热-SiO2/PECVD-SiN叠层中SiO2厚度对n型Cz硅衬底表面钝化的影响

2010 35th IEEE Photovoltaic Specialists Conference Pub Date : 2010-06-20 DOI:10.1109/PVSC.2010.5614072

Y. Larionova, N. Harder, R. Brendel

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引用次数: 1

摘要

研究了SiO2/PECVD-SiN热叠层中SiO2厚度对2.5 Ωcm n型直拉基硅衬底表面钝化的影响。通过在空气中退火这些堆叠，我们获得了比2.6 cm/s更好的表面复合速度(SRV)。我们发现氧化层的厚度和获得最佳表面钝化的退火时间之间有明显的相关性。此外，我们还发现SiO2/SiN叠层的绝对钝化质量与SiO2厚度有关。我们发现SRV随氧化物厚度的增加而增加。我们还提供了在黑暗中储存几个月后这些SiO2/SiN堆叠表面钝化的数据。我们发现，对于较厚的氧化物，表面钝化有轻微的降解，而在我们的SiO2/SiN堆叠中，10 nm厚的SiO2层在储存6周后没有明显的降解。在空气中400℃的短时间退火恢复了钝化质量，从那时起，在35周的测量存储时间内保持不变。

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Effect of SiO2 thicknesses in thermal-SiO2/PECVD-SiN stacks on surface passivation of n-type Cz silicon substrates

The influence of SiO2 thicknesses in thermal-SiO2/PECVD-SiN stacks on surface passivation of 2.5 Ωcm n-type Czochralski silicon substrates has been investigated. By annealing theses stacks in air we achieve surface recombination velocities (SRV) better (i.e. lower) than 2.6 cm/s for thin SiO2 layers. We find a clear correlation between the thickness of the oxide layers and the annealing duration for obtaining optimum surface passivation. Furthermore, we also show that the absolute passivation quality of the SiO2/SiN stacks correlates to the SiO2 thickness. We find that the SRV increases with increasing oxide thickness. We also present data of the surface passivation of these SiO2/SiN stacks after storage in the dark for several months. We find a slight degradation of the surface passivation for thicker oxides and no observable degradation for the 10 nm thick SiO2 layer in our SiO2/SiN stacks after 6 weeks of storage. Short annealing at 400°C in air restores the passivation quality and from then on remains unchanged for the measured storage time of 35 weeks.

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2010 35th IEEE Photovoltaic Specialists Conference

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