磷硼共扩散在p-PERT太阳能电池中的应用

2020 2nd International Conference on Photovoltaic Science and Technologies (PVCon) Pub Date : 2020-11-30 DOI:10.1109/PVCon51547.2020.9757796

N. Khelifati, Imane Charif, D. Bouhafs, B. Palahouane, B. Mahmoudi, S. Abaidia

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引用次数: 0

摘要

这项工作是对用于制造p- pert型太阳能电池的p+pn+结构研究的贡献。生产方法是基于同时形成发射极n+和BSF p+，通过磷和硼的共扩散。共扩散在三个不同的温度下进行;900°C, 930°C和960°C。利用这些结构制备了p-PERT细胞，并研究了它们的所有特性与共扩散温度的关系。所得结果表明，在930°C下制备的电池的电参数明显下降。短路电流密度(Jsc)与表观串联电阻(rapp)之间的相关性表明，这种退化可以用发射极和BSF侧的电阻损失来解释。

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Phosphorus and Boron Co-diffusion in Silicon for p-PERT Solar Cells Application

This work is a contribution to the study of p+pn+ structures intended for the manufacture of p-PERT type solar cells. The production method is based on the simultaneous formation of the emitter n+ and the BSF p+, through the co-diffusion of phosphorus and boron. The co-diffusion was done at three different temperatures; 900°C, 930°C and 960°C. Using these structures, p-PERT cells were produced, all of their properties of which were studied as a function of the co-diffusion temperature. The obtained results showed a clear degradation of electrical parameters of the cells prepared at 930°C. A correlation between the short-circuit current density (Jsc) and the apparent series resistance (Rsapp) demonstrates that this degradation can be explained by the resistive losses in the emitter and the BSF sides.

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2020 2nd International Conference on Photovoltaic Science and Technologies (PVCon)

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