Pivotal Role of Geometry Regulation on O−O Bond Formation Mechanism of Bimetallic Water Oxidation Catalysts

Author:

Chen Qi‐Fa1,Xian Ke‐Lin2,Zhang Hong‐Tao1,Su Xiao‐Jun1,Liao Rong‐Zhen2,Zhang Ming‐Tian1ORCID

Affiliation:

1. Center of Basic Molecular Science (CBMS) Department of Chemistry Tsinghua University 100084 Beijing China

2. Key Laboratory for Large-Format Battery Materials and System School of Chemistry and Chemical Engineering Huazhong University of Science and Technology 430074 Wuhan China

Abstract

AbstractIn this study, we highlight the impact of catalyst geometry on the formation of O−O bonds in Cu2 and Fe2 catalysts. A series of Cu2 complexes with diverse linkers are designed as electrocatalysts for water oxidation. Interestingly, the catalytic performance of these Cu2 complexes is enhanced as their molecular skeletons become more rigid, which contrasts with the behavior observed in our previous investigation with Fe2 analogs. Moreover, mechanistic studies reveal that the reactivity of the bridging O atom results in distinct pathways for O−O bond formation in Cu2 and Fe2 catalysts. In Cu2 systems, the coupling takes place between a terminal CuIII−OH and a bridging μ−O⋅ radical. Whereas in Fe2 systems, it involves the coupling of two terminal Fe–oxo entities. Furthermore, an in‐depth structure–activity analysis uncovers the spatial geometric prerequisites for the coupling of the terminal OH with the bridging μ−O⋅ radical, ultimately leading to the O−O bond formation. Overall, this study emphasizes the critical role of precisely adjusting the spatial geometry of catalysts to align with the O−O bonding pathway.

Publisher

Wiley

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