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"Mist CVD"

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"Mist CVD"

Growth of Gallium Oxide Thin Film on c-, a-, m-, r-Plane Sapphire Substrates Using Mist Chemical Vapor Deposition System
Gi-ryeo Seong, Seong-ho Cho, Kyoung-ho Kim, Yun-ji Shin, Seong-min Jeong, Tae-gyu Kim, Si-young Bae
J Electr Electron Mater 2023;36(1):74-80.   Published online January 1, 2023
DOI: https://doi.org/10.4313/JKEM.2023.36.1.12
Gallium oxide (Ga2O3) thin films were grown on c-, a-, m-, r-plane sapphire substrates using a mist chemical vapor deposition system. Various growth temperature range of 400~600℃ was applied for Ga2O3 thin film deposition. Then, several structural properties were characterized such as film thickness, crystal phase, lattice orientation, surface roughness, and optical bandgap. Under the certain growth temperature of 500℃, all grown Ga2O3 featured rhombohedral crystal structures and well-aligned preferred orientation to sapphire substrate. The films grown on c-and r-plane sapphire substrates, showed low surface roughness and large optical bandgap compared to those on a-and m-plane substrates. Therefore, various sapphire orientation can be potentially applicable for future Ga2O3-based electronics applications.
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Bandgap Control of (AlxGa1-x)2O3 Epilayers by Controlling Aqueous Precursor Mixing Ratio in Mist Chemical Vapor Deposition System
Kyoung-ho Kim, Yun-ji Shin, Seong-min Jeong, Si-young Bae
J Electr Electron Mater 2019;32(6):528-533.   Published online November 1, 2019
We investigated the growth of AlxGa1-x)2O3 thin films on c-plane sapphire substrates that were grown by mist chemical vapor deposition (mist CVD). The precursor solution was prepared by mixing and dissolving source materials such as gallium acetylacetonate and aluminum acetylacetonate in deionized water. The [Al]/[Ga] mixing ratio (MR) of the precursor solution was adjusted in the range of 0~4.0. The Al contents of (AlxGa1-x)2O3 thin films were increased from 8 to 13% with the increase of the MR of Al. As a result, the optical bandgap of the grown thin films changed from 5.18 to 5.38 eV. Therefore, it was determined that the optical bandgap of grown (AlxGa1-x)2O3 thin films could be effectively engineered by controlling Al content.
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