Abstract
Electronic and optical properties of stacked heterojunction based on borophene and MoS2 are studied by density functional theory. It is found that the different stack of 1/6 vacancy borophene β12 and MoS2 can induce different electronic properties through interlayer van der Waals force. The external electric field can tune the Schottky contact types of the heterojunction. The stacked heterojunction enlarges the range of light response compared with MoS2. It suggests that the stack changes the electronic and optical properties of sing layer MoS2 and external electric field induces the changed Schottky contact type, providing a way to design optoelectronic device with tunable Schottky contact and good optical properties.
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