Abstract
AbstractConstructing van der Waals (vdW) heterostructures by using different 2D materials is an effective strategy to overcome the shortcoming of single 2D materials. Recently, a novel 2D material boron selenide (BSe) has been predicted, holding a hexagonal structure similar to 2D transition metal dichalcogenides (TMDs). In this paper, the MoS2/BSe, and WS2/BSe heterostructures are therefore constructed, finding that they are type‐II band alignment semiconductors with bandgaps of 1.46 and 1.73 eV, respectively. Moreover, an indirect‐to‐direct bandgap transition, and a band alignment transition can be achieved by applying the perpendicular external electric fields to the vdW heterostructures. In addition, the two built heterostructures have a good optical absorption (104), a broad optical absorption, and one competitive power conversion efficiencies (PCEs). The results also show that the PCE of the MoS2/BSe heterostructures can be improved by increasing the number of BSe layers (11.63% for MoS2–2BSe and 13.55% for MoS2–3BSe). This study provides a practical way for BSe/TMDs vdW heterostructures in optoelectronic applications.
Published Version
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