including possible reaction pathways in light of theoretical modeling and experiments, the identification of active sites and elucidation of reaction mechanisms are emphasized for unraveling the role of nonmetal species modification, such as heteroatom incorporation, organic molecule decoration, electrolyte engineering, and single-atom engineering. In the final section, future challenges and constructive perspectives are provided, facilitating the accelerated advancement of mechanism research and practical applications of green carbon cycling.
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关键词
active sites,CO(2)reduction,nonmetal species modification,reaction mechanisms,selectivity regulation
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