Rapid homoepitaxial growth of (011) β-Ga
                    <sub>2</sub>
                    O
                    <sub>3</sub>
                    by HCl-based halide vapor phase epitaxy

Yuichi Oshima; Takayoshi Oshima

doi:10.1080/14686996.2025.2585551

論文 Rapid homoepitaxial growth of (011) β-Ga ₂ O ₃ by HCl-based halide vapor phase epitaxy

Yuichi Oshima ; Takayoshi Oshima

Rapid homoepitaxial growth of 011 -Ga2O3 by HCl-based halide vapor phase epitaxy.pdf

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Yuichi Oshima, Takayoshi Oshima. Rapid homoepitaxial growth of (011) β-Ga ₂ O ₃ by HCl-based halide vapor phase epitaxy. Science and Technology of Advanced Materials. 2025, 26 (1), 2585551. https://doi.org/10.1080/14686996.2025.2585551

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(abstract)

We demonstrated rapid homoepitaxial growth on (011) β-Ga2O3 substrates using HCl-based halide vapor phase epitaxy (HVPE), in which GaCl was synthesized by reacting metallic Ga with HCl gas, and examined properties of the resulting layer. These were compared with layers grown using Cl2-based HVPE, where GaCl was produced from Ga and Cl2. The growth rate on (011) substrates, approximately 60% of that on (001), reached ~14 μm/h, which was 5–7 times higher than those previously reported for Cl2-based HVPE. Despite this high rate, no polycrystalline grains, sometimes found in Cl2-based HVPE, were detected. Atomic force microscopy revealed a surface with root-mean-square roughness of 6.5 nm over a 100 × 100 μm2 area. In contrast, Nomarski microscopy revealed the presence of pits (~10 μm in diameter at 3.6 μm thickness) with a density of ~3.7×10^3 cm-2, a feature not reported for Cl2-based HVPE. Cross-sectional transmission electron microscopy confirmed the absence of crystal defects or inclusions at the pit bottom. X-ray diffraction 2θ–ω scans and pole figure measurements confirmed that the epitaxial layers were single crystalline, with rocking-curve FWHM values comparable to or smaller than those of the substrate. Secondary ion mass spectrometry revealed a chlorine concentration of 1.7 × 1015 cm-3, which was significantly lower than 1.1 × 1016 cm-3 measured in the (001) layers. Thus, while the pit issue requires further investigation, HCl-based HVPE enables the rapid growth of low-chlorine (011) β-Ga2O3, offering significant potential for cost reduction in high-performance power devices with thick drift layers.

権利情報:

Creative Commons BY Attribution 4.0 International

キーワード: Ga2O3, HVPE

刊行年月日: 2025-12-31

出版者: Informa UK Limited

掲載誌:

Science and Technology of Advanced Materials (ISSN: 14686996) vol. 26 issue. 1 2585551

研究助成金:

New Energy and Industrial Technology Development Organization JPNP22007

原稿種別: 出版者版 (Version of record)

MDR DOI:

公開URL: https://doi.org/10.1080/14686996.2025.2585551

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更新時刻: 2025-11-28 08:30:04 +0900

MDRでの公開時刻: 2025-11-28 08:22:40 +0900

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