Carrier Type Control of WSe2 Field‐Effect Transistors by Thickness Modulation and MoO3 Layer Doping |
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| Authors: | Changjian Zhou Yuda Zhao Salahuddin Raju Yi Wang Ziyuan Lin Mansun Chan Yang Chai |
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| Affiliation: | 1. Department of Applied Physics, The Hong Kong Polytechnic University, Kowloon, Hong Kong;2. The Hong Kong Polytechnic University Shenzhen Research Institute, Shen Zhen, P. R. China;3. Department of Electronic and Computer Engineering, The Hong Kong University of Science and Technology, Kowloon, Hong Kong |
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| Abstract: | Control of the carrier type in 2D materials is critical for realizing complementary logic computation. Carrier type control in WSe2 field‐effect transistors (FETs) is presented via thickness engineering and solid‐state oxide doping, which are compatible with state‐of‐the‐art integrated circuit (IC) processing. It is found that the carrier type of WSe2 FETs evolves with its thickness, namely, p‐type (<4 nm), ambipolar (≈6 nm), and n‐type (>15 nm). This layer‐dependent carrier type can be understood as a result of drastic change of the band edge of WSe2 as a function of the thickness and their band offsets to the metal contacts. The strong carrier type tuning by solid‐state oxide doping is also demonstrated, in which ambipolar characteristics of WSe2 FETs are converted into pure p‐type, and the field‐effect hole mobility is enhanced by two orders of magnitude. The studies not only provide IC‐compatible processing method to control the carrier type in 2D semiconductor, but also enable to build functional devices, such as, a tunable diode formed with an asymmetrical‐thick WSe2 flake for fast photodetectors. |
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| Keywords: | 2D materials carrier type doping field‐effect transistor |
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