Design challenges for light harvesting in photovoltaic devices

SPIE Photonics Europe Pub Date : 2016-04-29 DOI:10.1117/12.2231756
M. Topič, M. Jošt, M. Sever, M. Filipič, Ž. Lokar, B. Lipovšek, A. Čampa, J. Krč
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引用次数: 2

Abstract

Device modelling and characterization are indispensable tools in the design of photovoltaic devices. In the contribution we present two challenging issues related to accurate modelling and efficient characterization of light scattering at nanotextured interfaces or other nanophotonic structures used in solar cell technologies. The model based on finite element method, which is upgraded with the Huygens’ expansion theorem is presented. It enables to calculate the angular distribution function of scattered light in the near and far field. It accounts also for the antireflection effects originating from nanoroughnesses. To characterize scattered light efficiently a camera based angular resolved spectroscopy system is presented. It captures the spatial angular distribution function in broad angular range at one shot.
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光电器件中光收集的设计挑战
器件建模和表征是光伏器件设计中不可缺少的工具。在贡献中,我们提出了两个具有挑战性的问题,这些问题与纳米纹理界面或太阳能电池技术中使用的其他纳米光子结构的光散射的准确建模和有效表征有关。提出了基于惠更斯展开定理的有限元模型。它可以计算出散射光在近场和远场的角分布函数。它还解释了纳米厚度引起的抗反射效应。为了有效地表征散射光,提出了一种基于相机的角分辨光谱系统。它一次捕获了大角度范围内的空间角分布函数。
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SPIE Photonics Europe
SPIE Photonics Europe
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