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Role of local coordination in bimetallic sites for oxygen reduction: A theoretical analysis 被引量:1

Role of local coordination in bimetallic sites for oxygen reduction: A theoretical analysis
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摘要 Understanding of the oxygen reduction reaction(ORR)mechanism for single atom catalysts is pivotal for the rational design of non-precious metal cathode materials and the commercialization of fuel cells.Herein,a series of non-precious metal electrocatalysts based on nitrogen-doped bimetallic(Fe and Co)carbide were modeled by density functional theory calculations to predict the corresponding reaction pathways.The study elucidated prior oxygen adsorption on the Fe atom in the dual site and the modifier role of Co atoms to tune the electronic structures of Fe.The reaction activity was highly correlated with the bimetallic center and the coordination environment of the adjacent nitrogen.Interestingly,the preadsorption of*OH resulted in the apparent change of metal atoms'electronic states with the d-band center shifting toward the Fermi level,thereby boosting reaction activity.The result should help promote the fundamental understanding of active sites in ORR catalysts and provide an effective approach to the design of highly efficient ORR catalysts on an atomic scale. Understanding of the oxygen reduction reaction(ORR) mechanism for single atom catalysts is pivotal for the rational design of non-precious metal cathode materials and the commercialization of fuel cells.Herein, a series of non-precious metal electrocatalysts based on nitrogen-doped bimetallic(Fe and Co)carbide were modeled by density functional theory calculations to predict the corresponding reaction pathways. The study elucidated prior oxygen adsorption on the Fe atom in the dual site and the modifier role of Co atoms to tune the electronic structures of Fe. The reaction activity was highly correlated with the bimetallic center and the coordination environment of the adjacent nitrogen. Interestingly, the preadsorption of *OH resulted in the apparent change of metal atoms’ electronic states with the d-band center shifting toward the Fermi level, thereby boosting reaction activity. The result should help promote the fundamental understanding of active sites in ORR catalysts and provide an effective approach to the design of highly efficient ORR catalysts on an atomic scale.
出处 《Journal of Energy Chemistry》 SCIE EI CAS CSCD 2020年第5期131-137,共7页 能源化学(英文版)
基金 the Joint Fund of the National Natural Science Foundation of China(U1732267).
关键词 Non-precious metal catalysts Bimetallic-sites Oxygen reduction reaction Density functional theory Non-precious metal catalysts Bimetallic-sites Oxygen reduction reaction Density functional theory
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