Amorphous MoS<sub>2</sub> Decorated Ni<sub>3</sub>S<sub>2</sub> with a Core–shell Structure of Urchin‐Like on Nickel‐Foam Efficient Hydrogen Evolution in Acidic and Alkaline Media
Mengliang Hu, Yuanpeng Qian, Shuhui Yu, Qingyao Yang, Zhinan Wang, Yishuai Huang, Liping Li
Abstract
Abstract The large‐scale commercialization of the hydrogen evolution reaction (HER) necessitates the development of cost‐effective and highly efficient electrocatalysts. Although transition metal sulfides, such as MoS 2 and Ni 3 S 2 , hold great potential in the field of HER, their catalytic performance has been unsatisfactory due to incomplete exposure of active sites and poor electrical conductivity. In this work, via a simple hydrothermal strategy, amorphous MoS 2 nanoshells in the form of urchin‐like MoS 2 ‐Ni 3 S 2 core‐shell heterogeneous structure is realized and in situ loaded on nickel foam (A‐MoS 2 ‐Ni 3 S 2 ‐NF). In particular, XPS analysis results show that the coupling of amorphous MoS 2 and Ni 3 S 2 makes the electrode surface exhibit electron‐abundant property, which will have a positive impact on HER catalytic activity. In addition, the fully exposed active site of amorphous MoS 2 is another crucial factor contributing to its high catalytic performance of A‐MoS 2 ‐Ni 3 S 2 ‐NF electrode. In particular, at a current density of 10 mA cm⁻ 2 , the overpotential of electrode is 95 mV (1.0 m KOH) and 145 mV (0.5 m H 2 SO 4 ). This work highlights the importance of amorphous MoS 2 and MoS 2 ‐Ni 3 S 2 of sea‐urchin core‐shell structure in optimizing HER performance, which provides an important reference for HER research.