Controlling Carrier Transport in Vertical MoTe2/MoS2 van der Waals Heterostructures
- Authors
- Pan, Y.[Pan, Y.]; Liu, X.[Liu, X.]; Yang, J.[Yang, J.]; Yoo, W.J.[Yoo, W.J.]; Sun, J.[Sun, J.]
- Issue Date
- 5-Nov-2021
- Publisher
- American Chemical Society
- Keywords
- band alignment; multifunctional diodes; surface doping; thickness engineering; van der Waals heterostructure
- Citation
- ACS Applied Materials and Interfaces, v.13, no.45, pp.54294 - 54300
- Indexed
- SCIE
SCOPUS
- Journal Title
- ACS Applied Materials and Interfaces
- Volume
- 13
- Number
- 45
- Start Page
- 54294
- End Page
- 54300
- URI
- https://scholarworks.bwise.kr/skku/handle/2021.sw.skku/90565
- DOI
- 10.1021/acsami.1c16594
- ISSN
- 1944-8244
- Abstract
- Two-dimensional (2D) transition-metal dichalcogenide (TMDC)-based semiconducting van der Waals (vdW) heterostructures are considered as potential candidates for next-generation nanoelectronics due to their unique and tunable properties. Controlling the carrier type and band alignment in 2D TMDCs and their vdW heterostructures is critical for realizing heterojunctions with the desired performances and functionalities. In this report, controlling the carrier type and band alignment in a vertical MoTe2/MoS2 heterojunction is presented via thickness engineering and surface charge transfer doping. A highly rectifying p-n diode and a nonrectifying n-n junction are obtained with different MoTe2 thicknesses due to their different doping conditions. A vertical tunnel diode is subsequently achieved with a controlled oxygen plasma treatment, which selectively induces degenerate p-type doping to MoTe2, whereas the intrinsic n-type characteristic of MoS2 is maintained during the treatment. These techniques to realize multifunctional diodes are universal and applicable to emerging nanoelectronics based on 2D materials. © 2021 American Chemical Society.
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