Enhanced surface passivation of epitaxially grown emitters for high-efficiency ultrathin crystalline Si solar cells

W. Yoon, Anthony Lochtefeld, N. Kotulak, D. Scheiman, A. Barnett, P. Jenkins, R. Walters
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引用次数: 6

Abstract

In this work, we demonstrated an enhanced surface passivation of epitaxially grown boron-doped emitters by replacing thermal SiO2 as a passivation layer of p+-emitter employed in a 16.8% efficient 18-μm Si solar cell on stainless steel with plasma assisted atomic layer deposition (ALD) Al2O3/PECVD SiNx stack. For the Al2O3/SiNx stacks on epitaxial p+-emitter after post-deposition anneal, the emitter saturation current density (J0e) values were decreased to 19.5 fA/cm2 with the corresponding iVoc of 688 mV By using advanced surface passivation scheme, further improvement in the Voc of a present 16.8% efficient ultrathin Si solar cell on steel can be expected.
高效超薄晶硅太阳能电池外延生长发射体的表面钝化
在这项工作中,我们证明了通过用等离子体辅助原子层沉积(ALD) Al2O3/PECVD SiNx堆叠取代热SiO2作为不锈钢上16.8%效率的18 μm Si太阳能电池中p+发射极的钝化层,增强了外延生长的掺硼发射极的表面钝化。对于沉积后退火的外延p+-发射极上的Al2O3/SiNx堆,发射极饱和电流密度(J0e)值降至19.5 fA/cm2,相应的iVoc为688 mV。采用先进的表面钝化方案,可以进一步提高目前效率为16.8%的钢上超薄硅太阳电池的Voc。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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