NUMERICAL MODELING OF NANOSTRUCTURE-ENHANCED SOLAR CELLS

机译：纳米结构太阳能电池的数值模拟

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This paper presents a computational study of nanostructure-enhanced solar cells. The computer model is developed based on the FDTD solution of the Maxwell equations describing the light propagation in thin film solar cells. With the model, a combination of Ag nanoparticle arrays at the top, Ag nanoparticle embedded into absorption layer and nanograting structures at the bottom of a thin film solar cell is studied. Each nanostructure is known to be capable of enhancing the solar light absorption to a certain degree, with the effect of metal particles coming primarily from the light scattering, the embedded particles from the reflection and that of back reflector from light trapping and reflection. The preliminary data from model simulation illustrate that with an appropriate combination and arrangement of these nanostructures, an increase in both short and long wavelength range can be achieved, thereby overcoming the shorting comings of each of the nanostructures when applied alone.

机译：本文介绍了纳米结构增强型太阳能电池的计算研究。基于描述薄膜太阳能电池中光传播的麦克斯韦方程的FDTD解，开发了计算机模型。通过该模型，研究了薄膜太阳能电池顶部的Ag纳米颗粒阵列，嵌入吸收层中的Ag纳米颗粒和底部的纳米光栅结构的组合。已知每个纳米结构都能在一定程度上增强太阳光的吸收，其中金属颗粒的作用主要来自光散射，嵌入的颗粒来自反射，而后向反射器则来自光的捕获和反射。来自模型模拟的初步数据表明，通过适当组合和排列这些纳米结构，可以实现短波长和长波长范围的增加，从而克服了单独使用每个纳米结构时的短路问题。

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《ASME international mechanical engineering congress and exposition》|2014年|V06BT07A038.1-V06BT07A038.6|共6页
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Rongheng Li; Ben Q. Li;
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NUMERICAL MODELING OF NANOSTRUCTURE-ENHANCED SOLAR CELLS

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