The construction of highly active bifunctional electrocatalyst of VS4/Ni3S2 heterostructure for electrochemical water splitting

With the crises of global energy and environmental issues, hydrogen acted as energy carrier are ideal sub-stituent for fossil energy. To develop efficient electrocatalyst towards both HER and OER is crucial for accel-erating the wide range of use of electrochemical water splitting technology to produce hydrogen.VS4 with unsaturated S22-are often used in metal-ion batteries, but rarely was used in electrocatalysis. So, a kind of F -doped VS4/Ni3S2 supported on NF was designed and prepared by two-step method. Through adjusting the pre-pared conditions, the electron environment of Ni and V element is changed due to the interface interaction of VS4 and Ni3S2 under the incorporation. The optimal VS4/Ni3S2 electrode provides 10 mA cm-2 at 91 and 240 mV for HER and OER, respectively. As a bifunctional electrocatalyst, VS4/Ni3S2-4F/NF||VS4/Ni3S2-4F/ NF needs 1.59 V to drive10 mA cm-2. The good performance should be benefiting from the tuned electron state, enhanced ECSA and low Rct. We pave the way for constructing the active heterostructure including the VS4 components.

Automated summary

The article introduces a method for designing and preparing a bifunctional electrocatalyst of F-doped VS4/Ni3S2, which demonstrates excellent performance in electrochemical water splitting, providing a new approach for developing efficient water splitting technology.