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미스트 화학기상증착법을 이용한 AlN/Sapphire 템플릿 상의 카파상 산화갈륨 박막 성장 연구

임재혁, 조성호, 신윤지, 정성민, 구태훈, 신아란, 강창모, 배시영

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
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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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A Study on the Growth of κ-phase Gallium Oxide Thin Films on AlN/Sapphire Templates Using Mist Chemical Vapor Deposition
J Electr Electron Mater. 2025;38(6):684-689.   Published online November 1, 2025
Download Citation

Download a citation file in RIS format that can be imported by all major citation management software, including EndNote, ProCite, RefWorks, and Reference Manager.

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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
J Electr Electron Mater. 2025;38(6):684-689.   Published online November 1, 2025
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