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Improving optical and electrical properties of micropillar and black-Si solar cells by combining them into a superstructure

机译：通过将它们组合成上部结构来改善微柱和黑硅太阳能电池的光电性能

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While nanostructured surface such as black silicon is an efficiency way to reduce the surface reflection, the high surface area impedes the application of photoelectronic conversion. On the other hand, micropillar is a promising alternative to efficiently collect carriers, but the pillar diameter is usually larger than the wavelength of light that makes surface reflection high. In this study we report an approach to reduce the surface reflection of micropillars by combining micropillar and nanostructure to create a superstructure that concurrently improves the electrical and optical properties. We found that the averaged reflection was reduced from 16.73% to 9.63%, and the efficiency was increased from 9.26% to 9.62% via only 2% modification in micropillar height.

机译：虽然诸如黑硅之类的纳米结构表面是减少表面反射的有效方法，但高表面积阻碍了光电转换的应用。另一方面，微柱是有效收集载流子的一种有前途的替代方法，但是柱直径通常大于使表面反射高的光的波长。在这项研究中，我们报告了一种通过结合微柱和纳米结构来创建同时提高电学和光学性能的超结构来减少微柱的表面反射的方法。我们发现，仅通过微柱高的2％修改，平均反射率从16.73％降低到9.63％，效率从9.26％提高到9.62％。

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《International Workshop on Active-Matrix Flatpanel Displays and Devices 》|2016年|222-224|共3页
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Jiann Shieh; Cheng Yun You; Jian Ming Liu; Chia Chen Chiu;
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Reflection; Silicon; Optical surface waves; Photovoltaic cells; Etching; Surface waves;

机译：反射;硅;光学表面波;光伏电池;蚀刻;表面波;

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4. Improving optical and electrical properties of micropillar and black-Si solar cells by combining them into a superstructure [C] . Jiann Shieh, Cheng Yun You, Jian Ming Liu, International Workshop on Active-Matrix Flatpanel Displays and Devices . 2016

机译：通过将它们组合成上部结构来改善微米和黑色Si太阳能电池的光学和电性能
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Improving optical and electrical properties of micropillar and black-Si solar cells by combining them into a superstructure

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