InSbNBi/InSb heterostructures for long wavelength infrared photodetector applications: A 16 band k · p study

Abstract: The intriguing potential of III-V-N-Bi materials like InSbNBi can lead to pervasive research curiosity in the long wavelength infrared (LWIR) regime. In this article, we have explored numerous prospective possibilities of utilizing InSbNBi for optoelectronic applications using a 16 band k · p Hamiltonian. Considering the lattice-matched condition of InSbNBi with host InSb, we have anticipated the bandgap, spin–orbit coupling splitting energy (ΔSO) and the corresponding operating wavelength of InSb0.9772N0.0028… Show more

“…According to the different energy band arrangements, 2D single-layer semiconductor heterostructures can be divided into type I, type II, and type III. Compared with type I with a staggered band and type III with a broken band, the band of type-II heterostructure is symmetrically staggered. − Light-excited electron transitions cause electrons and holes to accumulate on different semiconductor monolayers, thereby achieving the effective separation of electrons and holes. − In particular, some recent studies have reported that the experimentally synthesized type-II heterostructure exhibits excellent photocatalytic activity. Tang et al have confirmed that the type-II heterostructure formed by the vertical growth of ZnO 2D nanosheets sensitized by nonmetallic carbon (C) dots helps to improve the charge transfer between C dots and ZnO and enhance the photoanodic performance .…”

Spontaneous Enhanced Visible-Light-Driven Photocatalytic Water Splitting on Novel Type-II GaSe/CN and Ga₂SSe/CN vdW Heterostructures

“…According to the different energy band arrangements, 2D single-layer semiconductor heterostructures can be divided into type I, type II, and type III. Compared with type I with a staggered band and type III with a broken band, the band of type-II heterostructure is symmetrically staggered. − Light-excited electron transitions cause electrons and holes to accumulate on different semiconductor monolayers, thereby achieving the effective separation of electrons and holes. − In particular, some recent studies have reported that the experimentally synthesized type-II heterostructure exhibits excellent photocatalytic activity. Tang et al have confirmed that the type-II heterostructure formed by the vertical growth of ZnO 2D nanosheets sensitized by nonmetallic carbon (C) dots helps to improve the charge transfer between C dots and ZnO and enhance the photoanodic performance .…”

Spontaneous Enhanced Visible-Light-Driven Photocatalytic Water Splitting on Novel Type-II GaSe/CN and Ga₂SSe/CN vdW Heterostructures

Investigation of the Optoelectronic Properties of InSbNBi with 16-Band k Dot p Model

Investigation of Optoelectronic Performance of InAsNBi for Infrared Detection