Type-II vdW heterojunction SeGa2Te/SeIn2Se as a high-efficiency visible-light-driven water-splitting photocatalyst

Abstract

Two-dimensional (2D) van der Waals (vdW) materials have been widely adopted as photocatalysts in water splitting. Based on the first-principles calculations within screened hybrid functional of Heyd-Scuseria-Ernzerhof (HSE), we find that Janus group-III chalcogenide based vdW heterojunction (SeGa2Te/SeIn2Se) is a promising visible-light-driven photocatalyst regardless on the stacking configuration. The SeGa2Te/SeIn2Se in AA stacking satisfy the requirement for the band gap under both pH = 0 and pH = 7 according to standard water-splitting mechanism. The notable intrinsic electric field (v-EF) in the AB stacking of SeGa2Te/SeIn2Se alter the band alignment and enhance the overpotentials of the photogenerated carriers to efficiently drive the redox reaction. In both stacking, the type-II band alignment, suitable direct band gaps, high optical absorbance and high power conversion efficiency promote the photocatalytic efficiency. Furthermore, outstanding photocatalytic ability and efficiency are maintained under both vertical and in-plane strains, guaranteeing the application under natural environment.