硅太阳能电池中光致镀铝取代银的优化研究

L. Ricci, M. Tseng, W. Shin, M. Tao, Yunyu Liu, Fangdan Jiang, G. Xing
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引用次数: 0

摘要

本文重点研究了光致镀铝工艺的优化,以促进硅太阳能电池作为前电极的致密粘附膜的形成。利用电化学电容电压和薄片电阻测量优化了SiNx层的激光制版工艺。开发了一种去除SiNx图案化后硅表面污染物和激光损伤的配方。原子力显微镜显示了最短的蚀刻时间,以去除所有的原始Si表面的损坏和污染。研究了不同的电镀条件,包括温度、电镀电压和光照强度。得到的最低铝电阻率为$4\乘以10^{-6}\ mathm {\Omega}-\ mathm {cm}$,与电镀Cu的电阻率相当。
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Optimization of Light-Induced Al Plating on Si for Substitution of Ag in Si Solar Cells
This paper focuses on optimization of the light-induced Al plating process to promote a dense adherent film to the Si solar cell as the front electrode. Electrochemical capacitance-voltage and sheet resistance measurements were used to optimize the laser patterning process for the SiNx layer. A recipe to remove contaminants and laser damage on the Si surface after SiNx patterning was developed. Atomic force microscopy revealed the minimum etch time to remove all the original Si surface which was damaged and contaminated. Various plating conditions including temperature, plating voltage, and light intensity were investigated. The lowest Al resistivity obtained is $4\times 10^{-6}\ \mathrm{\Omega}-\mathrm{cm}$, which is comparable to that of electroplated Cu.
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