Author
Listed:
- Sui-An Chou
(Taiwan Semiconductor Manufacturing Company)
- Chen Chang
(National Taiwan University)
- Bo-Hong Wu
(National Taiwan University)
- Chih-Piao Chuu
(Taiwan Semiconductor Manufacturing Company)
- Pai-Chia Kuo
(Academia Sinica)
- Liang-Hsuan Pan
(National Taiwan University)
- Kai-Chun Huang
(National Taiwan University)
- Man-Hong Lai
(National Taiwan University)
- Yi-Feng Chen
(National Taiwan University)
- Che-Lun Lee
(National Taiwan University)
- Hao-Yu Chen
(National Taiwan University)
- Jessie Shiue
(Academia Sinica)
- Yu-Ming Chang
(National Taiwan University
National Taiwan University)
- Ming-Yang Li
(Taiwan Semiconductor Manufacturing Company)
- Ya-Ping Chiu
(National Taiwan University
National Taiwan University)
- Chun-Wei Chen
(National Taiwan University
National Taiwan University)
- Po-Hsun Ho
(Taiwan Semiconductor Manufacturing Company)
Abstract
The development of p-type WSe2 transistors has lagged behind n-type MoS2 because of challenges in growing high-quality, large-area WSe2 films. This study employs an alkali-assisted CVD (AACVD) method by using KOH to enhance nucleation on sapphire substrates, effectively promoting monolayer growth on c-plane sapphire and enabling controlled bilayer seeding on miscut surfaces with artificial steps. With AACVD, we achieve 2-inch monolayer and centimeter-scale bilayer WSe2 films with defect densities as low as 1.6 × 1012 cm−2 (monolayer) and 1.8 × 1012 cm−2 (bilayer), comparable to exfoliated WSe2. Bilayer WSe2 transistors exhibit hole/electron mobilities of 119/34 cm²/Vs, while monolayers achieve 105/22 cm²/Vs with suitable metal contacts. Additionally, bilayer WSe2 demonstrates lower contact resistance for both n-type and p-type transistors, making it highly promising for future high-performance electronic applications.
Suggested Citation
Sui-An Chou & Chen Chang & Bo-Hong Wu & Chih-Piao Chuu & Pai-Chia Kuo & Liang-Hsuan Pan & Kai-Chun Huang & Man-Hong Lai & Yi-Feng Chen & Che-Lun Lee & Hao-Yu Chen & Jessie Shiue & Yu-Ming Chang & Ming, 2025.
"Large-scale alkali-assisted growth of monolayer and bilayer WSe2 with a low defect density,"
Nature Communications, Nature, vol. 16(1), pages 1-8, December.
Handle:
RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57986-1
DOI: 10.1038/s41467-025-57986-1
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