Top-Gated P-MOSFET with CVD-Grown WSe2 Channels via Self-Aligned WOx Conversion for Spacer Doping

Meng Zhan Li; Terry Y.T. Hung; Wei Sheng Yun; D. Mahaveer Sathaiya; Sui An Chou; San Lin Liew; Ying Mei Yang; Kuang I. Lin; Tung Ying Lee; Chao Ching Cheng; Chung Cheng Wu; Iuliana P. Radu; Minn Tsong Lin

doi:10.1021/acs.nanolett.5c00813

Top-Gated P-MOSFET with CVD-Grown WSe₂ Channels via Self-Aligned WO_x Conversion for Spacer Doping

Meng Zhan Li
, Terry Y.T. Hung
, Wei Sheng Yun
, D. Mahaveer Sathaiya
, Sui An Chou
, San Lin Liew
, Ying Mei Yang
, Kuang I. Lin
, Tung Ying Lee
, Chao Ching Cheng
, Chung Cheng Wu
, Iuliana P. Radu
, Minn Tsong Lin

Education and Research Group

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

2 Citations (Scopus)

Abstract

WO_x conversion for doping is highlighted in recent advancements in WSe₂ p-FETs. While past studies focused on exfoliated WSe₂ flakes, our research examines CVD-grown WSe₂ films, assessing the impact of this doping on channel mobility and contact resistance in devices. Our approach enables effective threshold voltage tuning in both n- and p-type FETs with various low-dimensional material channels with the doping mechanism well captured by TCAD simulations. When applied to WSe₂, trilayer devices exhibited a good and comparable median field-effect mobility of 65 cm²/V·s following the conversion process. Consequently, trilayer WSe₂ was used to demonstrate top-gated p-MOSFETs via self-aligned WO_x conversion in the spacer region, achieving a 250-fold enhancement in the on-current while maintaining a subthreshold swing of 80 mV/dec. Our findings provide a comprehensive understanding of WO_x conversion and its general applicability, paving the way for its use in future logic devices with low-dimensional materials.

Original language	English
Pages (from-to)	7037-7043
Number of pages	7
Journal	Nano letters
Volume	25
Issue number	17
DOIs	https://doi.org/10.1021/acs.nanolett.5c00813
Publication status	Published - 2025 Apr 30

All Science Journal Classification (ASJC) codes

Bioengineering
General Chemistry
General Materials Science
Condensed Matter Physics
Mechanical Engineering

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10.1021/acs.nanolett.5c00813

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@article{fa4104233b7f4c25ba8fea09f35a97e0,

title = "Top-Gated P-MOSFET with CVD-Grown WSe2 Channels via Self-Aligned WOx Conversion for Spacer Doping",

abstract = "WOx conversion for doping is highlighted in recent advancements in WSe2 p-FETs. While past studies focused on exfoliated WSe2 flakes, our research examines CVD-grown WSe2 films, assessing the impact of this doping on channel mobility and contact resistance in devices. Our approach enables effective threshold voltage tuning in both n- and p-type FETs with various low-dimensional material channels with the doping mechanism well captured by TCAD simulations. When applied to WSe2, trilayer devices exhibited a good and comparable median field-effect mobility of 65 cm2/V·s following the conversion process. Consequently, trilayer WSe2 was used to demonstrate top-gated p-MOSFETs via self-aligned WOx conversion in the spacer region, achieving a 250-fold enhancement in the on-current while maintaining a subthreshold swing of 80 mV/dec. Our findings provide a comprehensive understanding of WOx conversion and its general applicability, paving the way for its use in future logic devices with low-dimensional materials.",

author = "Li, \{Meng Zhan\} and Hung, \{Terry Y.T.\} and Yun, \{Wei Sheng\} and Sathaiya, \{D. Mahaveer\} and Chou, \{Sui An\} and Liew, \{San Lin\} and Yang, \{Ying Mei\} and Lin, \{Kuang I.\} and Lee, \{Tung Ying\} and Cheng, \{Chao Ching\} and Wu, \{Chung Cheng\} and Radu, \{Iuliana P.\} and Lin, \{Minn Tsong\}",

note = "Publisher Copyright: {\textcopyright} 2025 The Authors. Published by American Chemical Society.",

year = "2025",

month = apr,

day = "30",

doi = "10.1021/acs.nanolett.5c00813",

language = "English",

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T1 - Top-Gated P-MOSFET with CVD-Grown WSe2 Channels via Self-Aligned WOx Conversion for Spacer Doping

AU - Li, Meng Zhan

AU - Hung, Terry Y.T.

AU - Yun, Wei Sheng

AU - Sathaiya, D. Mahaveer

AU - Chou, Sui An

AU - Liew, San Lin

AU - Yang, Ying Mei

AU - Lin, Kuang I.

AU - Lee, Tung Ying

AU - Cheng, Chao Ching

AU - Wu, Chung Cheng

AU - Radu, Iuliana P.

AU - Lin, Minn Tsong

PY - 2025/4/30

Y1 - 2025/4/30

N2 - WOx conversion for doping is highlighted in recent advancements in WSe2 p-FETs. While past studies focused on exfoliated WSe2 flakes, our research examines CVD-grown WSe2 films, assessing the impact of this doping on channel mobility and contact resistance in devices. Our approach enables effective threshold voltage tuning in both n- and p-type FETs with various low-dimensional material channels with the doping mechanism well captured by TCAD simulations. When applied to WSe2, trilayer devices exhibited a good and comparable median field-effect mobility of 65 cm2/V·s following the conversion process. Consequently, trilayer WSe2 was used to demonstrate top-gated p-MOSFETs via self-aligned WOx conversion in the spacer region, achieving a 250-fold enhancement in the on-current while maintaining a subthreshold swing of 80 mV/dec. Our findings provide a comprehensive understanding of WOx conversion and its general applicability, paving the way for its use in future logic devices with low-dimensional materials.

AB - WOx conversion for doping is highlighted in recent advancements in WSe2 p-FETs. While past studies focused on exfoliated WSe2 flakes, our research examines CVD-grown WSe2 films, assessing the impact of this doping on channel mobility and contact resistance in devices. Our approach enables effective threshold voltage tuning in both n- and p-type FETs with various low-dimensional material channels with the doping mechanism well captured by TCAD simulations. When applied to WSe2, trilayer devices exhibited a good and comparable median field-effect mobility of 65 cm2/V·s following the conversion process. Consequently, trilayer WSe2 was used to demonstrate top-gated p-MOSFETs via self-aligned WOx conversion in the spacer region, achieving a 250-fold enhancement in the on-current while maintaining a subthreshold swing of 80 mV/dec. Our findings provide a comprehensive understanding of WOx conversion and its general applicability, paving the way for its use in future logic devices with low-dimensional materials.

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Top-Gated P-MOSFET with CVD-Grown WSe₂ Channels via Self-Aligned WO_x Conversion for Spacer Doping

Abstract

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