反应溅射沉积AlOx的工艺控制及改善晶体硅表面钝化

Xinyu Zhang, A. Cuevas, A. Thomson
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引用次数: 8

摘要

本文研究了反应溅射氧化铝薄膜的沉积工艺参数与硅表面钝化的关系。已经建立了一种调整沉积过程的方法,可以降低表面复合的水平,其中在1 Ω·cm n型单晶硅上的表面复合速度低至8.5 cm/s。我们发现,为了获得良好的表面钝化效果,沉积需要在低功率密度和高沉积压力下进行。我们发现,当溅射靶接近完全氧化时(由沉积速率表明),有效的钝化是可以实现的,这可能导致膜的铝含量较低。此外,傅里叶变换红外光谱测量用于薄膜表征;有效寿命与所有Al和O相关键的综合吸收之间的相关性表明,在波数500-1060 cm−1范围内,吸收较低的膜具有较好的钝化效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Process control of reactive sputter deposition of AlOx and improved surface passivation of crystalline silicon
In this paper, we investigate the relationship between the deposition-process parameters of reactively sputtered aluminium oxide films and the passivation of silicon surfaces. A method of tuning the deposition process has been established that results in a reduced level of surface recombination, where surface recombination velocities as low as 8.5 cm/s have been achieved on 1 Ω·cm n-type monocrystalline silicon. We find that in order to achieve good surface passivation, the deposition need to be conducted at low power density and at high deposition pressure. We have found that effective passivation is achieved when a sputtering target is close to being fully oxidized—indicated by deposition rate—likely resulting in films that are less aluminium rich. Additionally, Fourier-transform-infrared spectroscopy measurements were used for film characterization; the correlation between effective lifetime and the integrated absorption of all Al and O related bonds shows that films with lower absorption in the wavenumber range 500–1060 cm−1 result in better passivation.
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