Will SiO -pinholes for SiO /poly-Si passivating contact enhance the passivation quality?

钝化 退火(玻璃) 掺杂剂 材料科学 兴奋剂 光电子学 针孔(光学) 纳米技术 图层(电子) 光学 复合材料 物理
作者
Guangtao Yang,Remon Gram,Paul Prócel,Can Han,Zhirong Yao,Manvika Singh,Yifeng Zhao,Luana Mazzarella,Miro Zeman,Olindo Isabella
出处
期刊:Solar Energy Materials and Solar Cells [Elsevier BV]
卷期号:252: 112200-112200 被引量:10
标识
DOI:10.1016/j.solmat.2023.112200
摘要

Passivating contacts based on poly-Si have enabled record-high c-Si solar cell efficiencies due to their excellent surface passivation quality and carrier selectivity. The eventual existence of pinholes within the ultra-thin SiOx layer is one of the key factors for carrier collection, beside the tunneling mechanism. However, pinholes are usually believed to have negative impact on the passivation quality of poly-Si passivating contacts. This work studied the influence of the pinhole density on the passivation quality of ion-implanted poly-Si passivating contacts by decoupling the pinhole generation from the dopants diffusion process by means of two annealing steps: (1) a pre-annealing step at high temperature after the intrinsic poly-Si deposition to visualize the formation of pinholes and (2) a post-annealing step for dopants activation/diffusion after ion-implantation. The pinhole density is quantified in the range of 1✕106 to 3✕108 cm2 by the TMAH selective etching approach. The passivation quality is discussed with respect to the pinhole density and the post-annealing thermal budget (TB) for dopants diffusion. The study shows that a moderate pinhole density does not induce doping profile variations that can be detectable by the coarse spatial resolution of ECV measurements. It is surprising that the existence of pinholes in a moderate density within our thickness fixed SiOx layer can effectively enhance the passivation qualities for both n+ and p+ poly-Si passivating contacts. We speculate the reason is due to the enhanced field-effect passivation at the pinhole surrounding. In fact, the variation of the passivation quality depends on the balance between a strengthened field-effect passivation and an excessive local Auger recombination, being both effects induced by the higher and deeper level of dopants diffused into the c-Si surface through the pinholes.
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