用新型气溶胶沉积法制造的氧化镓(III)电介质结构中的超高击穿场强

Jun-Woo Lee, Jong Ho Won, Woosup Kim, Jwa-Bin Jeon, Myung-Yeon Cho, Sunghoon Kim, Minkyung Kim, Chulhwan Park, Weon Ho Shin, Kanghee Won, Sang-Mo Koo, Jong-Min Oh
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摘要

随着电动汽车和可再生能源系统对现代高压电子设备的需求日益增长,具有高击穿场的功率半导体器件变得至关重要。β-氧化镓(Ga2O3)的理论击穿场强为 8 MV cm-1,目前正被作为下一代功率开关材料进行研究。然而,实现接近这一理论值的击穿场仍然具有挑战性。本研究开发了一种气溶胶沉积制造的 Ga2O3 薄膜,通过厚度优化、热处理和独特的喷嘴倾斜方法实现了极高的击穿场强。本研究探讨了氧空位对 Ga2O3 薄膜介电常数、击穿场和微观结构的影响。通过这些方法,生产出了表面致密(98.88%)且均匀的 Ga2O3 薄膜,通过喷嘴倾斜和在 800 °C 下进行后退火,减少了氧空位的影响,从而获得了适当的介电常数(10 kHz 时为 9.3)、低漏电流(20 kV cm-1 时为 5.8 × 10-11 A cm-2)和 5.5 MV cm-1 的极高击穿场。研究结果表明,气溶胶沉积 Ga2O3 层在实现可靠开关的功率开关方面具有巨大潜力。
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Ultrahigh Breakdown Field in Gallium (III) Oxide Dielectric Structure Fabricated by Novel Aerosol Deposition Method
With the increasing demand for modern high-voltage electronic devices in electric vehicles and renewable-energy systems, power semiconductor devices with high breakdown fields are becoming essential. β-Gallium oxide (Ga2O3), which has a theoretical breakdown field of 8 MV cm−1, is being studied as a next-generation power-switch material. However, realizing a breakdown field close to this theoretical value remains challenging. In this study, an aerosol deposition-manufactured Ga2O3 film boasting an extremely high breakdown field, achieved through thickness optimization, heat treatment, and a unique nozzle-tilting method, is developed. This study explores the effect of oxygen vacancies on the dielectric constant, breakdown field, and microstructure of Ga2O3 films. Through these methods, Ga2O3 films with a denser (98.88%) and uniform surface, made less affected by oxygen vacancies through nozzle tilting and post-annealing at 800 °C, are produced, resulting in appropriate dielectric constants (9.3 at 10 kHz), low leakage currents (5.8 × 10−11 A cm−2 at 20 kV cm−1), and a very high breakdown field of 5.5 MV cm−1. The results of this study suggest that aerosol-deposited Ga2O3 layers have great potential to enable power switches with reliable switching.
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