氧分压对蓝宝石衬底单斜Ga2O3镀层性能的影响

J. Freitas, J. Culbertson, N. Nepal, A. Mock, M. Tadjer, Zixuan Feng, Hongping Zhao
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引用次数: 0

摘要

采用低压化学气相沉积方法在c平面蓝宝石衬底上制备了单斜Ga2O3薄膜。以高纯金属镓(Ga)和氧气(O2)为前驱体合成薄膜。在两种生长温度下,观察了氧体积百分比对薄膜生长速率的影响。在研究的生长窗口内,当氧体积百分比为4.8%,生长温度为800℃时,最大生长速率为~ 2.9 μm/h。在其他生长参数不变的情况下,随着生长温度的升高,薄膜的生长速率降低。x射线衍射结果表明,所有薄膜均具有(−201)取向的β-Ga2O3结构,且氧分压越高,薄膜越厚,晶体质量越好。极化微拉曼散射与(−201)β-Ga2O3的小晶粒具有随机面内取向一致。重叠发射带的相对强度的巨大变化导致了1.5到4.5 eV(~ 825和275 nm)之间的宽发光发射,这表明沉积条件强烈影响不同的缺陷浓度。在800°C和更高的氧分压下沉积的薄膜产生了更高的电阻,这可能是由于镓空位的加入,镓空位被认为是影响块体单斜Ga2O3电导率的补偿点缺陷。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Influence of oxygen partial pressure on properties of monoclinic Ga2O3 deposited on sapphire substrates
Thin monoclinic Ga2O3 films were deposited on c-plane sapphire substrates by low pressure chemical vapor deposition. The thin films were synthesized using high purity metallic gallium (Ga) and oxygen gas (O2) as precursors. The effect of oxygen volume percentage on the growth rate of thin films was observed at two growth temperatures. Within the investigated growth window, a maximum growth rate of ∼2.9 μm/h was obtained for an oxygen volume percentage of 4.8% with a growth temperature at 800 °C. The film growth rate decreased as growth temperature increased when other growth parameters were kept the same. X-ray diffraction indicates that all films have the β-Ga2O3 structure with (−201) orientation, and those deposited with higher oxygen partial pressure are thicker and have improved crystalline quality. Polarized micro-Raman scattering is consistent with small grains of (−201) β-Ga2O3 having random in-plane orientations. The large variation of the relative intensities of overlapping emission bands contributing to the broad luminescence emission extending between 1.5 and 4.5 eV (∼825 and 275 nm) suggest that deposition conditions strongly affect different defect concentrations. Films deposited at 800 °C with a higher oxygen partial pressure yielded higher resistance, which may result from the incorporation of gallium vacancies, identified as a compensating point defect affecting the electrical conductivity of bulk monoclinic Ga2O3.
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