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Electrostatic gating dependent multiple band alignments in ferroelectric VS 2 /Ga 2 O 3 van der Waals heterostructures.

Yunlai ZhuZihan QuXiaoteng WangJishun ZhangZuheng WuZuyu XuFei YangJun WangYuehua Dai
Published in: Physical chemistry chemical physics : PCCP (2023)
Two-dimensional (2D) van der Waals (vdW) heterostructures with spontaneous intrinsic ferroelectrics play an essential role in ferroelectric memories. Also, the reversal of polarized directions induces band alignment transitions among different types to provide a new path for multifunctional devices. In this work, the structural and electronic properties of 2D VS 2 /Ga 2 O 3 vdW heterostructures under different polarizations were investigated using first-principles calculations with the vdW correction of the DFT-D2 method. The results reveal that the polarized direction of a 2D Ga 2 O 3 monolayer can cause a distinct band structure reversion from a metal to a semiconductor due to the shift of band alignment induced by the interlayer charge transfer. Moreover, the VS 2 /P↑ Ga 2 O 3 heterostructures retain type-I and type-II band alignments in the majority and minority channel, respectively, under an external electric field. Interestingly, applying the external electric field for VS 2 /P↓ Ga 2 O 3 heterostructures can lead to a transition from type-II to type-I in the majority channel, and from type-II to type-III in the minority channel. Our work provides a feasible way to realize 2D VS 2 /Ga 2 O 3 vdW heterostructures for potential applications in ferroelectric memories and electrostatic gating dependent multiple band alignment devices.
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