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"Mist-CVD"

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"Mist-CVD"

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Early Stage Report: Graduate Research

Growth of Beta-Phase Gallium Oxide Thin Films on Off-Axis Sapphire Substrates by Mist Chemical Vapor Deposition
Jae-Hyeok Lim, Tae-Yong Park, Yun-Ji Shin, Seong-Min Jeong, Chang-Mo Kang, Si-Young Bae
J Electr Electron Mater 2026;39(3):302-308.
Published online May 1, 2026
DOI: https://doi.org/10.4313/JEEM.2026.39.3.10
β-Ga2O3 is an ultra-wide bandgap semiconductor promising for high-power electronic applications; however, heteroepitaxial growth on sapphire is challenging lattice and symmetry mismatch. In this study, β-Ga2O3 thin films were grown on C-plane sapphire substrates with various off-axis angles (0–12°) using mist-CVD, and the influence of substrate miscut on structural and optical properties was investigated. All films grown at 900°C exhibited (-201) oriented β phase. The crystal quality was strongly dependent on the off-axis angle, with intermediate off-axis angles (Δa = 6–8°) showing the narrowest rocking curve width. Off-axis substrates promoted step-aligned growth behavior compared to on-axis growth. Optical measurements revealed enhanced transmittance and wider bandgap values (4.92–4.95 eV) for off-axis samples compared to the on-axis film (4.69 eV). The findings provide practical guidelines for optimizing heteroepitaxial β-Ga2O3 growth on low-cost sapphire substrates for high-performance device applications.
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A Study on the Growth of κ-phase Gallium Oxide Thin Films on AlN/Sapphire Templates Using Mist Chemical Vapor Deposition
Jae-hyeok Lim, Seong-ho Cho, Yun-ji Shin, Seong-min Jeong, Tae-hun Gu, Aran Shin, Chang-mo Kang, Si-young Bae
J Electr Electron Mater 2025;38(6):684-689.   Published online November 1, 2025
DOI: https://doi.org/10.4313/JEEM.2025.38.6.12
κ-phase Ga₂O₃ is a wide-bandgap semiconductor that has attracted attention for power and optoelectronic device applications. However, its crystal quality and optical properties are highly dependent on the growth temperature, which motivates the need for a systematic study. In this work, κ-Ga₂O₃ thin films were grown on AlN/sapphire templates using mist-CVD at different temperatures. At lower temperatures (400℃), films exhibited incomplete crystallization and partial opacity, whereas higher growth temperatures (500-700℃) produced transparent films with improved properties. The bandgap was found to increase with temperature, consistent with reported values for 600-700℃, and XRD/XRC analysis confirmed that crystal quality improved with higher growth temperature. AFM analysis further revealed reductions in surface roughness and grain size variation at elevated temperatures. These findings indicate that an optimal growth window of 600-700℃ enables high-quality κ-Ga₂O₃ films, with potential implications for integrating this material on other hexagonal substrates such as SiC and GaN.
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Growth Behavior of Heteroepitaxial β-Ga2O3 Thin Films According to the Sapphire Substrate Position in the Hot Zone of the Mist Chemical Vapor Deposition System
Kyoung-ho Kim, Heesoo Lee, Yun-ji Shin, Seong-min Jeong, Si-young Bae
J Electr Electron Mater 2023;36(5):500-504.   Published online September 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.5.10
In this study, the heteroepitaxial thin film growth of β-Ga2O3 was studied according to the position of the susceptor in mist-CVD. The position of the susceptor and substrate was moved step by step from the center of the hot zone to the inlet of mist in the range of 0~50 mm. It was confirmed that the average thickness increased to 292 nm (D1), 521 nm (D2), and 580 nm (D3) as the position of the susceptor moved away from the center of the hot zone region. The thickness of the lower region of the substrate is increased compared to the upper region. The surface roughness of the lower region of the substrate also increased because the nucleation density increased due to the increase in the lifetime of the mist droplets and the increased mist density. Therefore, thin film growth of β-Ga2O3 in mist-CVD is performed by appropriately adjusting the position of the susceptor (or substrate) in consideration of the mist velocity, evaporation amount, and temperature difference with the substrate, thereby determining the crystallinity of the thin film, the thickness distribution, and the thickness of the thin film. Therefore, these results can provide insights for optimizing the mist-CVD process and producing high-quality β-Ga2O3 thin films for various optical and electronic applications.
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Characteristics of MOSFET Devices with Polycrystalline-Gallium-Oxide Thin Films Grown by Mist-CV
Dong-hyun Seo, Yong-hyeon Kim, Yun-ji Shin, Myung-hyun Lee, Seong-min Jeong, Si-young Bae
J Electr Electron Mater 2020;33(5):427-431.   Published online September 1, 2020
DOI: https://doi.org/10.4313/JKEM.2021.33.5.15
In this research, we evaluated the electrical properties of polycrystalline-gallium-oxide (Ga2O3) thin films grown by mist-CVD. A 500~800 nm-thick Ga2O3 film was used as a channel in a fabricated bottom-gate MOSFET device. The phase stability of the β-phase Ga2O3 layer was enhanced by an annealing treatment. A Ti/Al metal stack served as source and drain electrodes. Maximum drain current (ID) exceeded 1 mA at a drain voltage (VD) of 20 V. Electron mobility of the β-Ga2O3 channel was determined from maximum transconductance (gm), as approximately, 1.39 cm2/Vs. Reasonable device characteristics were demonstrated, from measurement of drain current-gate voltage, for mist-CVD-grown Ga2O3 thin films.
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