Rationally Modulating the Functions of Ni<sub>3</sub>Sn<sub>2</sub>‐NiSnO<sub><i>x</i></sub> Nanocomposite Electrocatalysts towards Enhanced Hydrogen Evolution Reaction
Xiaomei Wang, Guifa Long, Бо Лю, Zelong Li, Wensheng Gao, Pengfei Zhang, Hong Zhang, Xia Zhou, Ruizhi Duan, Wei Hu, Can Li
Abstract
Abstract Identifying electrocatalysts with functions of easy dissociation of water, rapid transformation of hydroxyl and facile hydrogen‐hydrogen bond formation are indispensable while challenge for realizing efficient alkaline hydrogen evolution reaction (HER). Herein, we presented the design of Ni 3 Sn 2 ‐NiSnO x nanocomposites towards addressing this challenge. We showed that Ni 3 Sn 2 possessed ideal hydrogen adsorption and low hydroxyl adsorption abilities and NiSnO x facilitated water dissociation and hydroxyl transfer process, respectively. Consequently, the fine‐tuned interplay of the two functional parts realized the mutual coordination among the multiple functions and led to significantly boosted HER kinetics. Current densities of 10 and 1000 mA cm −2 were obtained at overpotentials of 14 and 165 mV on the optimized catalyst. This work highlights the significance of considering intrinsic interactions between active sites and all pertinent intermediates on obtaining promising electrocatalysts.