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Research Article

Record-high saturation current in end-bond contacted monolayer MoS2 transistors

Jiankun Xiao1,§Zhuo Kang1,§Baishan Liu1Xiankun Zhang1Junli Du1Kuanglei Chen1Huihui Yu1Qingliang Liao1,2Zheng Zhang1,2( )Yue Zhang1,2 ( )
Beijing Advanced Innovation Center for Materials Genome Engineering Beijing Key Laboratory for Advanced Energy Materials and Technologies, University of Science and Technology BeijingBeijing 100083 China
State Key Laboratory for Advanced Metals and Materials School of Materials Science and Engineering, University of Science and Technology BeijingBeijing 100083 China

§Jiankun Xiao and Zhuo Kang contributed equally to this work.

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Abstract

Monolayer two-dimensional (2D) semiconductors are emerging as top candidates for the channels of the future chip industry due to their atomically thin body and superior immunity to short channel effect. However, the low saturation current caused by the high contact resistance (Rc) in monolayer MoS2 field-effect transistors (FETs) limits ultimate electrical performance at scaled contact lengths, which seriously hinders application of monolayer MoS2 transistors. Here we present a scalable strategy with a clean end-bond contact scheme that leads to size-independent electrodes and ultralow contact resistance of 2.5 kΩ·μm to achieve record high performances of saturation current density of 730 μA·μm-1 at 300 K and 960 μA·μm-1 at 6 K. Our end-bond contact strategy in monolayer MoS2 FETs enables the great potential for atomically thin integrated circuitry.

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Keywords

monolayer MoS2 transistorsend-bond contactlow contact resistancehigh saturation currentshort channel

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Nano Research
Volume 15 Issue 1,
January 2022
Pages 475-481
DOI: 10.1007/s12274-021-3504-y

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Cite this article:
Xiao J, Kang Z, Liu B, et al. Record-high saturation current in end-bond contacted monolayer MoS2 transistors. Nano Research, 2022, 15(1): 475-481. https://doi.org/10.1007/s12274-021-3504-y
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Field effect transistors

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Received: 28 February 2021
Revised: 22 March 2021
Accepted: 07 April 2021
Published: 14 June 2021
© Tsinghua University Press and Springer-Verlag GmbH Germany, part of Springer Nature 2021