Toward Activity Origin of Electrocatalytic Hydrogen Evolution Reaction on Carbon‐Rich Crystalline Coordination Polymers |
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Authors: | Lihuan Wang Diana C Tranca Jian Zhang Yanpeng Qi Stavroula Sfaelou Tao Zhang Renhao Dong Xiaodong Zhuang Zhikun Zheng Gotthard Seifert |
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Affiliation: | 1. Department of Chemistry and Food Chemistry and Center for Advancing Electronics Dresden, Technische Universit?t Dresden, Dresden, Germany;2. Max Planck Institute for Chemical Physics of Solids, Dresden, Germany |
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Abstract: | The fundamental understanding of electrocatalytic active sites for hydrogen evolution reaction (HER) is significantly important for the development of metal complex involved carbon electrocatalysts with low kinetic barrier. Here, the MSx Ny (M = Fe, Co, and Ni, x /y are 2/2, 0/4, and 4/0, respectively) active centers are immobilized into ladder‐type, highly crystalline coordination polymers as model carbon‐rich electrocatalysts for H2 generation in acid solution. The electrocatalytic HER tests reveal that the coordination of metal, sulfur, and nitrogen synergistically facilitates the hydrogen ad‐/desorption on MSx Ny catalysts, leading to enhanced HER kinetics. Toward the activity origin of MS2N2, the experimental and theoretical results disclose that the metal atoms are preferentially protonated and then the production of H2 is favored on the M? N active sites after a heterocoupling step involving a N‐bound proton and a metal‐bound hydride. Moreover, the tuning of the metal centers in MS2N2 leads to the HER performance in the order of FeS2N2 > CoS2N2 > NiS2N2. Thus, the understanding of the catalytic active sites provides strategies for the enhancement of the electrocatalytic activity by tailoring the ligands and metal centers to the desired function. |
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Keywords: | active site carbon electrocatalysts crystalline polymers hydrogen evolution reaction ladder‐type coordination polymer |
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