Hierarchical Ohmic Contact Interface Engineering for Efficient Hydrazine-assisted Hydrogen Evolution Reaction.
Yifan YangXuanyang LiGuanglei LiuHuixiang LiuYuehao ShiChuming YeZhan FangMingxin YeJianfeng ShenPublished in: Advanced materials (Deerfield Beach, Fla.) (2023)
Hydrazine oxidation reaction coupled with hydrogen evolution reaction (HER) is an effective strategy to achieve low energy water splitting for hydrogen production. In order to realize the application of hydrazine-assisted HER system, researchers have been focusing on the development of electrocatalysts with integrated dual active sites, while the performance under high current density is still unsatisfying. In this work, hierarchical Ohmic contact interface engineering is designed and used as a bridge between the NiMo and Ni 2 P heterojunction towards industrial current density applications, with the charge transfer impedance greatly eliminated via such a pathway with low energy barrier. As a proof-of-concept, the importance of charge redistribution and energy barrier at the Ohmic contact interface is investigated by significantly reducing the voltage of overall hydrazine splitting (OHzS) at high current density. Intriguingly, the NiMo/Ni 2 P hierarchical Ohmic contact heterojunction can drive current densities of 100 and 500 mA cm -2 with only 181 mV and 343 mV cell voltage in the OHzS electrolyzer with high electrocatalytic stability. The proposed hierarchical Ohmic contact interface engineering paves new avenue for hydrogen production with low energy consumption. This article is protected by copyright. All rights reserved.