期刊
APPLIED SURFACE SCIENCE
卷 536, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.apsusc.2020.147845
关键词
Photocatalytic; Janus heterostructures; First-principles calculation; Biaxial strain
A type-II van der Waals heterostructure composed of two-dimensional Janus monochalcogenides and C2N has been designed for photocatalytic water splitting. Under biaxial strain, the band alignment of the heterostructures can transition from type-I to type-II, with C2N/In2SeTe showing a unique type-II band alignment. The results suggest that C2N/In2SSe and C2N/In2SeTe vdW heterostructures are more suitable for photocatalytic water splitting under strain.
A type-II van der Waals (vdW) heterostructure that can inhibit carrier recombination and improve the photocatalytic efficiency of water splitting has received much attention for photocatalytic water splitting. In this work, two-dimensional Janus monochalcogenides, In2SSe(In2STe, In2SeTe) and C2N, are designed to type-II vdW heterostructures for photocatalytic water splitting. First-principles calculation results show that C2N/In2SSe and C2N/In2STe heterostructures have a type-I band alignment, and that C2N/In2SeTe have a unique type-II band alignment. Under biaxial strain, both C2N/In2SSe and C2N/In2STe heterostructures can have a type-I to type-II band alignment and an indirect-direct band-gap transition. Systematically electronic structure and band alignment results show that C2N/In2SSe and C2N/In2SeTe vdW heterostructures are more suitable for photocatalytic water splitting under strain than C2N/In2STe heterostructure. In addition, the optical absorption of C2N/In2SSe and C2N/In2SeTe vdW heterostructures can be significantly improved under biaxial strain. Detailed strain engineering results show that C2N is more sensitive to strain than Janus monochalcogenides due to the planar properties of sp(2) hybrization of C2N, which dominate the band gap and band transition in heterostructures under strain. These results indicate that C2N/In2SSe and C2N/In2SeTe vdW heterostructures can be used as photocatalytic water splitting materials, providing a motivation for further research on Janus heterostructures.
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