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W3103371244 abstract "It is an ongoing pursuit to use metal as a channel material in a field effect transistor. All metallic transistor can be fabricated from pristine semimetallic Dirac materials (such as graphene, silicene, and germanene), but the on/off current ratio is very low. In a vertical heterostructure composed by two Dirac materials, the Dirac cones of the two materials survive the weak interlayer van der Waals interaction based on density functional theory method, and electron transport from the Dirac cone of one material to the one of the other material is therefore forbidden without assistance of phonon because of momentum mismatch. First-principles quantum transport simulations of the all-metallic vertical Dirac material heterostructure devices confirm the existence of a transport gap of over 0.4 eV, accompanied by a switching ratio of over 104. Such a striking behavior is robust against the relative rotation between the two Dirac materials and can be extended to twisted bilayer graphene. Therefore, all-metallic junction can be a semiconductor and novel avenue is opened up for Dirac material vertical structures in high-performance devices without opening their band gaps." @default.
W3103371244 created "2020-11-23" @default.
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W3103371244 date "2014-11-03" @default.
W3103371244 modified "2023-10-14" @default.
W3103371244 title "All-Metallic Vertical Transistors Based on Stacked Dirac Materials" @default.
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W3103371244 doi "https://doi.org/10.1002/adfm.201402904" @default.
W3103371244 hasPublicationYear "2014" @default.
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