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Effective hydrogen evolution enabled by heterogeneous interface engineering in bimetallic sulfide with MoNi alloy

Min Xi, Anran Chen, Lingfeng Yang, Youyu Long, Hua Zhang, Xu-Guang An, Qi Xiao, Tao Sun, Xuechun Xiao, Ping Xu, Guangzhi Hu

2025Rare Metals36 citationsDOI

Abstract

Abstract The rational construction of heterogeneous interfacial engineering presents a critical strategy for advancing efficient electrochemical water‐splitting development. Here, a bimetallic sulfide‐coupled MoNi alloy heterostructure catalyst (VMoS/MoNi) is synthesized via hydrothermal and sulfidation methods for high‐performance alkaline water electrolysis. Benefiting from interfacial coupling within the VMoS/MoNi catalyst, the active sites are enriched, and electron transfer is promoted, leading to enhanced synergy and collaboration in electrocatalytic reactions. As a result, at 10 mA·cm −2 , the VMoS/MoNi catalyst demonstrates excellent HER (26 mV) and OER (223 mV) performance. VMoS/MoNi catalysts used as double electrode in an alkaline electrolytic assembly are noteworthy for achieving a cell voltage of 1.56 V at 10 mA·cm −2 , a significant improvement above most previously reported bifunctional electrocatalysts. This result provides further momentum for the design of heterostructure electrocatalysts, advancing the study of renewable energy conversion and storage.

Topics & Concepts

Bimetallic stripMaterials scienceAlloyInterface (matter)Hydrogen sulfideSulfideNanotechnologyMetallurgyComposite materialMetalCapillary numberSulfurCapillary actionElectrocatalysts for Energy ConversionCatalysis and Hydrodesulfurization StudiesHydrogen Storage and Materials
Effective hydrogen evolution enabled by heterogeneous interface engineering in bimetallic sulfide with MoNi alloy | Litcius