Novel dual-layered passivation approach for 18.8% efficiency laser doped selective emitter cells

Tseng-Jung Chang, Te-Yu Wei, S. H. Chen, Li-Wei Cheng
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Abstract

A new approach for performance improvement of laser doped selective emitter cells with dual dielectric passivation layers was demonstrated. Taking advantage of recovery of laser induced defects and emitter passivation of dual dielectric layer, a new scheme has been implemented to laser doped selective emitter cells. With this dual layer structure, it is shown that both of the lightly doped and laser treated areas get higher photoluminescence response and the open circuit voltage increases from 636mV to 640mV, compared to conventional single dielectric passivation layer. The slightly optical loss is a trade-off on this kind of dual-layered passivation due to non-optimum refraction match for light trapping, but this can be compensated by better internal quantum response. Laser doped selective emitter cells with dual-layered passivation scheme show 18.8% efficiency in average with 0.3%abs efficiency gain, compared to single layer passivated cells.
18.8%效率激光掺杂选择性发射极电池的新型双层钝化方法
提出了一种提高双介质钝化层激光掺杂选择性发射极电池性能的新方法。利用激光诱导缺陷的恢复和双介质层的发射极钝化,实现了激光掺杂选择性发射极电池的新方案。结果表明,与传统的单介质钝化层相比,轻掺杂区和激光处理区都获得了更高的光致发光响应,开路电压从636mV提高到640mV。轻微的光学损失是这种双层钝化的代价,这是由于光捕获的非最佳折射匹配,但这可以通过更好的内部量子响应来补偿。与单层钝化电池相比,采用双层钝化方案的激光掺杂选择性发射极电池平均效率为18.8%,abs效率增益为0.3%。
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