Designing photonic materials for effective bandgap modification and optical concentration in photovoltaics

J. Munday
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Abstract

The limiting efficiency for photovoltaic energy conversion based on a semiconductor pn-junction is typically determined using the method of detailed balance put forth by Shockley and Queisser. Here we describe how this theory is altered in the presence of a photonic structure that is capable of modifying the absorption and emission of photons. By incorporating specifically designed photonic structures, higher maximum efficiencies can be achieved for low bandgap materials by restricting the absorption and emission of above bandgap photons. Similarly, restriction of the emission angle leads to increased optical concentration. We consider how both of these effects are modified in the presence of a non-ideal photonic structure.
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设计光子材料用于有效的带隙修正和光电聚光
基于半导体pn结的光伏能量转换的极限效率通常采用Shockley和Queisser提出的详细平衡法来确定。在这里,我们描述了这个理论是如何在能够改变光子的吸收和发射的光子结构的存在下被改变的。通过结合特殊设计的光子结构,通过限制带隙以上光子的吸收和发射,可以在低带隙材料中实现更高的最大效率。同样,限制发射角导致光浓度增加。我们考虑了在非理想光子结构存在下这两种效应是如何被修正的。
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