4 inch Gallium Oxide Field-Effect Transistors Array with High-k Ta2O5 as Gate Dielectric by Physical Vapor Deposition

Zi Chun Liu; Jia Cheng Li; Hui Xia Yang; Han Yang; An Huang; De Dai; Yuan Huang; Yi Yun Zhang; Pui To Lai; Yuan Xiao Ma; Ye Liang Wang

doi:10.1002/pssr.202400046

4 inch Gallium Oxide Field-Effect Transistors Array with High-k Ta₂O₅ as Gate Dielectric by Physical Vapor Deposition

Zi Chun Liu, Jia Cheng Li, Hui Xia Yang, Han Yang, An Huang, De Dai, Yuan Huang, Yi Yun Zhang, Pui To Lai, Yuan Xiao Ma^*, Ye Liang Wang^*

^*Corresponding author for this work

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

1 Citation (Scopus)

Abstract

Field-effect transistors (FETs) with ultra-wide bandgap semiconductor Ga₂O₃ have been fabricated by physical vapor deposition with advantages of low cost, wafer scale, and rapid production. The insulator-like pristine Ga₂O₃ is converted to semiconductor by co-sputtering Sn with post-annealing, which demonstrates a 5.6 × 10⁷ times higher on-state current. Importantly, this Sn-doped Ga₂O₃ sample shows a high breakdown voltage near 500 V. Furthermore, a 4 inch array of Sn-doped Ga₂O₃ FETs with high-k Ta₂O₅ gate dielectric has been fabricated on a silicon substrate, successfully showing a large on-current density of 1.3 mA mm⁻¹, a high I_ON/I_OFF of 2.5 × 10⁶, and a low threshold voltage of 3.9 V, which are extracted from the average 350 devices. This work paves a promising way for Ga₂O₃-based nanoelectronics to serve medium-high voltage with low cost, rapid, and wafer-scale production.

Original language	English
Article number	2400046
Journal	Physica Status Solidi - Rapid Research Letters
Volume	18
Issue number	8
DOIs	https://doi.org/10.1002/pssr.202400046
Publication status	Published - Aug 2024
Externally published	Yes

Keywords

4-inch wafer scale
e-mode Sn-doped GaO FETs
high-k gate dielectric
high-voltage nanodevices
RT-physical vapor deposition

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@article{5ff3705425fd470a81bcc521b0d91d3c,

title = "4 inch Gallium Oxide Field-Effect Transistors Array with High-k Ta2O5 as Gate Dielectric by Physical Vapor Deposition",

abstract = "Field-effect transistors (FETs) with ultra-wide bandgap semiconductor Ga2O3 have been fabricated by physical vapor deposition with advantages of low cost, wafer scale, and rapid production. The insulator-like pristine Ga2O3 is converted to semiconductor by co-sputtering Sn with post-annealing, which demonstrates a 5.6 × 107 times higher on-state current. Importantly, this Sn-doped Ga2O3 sample shows a high breakdown voltage near 500 V. Furthermore, a 4 inch array of Sn-doped Ga2O3 FETs with high-k Ta2O5 gate dielectric has been fabricated on a silicon substrate, successfully showing a large on-current density of 1.3 mA mm−1, a high ION/IOFF of 2.5 × 106, and a low threshold voltage of 3.9 V, which are extracted from the average 350 devices. This work paves a promising way for Ga2O3-based nanoelectronics to serve medium-high voltage with low cost, rapid, and wafer-scale production.",

keywords = "4-inch wafer scale, e-mode Sn-doped GaO FETs, high-k gate dielectric, high-voltage nanodevices, RT-physical vapor deposition",

author = "Liu, {Zi Chun} and Li, {Jia Cheng} and Yang, {Hui Xia} and Han Yang and An Huang and De Dai and Yuan Huang and Zhang, {Yi Yun} and Lai, {Pui To} and Ma, {Yuan Xiao} and Wang, {Ye Liang}",

note = "Publisher Copyright: {\textcopyright} 2024 Wiley-VCH GmbH.",

year = "2024",

month = aug,

doi = "10.1002/pssr.202400046",

language = "English",

volume = "18",

journal = "Physica Status Solidi - Rapid Research Letters",

issn = "1862-6254",

publisher = "Wiley-VCH Verlag",

number = "8",

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T1 - 4 inch Gallium Oxide Field-Effect Transistors Array with High-k Ta2O5 as Gate Dielectric by Physical Vapor Deposition

AU - Liu, Zi Chun

AU - Li, Jia Cheng

AU - Yang, Hui Xia

AU - Yang, Han

AU - Huang, An

AU - Dai, De

AU - Huang, Yuan

AU - Zhang, Yi Yun

AU - Lai, Pui To

AU - Ma, Yuan Xiao

AU - Wang, Ye Liang

PY - 2024/8

Y1 - 2024/8

N2 - Field-effect transistors (FETs) with ultra-wide bandgap semiconductor Ga2O3 have been fabricated by physical vapor deposition with advantages of low cost, wafer scale, and rapid production. The insulator-like pristine Ga2O3 is converted to semiconductor by co-sputtering Sn with post-annealing, which demonstrates a 5.6 × 107 times higher on-state current. Importantly, this Sn-doped Ga2O3 sample shows a high breakdown voltage near 500 V. Furthermore, a 4 inch array of Sn-doped Ga2O3 FETs with high-k Ta2O5 gate dielectric has been fabricated on a silicon substrate, successfully showing a large on-current density of 1.3 mA mm−1, a high ION/IOFF of 2.5 × 106, and a low threshold voltage of 3.9 V, which are extracted from the average 350 devices. This work paves a promising way for Ga2O3-based nanoelectronics to serve medium-high voltage with low cost, rapid, and wafer-scale production.

AB - Field-effect transistors (FETs) with ultra-wide bandgap semiconductor Ga2O3 have been fabricated by physical vapor deposition with advantages of low cost, wafer scale, and rapid production. The insulator-like pristine Ga2O3 is converted to semiconductor by co-sputtering Sn with post-annealing, which demonstrates a 5.6 × 107 times higher on-state current. Importantly, this Sn-doped Ga2O3 sample shows a high breakdown voltage near 500 V. Furthermore, a 4 inch array of Sn-doped Ga2O3 FETs with high-k Ta2O5 gate dielectric has been fabricated on a silicon substrate, successfully showing a large on-current density of 1.3 mA mm−1, a high ION/IOFF of 2.5 × 106, and a low threshold voltage of 3.9 V, which are extracted from the average 350 devices. This work paves a promising way for Ga2O3-based nanoelectronics to serve medium-high voltage with low cost, rapid, and wafer-scale production.

KW - 4-inch wafer scale

KW - e-mode Sn-doped GaO FETs

KW - high-k gate dielectric

KW - high-voltage nanodevices

KW - RT-physical vapor deposition

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DO - 10.1002/pssr.202400046

M3 - Article

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VL - 18

JO - Physica Status Solidi - Rapid Research Letters

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ER -

4 inch Gallium Oxide Field-Effect Transistors Array with High-k Ta₂O₅ as Gate Dielectric by Physical Vapor Deposition

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