uv -臭氧(UVO)处理对射频溅射Ga2O3薄膜光电性能的影响

M. Mishra, R. Saha, S. Bhowmick, Subhananda Chakrabarti
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引用次数: 0

摘要

Ga2O3已成为深紫外和紫外光电子学和传感应用的有前途的材料。然而,基于Ga2O3薄膜的光电器件的一个主要缺点是存在原生点缺陷,这可能导致亚带隙吸收,载流子散射中心和泄漏通道的产生,并成为其有效应用的障碍。为了克服这种高温退火工艺,这不仅导致热预算的增加,而且在器件制造中提出了许多制造和技术限制。因此,在这项工作中,我们报道了室温紫外臭氧(UVO)退火是一种简单而经济的方法,可以控制缺陷状态并提高Ga2O3薄膜的光学效率。采用射频溅射技术在p-Si表面制备了Ga2O3薄膜。生长的薄膜随后在室温下进行uv -臭氧(UVO)退火30,50,70和90min。原子力显微镜结果表明,uv -臭氧(UVO)退火时间对薄膜粗糙度的影响进一步与氧空位(Vo)浓度的降低有关。估计Ga2O3薄膜的最佳UVO退火时间为50 min。最后,估计了Ga2O3/p-Si异质结的电流-电压(I-V)特性的变化,以了解UVO退火对射频溅射Ga2O3薄膜电性能的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Impact of UV-ozone (UVO) treatment on optical and electrical properties of RF sputtered Ga2O3 thin films for opto-electronic application
Ga2O3 has established to be a promising material for deep UV and UV optoelectronics and sensing applications. However, a major drawback of Ga2O3 thin film based optoelectronic devices is the existence of native point defects which can result in the creation of sub-bandgap absorption, carrier scattering centres, and leakage channels and becomes an obstruction to their efficient device applications. To overcome this high temperature annealing processes are required which not only leads to a rise in the thermal budget but also put many fabrication and technological bounds in device fabrication. Therefore, in this work we report room temperature ultraviolet-ozone (UVO) annealing as a facile and cost-effective method which can control defect states and improve the optical efficiency of Ga2O3 thin film. The Ga2O3 thin films were deposited by radio frequency (RF) sputtering technique on p-Si at room temperature. The grown films were subsequently subjected to UV-Ozone (UVO) annealing for 30, 50, 70, and 90 min at room temperature. The atomic force microscopy result shows the impacts of UV-Ozone (UVO) annealing time on the film roughness which further associated with reduced oxygen vacancies (Vo) concentration. Optimum time of UVO annealing for Ga2O3 thin films was estimated to be 50 min. Finally, the variation in current-voltage (I-V) characteristics of Ga2O3/p-Si heterojunctions are estimated to understand the effect UVO annealing on its electrical properties of RF sputtered Ga2O3 thin film.
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