Dual-gate MoS2 transistors with sub-10 nm top-gate high-k dielectrics

Pavel Bolshakov; Ava Khosravi; Peng Zhao; Paul K. Hurley; Christopher L. Hinkle; Robert M. Wallace; Chadwin D. Young

doi:10.1063/1.5027102

Dual-gate MoS₂ transistors with sub-10 nm top-gate high-k dielectrics

Pavel Bolshakov
, Ava Khosravi
, Peng Zhao
, Paul K. Hurley
, Christopher L. Hinkle
, Robert M. Wallace
, Chadwin D. Young

University of Texas at Dallas

Research output: Contribution to journal › Article › peer-review

Abstract

High quality sub-10 nm high-k dielectrics are deposited on top of MoS₂ and evaluated using a dual-gate field effect transistor configuration. Comparison between top-gate HfO₂ and an Al₂O₃/HfO₂ bilayer shows significant improvement in device performance due to the insertion of the thin Al₂O₃ layer. The results show that the Al₂O₃ buffer layer improves the interface quality by effectively reducing the net fixed positive oxide charge at the top-gate MoS₂/high-k dielectric interface. Dual-gate sweeping, where both the top-gate and the back-gate are swept simultaneously, provides significant insight into the role of these oxide charges and improves overall device performance. Dual-gate transistors encapsulated in an Al₂O₃ dielectric demonstrate a near-ideal subthreshold swing of ∼60 mV/dec and a high field effect mobility of 100 cm²/V·s.

Original language	English
Article number	253502
Journal	Applied Physics Letters
Volume	112
Issue number	25
DOIs	https://doi.org/10.1063/1.5027102
Publication status	Published - 18 Jun 2018

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10.1063/1.5027102

https://hdl.handle.net/10468/6407Licence: CC BY-NC-ND

Cite this

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title = "Dual-gate MoS2 transistors with sub-10 nm top-gate high-k dielectrics",

abstract = "High quality sub-10 nm high-k dielectrics are deposited on top of MoS2 and evaluated using a dual-gate field effect transistor configuration. Comparison between top-gate HfO2 and an Al2O3/HfO2 bilayer shows significant improvement in device performance due to the insertion of the thin Al2O3 layer. The results show that the Al2O3 buffer layer improves the interface quality by effectively reducing the net fixed positive oxide charge at the top-gate MoS2/high-k dielectric interface. Dual-gate sweeping, where both the top-gate and the back-gate are swept simultaneously, provides significant insight into the role of these oxide charges and improves overall device performance. Dual-gate transistors encapsulated in an Al2O3 dielectric demonstrate a near-ideal subthreshold swing of ∼60 mV/dec and a high field effect mobility of 100 cm2/V·s.",

author = "Pavel Bolshakov and Ava Khosravi and Peng Zhao and Hurley, \{Paul K.\} and Hinkle, \{Christopher L.\} and Wallace, \{Robert M.\} and Young, \{Chadwin D.\}",

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doi = "10.1063/1.5027102",

language = "English",

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T1 - Dual-gate MoS2 transistors with sub-10 nm top-gate high-k dielectrics

AU - Bolshakov, Pavel

AU - Khosravi, Ava

AU - Zhao, Peng

AU - Hurley, Paul K.

AU - Hinkle, Christopher L.

AU - Wallace, Robert M.

AU - Young, Chadwin D.

PY - 2018/6/18

Y1 - 2018/6/18

N2 - High quality sub-10 nm high-k dielectrics are deposited on top of MoS2 and evaluated using a dual-gate field effect transistor configuration. Comparison between top-gate HfO2 and an Al2O3/HfO2 bilayer shows significant improvement in device performance due to the insertion of the thin Al2O3 layer. The results show that the Al2O3 buffer layer improves the interface quality by effectively reducing the net fixed positive oxide charge at the top-gate MoS2/high-k dielectric interface. Dual-gate sweeping, where both the top-gate and the back-gate are swept simultaneously, provides significant insight into the role of these oxide charges and improves overall device performance. Dual-gate transistors encapsulated in an Al2O3 dielectric demonstrate a near-ideal subthreshold swing of ∼60 mV/dec and a high field effect mobility of 100 cm2/V·s.

AB - High quality sub-10 nm high-k dielectrics are deposited on top of MoS2 and evaluated using a dual-gate field effect transistor configuration. Comparison between top-gate HfO2 and an Al2O3/HfO2 bilayer shows significant improvement in device performance due to the insertion of the thin Al2O3 layer. The results show that the Al2O3 buffer layer improves the interface quality by effectively reducing the net fixed positive oxide charge at the top-gate MoS2/high-k dielectric interface. Dual-gate sweeping, where both the top-gate and the back-gate are swept simultaneously, provides significant insight into the role of these oxide charges and improves overall device performance. Dual-gate transistors encapsulated in an Al2O3 dielectric demonstrate a near-ideal subthreshold swing of ∼60 mV/dec and a high field effect mobility of 100 cm2/V·s.

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Dual-gate MoS₂ transistors with sub-10 nm top-gate high-k dielectrics

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