Co-Construction of Sulfur Vacancies and Heterogeneous Interface into Ni3S2/MoS2 Catalysts to Achieve Highly Efficient Overall Water Splitting

Integrating the advantages of anion vacancies and heterostructures into the catalytic materials may increase the binding affinities to intermediates, provide more active sites, and significantly promote the activity of overall water splitting. However, the successful assembly of anion vacancies and heterostructures for high-efficiency water splitting performance is still challenging. In this work, we ingeniously present the co-construction of sulfur vacancies and heterogeneous interface into NiS/MoScatalysts on nickel foam(NF). The introduction of sulfur vacancies and NiS/MoSheterostructures can significantly improve electron and ion transport, effectively improve structural stability, and enhance overall water splitting activity. The obtained VSNiS/MoScatalysts(VS stands for sulfur vacancies) exhibit superior OER and HER activities,and the overpotentials for OER and HER are 180 and 71 mV at 10 mA·cm, respectively. Furthermore, a low water splitting voltage of 1.46 V is required at 10 mA·cmfor the VS-NiS/MoScatalysts, which is considerably lower than most that of water splitting electrocatalysts currently reported. This work offers an effective mean for the preparation of catalysts with both anion vacancies and heterostructures for achieving high-performance alkaline overall water splitting.