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W3100831257 endingPage "28" @default.
W3100831257 startingPage "1" @default.
W3100831257 abstract "Graphene/MoS2 heterostructures are formed by combining the nanosheets of graphene and monolayer MoS2. The electronic features of both constituent monolayers are rather well-preserved in the resultant heterostructure due to the weak van der Waals interaction between the layers. However, the proximity of MoS2 induces strong spin orbit coupling effect of strength ~1 meV in graphene, which is nearly three orders of magnitude larger than the intrinsic spin orbit coupling of pristine graphene. This opens a bandgap in graphene and further causes anticrossings of the spin-nondegenerate bands near the Dirac point. Lattice incommensurate graphene/MoS2 heterostructure exhibits interesting moire' patterns which have been observed in experiments. The electronic bandstructure of heterostructure is very sensitive to biaxial strain and interlayer twist. Although the Dirac cone of graphene remains intact and no charge-transfer between graphene and MoS2 layers occurs at ambient conditions, a strain-induced charge-transfer can be realized in graphene/MoS2 heterostructure. Application of a gate voltage reveals the occurrence of a topological phase transition in graphene/MoS2 heterostructure. In this chapter, we discuss the crystal structure, interlayer effects, electronic structure, spin states, and effects due to strain and substrate proximity on the electronic properties of graphene/MoS2 heterostructure. We further present an overview of the distinct topological quantum phases of graphene/MoS2 heterostructure and review the recent advancements in this field." @default.
W3100831257 created "2020-11-23" @default.
W3100831257 creator A5022464082 @default.
W3100831257 creator A5047912732 @default.
W3100831257 creator A5064664549 @default.
W3100831257 creator A5069248594 @default.
W3100831257 date "2019-06-17" @default.
W3100831257 modified "2023-09-26" @default.
W3100831257 title "Proximity‐Induced Topological Transition and Strain‐Induced Charge Transfer in Graphene/MoS <sub>2</sub> Bilayer Heterostructures" @default.
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