Ni Single Atoms and Ni Phosphate Clusters Synergistically Triggered Surface‐Functionalized MoS2 Nanosheets for High‐performance Freshwater and Seawater Electrolysis

Abstract

Two‐dimensional metal dichalcogenides have been evidenced as potential electrocatalysts for hydrogen evolution reaction (HER); however, their application is limited by a poor oxygen evolution reaction (OER) activity due to insufficient number/types of multi‐integrated active sites. In this study, we report a novel bifunctional catalyst developed by simultaneous engineering of single nickel atoms (NiSA) and nickel phosphate clusters (NiPi) to synergistically trigger surface‐functionalized MoS2 nanosheets (NSs) resulting in high reactivities for both HER and OER. The NiSA‐NiPi/MoS2 NSs material exhibits a fairly Pt‐like HER behavior with an overpotential of 94.0 mV and a small OER overpotential of 314.0 mV to reach 10 mA cm−2 in freshwater containing 1.0 M KOH. Experimental results of the catalyst are well supported by theoretical study, which reveals the significant modulation of electronic structure and enrichment of electroactive site number/types with their reasonably adjusted free adsorption energy. For evaluating practicability, the NiSA‐NiPi/MoS2 NSs‐based electrolyzer delivers effective operation voltage of 1.62, 1.52, and 1.66 V at 10 mA cm−2 and superior long‐term stability as compared to Pt/C//RuO2 system in freshwater, mimic seawater, and natural seawater, respectively. The present study indicates that the catalyst is a promising candidate for the practical production of green hydrogen via water electrolysis.