Positional disorder in nanowire array photovoltaics

B. Sturmberg, K. Dossou, L. Botten, A. Asatryan, C. Poulton, R. McPhedran, C. D. de Sterke
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Abstract

Nanowire arrays are the focus of considerable research for incorporation into next generation solar cells. For these structures to be economically viable they must be designed to achieve high efficiencies in the presence of fabrication variations. Here we report on a systematic study of arrays of clustered nanowires, which reveals how the underlying physics of absorption enhancement in nanowire arrays is altered by the introduction of positional disorder. We find that positional disorder in fact enhances absorption efficiency over the majority of the parameter space due to the formation of additional modes in the structure and subsequently broadened absorption peaks.
纳米线阵列光伏的位置紊乱
纳米线阵列是下一代太阳能电池研究的重点。为了使这些结构在经济上可行,它们必须设计成在制造变化的情况下实现高效率。在这里,我们报告了一项系统的研究,揭示了纳米线阵列中吸收增强的潜在物理是如何通过引入位置无序而改变的。我们发现位置无序实际上提高了大部分参数空间的吸收效率,这是由于在结构中形成了附加模式并随后拓宽了吸收峰。
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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