Characterization Process of Silicon Solar Cell in BAEC Lab

Progress in Solar Energy and Engineering Systems Pub Date : 2020-12-31 DOI:10.18280/psees.040102

Asrrufusjaman, M. Hassan, Abu Md. Ahsanul Karim, M. O. Faruk

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Abstract

This paper represents the characterization process of mono-facial solar cell in Bangladesh Atomic Energy Commission (BAEC) Lab. Mono-facial solar cell characterization performance analysis using surface reflection method, Sheet resistance method, SEM, Surface photo voltage and LIV test. The morphology of silicon wafer surface has been studied using scanning electron microscopy. It is found that the pyramid type structures are formed on the textured surface which helps to trap more light during conversion to electricity. The sheet resistance of raw and diffused sample is measured by using four point probe method. Results show that the resistivity of the wafer is decreased after diffusion which indicates the formation of n-type layer during diffusion process. The surface photo voltage data is used to find the diffusion length and life time. It is found the diffusion length 81.5μm and life time is 2.5μs. Finally, the efficiency of monofacial solar cell measured by LIV tester. Results show that the monofacial solar cell achieved fill factor (FF) of 0.310423 with a conversion efficiency (η) of 5.193843% where the active surface area is 96 cm2.

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硅太阳能电池在BAEC实验室的表征过程

本文介绍了孟加拉国原子能委员会(BAEC)实验室单面太阳能电池的表征过程。利用表面反射法、薄片电阻法、扫描电镜、表面光电电压和LIV测试对单面太阳能电池进行性能表征分析。用扫描电子显微镜研究了硅片表面的形貌。研究发现，在纹理表面形成的金字塔型结构有助于在转换为电时捕获更多的光。采用四点探针法测量了原始样品和扩散样品的薄片电阻。结果表明，扩散后晶圆的电阻率降低，表明扩散过程中形成了n型层。利用表面光电压数据计算扩散长度和寿命。扩散长度为81.5μm，寿命为2.5μs。最后，用LIV测试仪测量了单面太阳能电池的效率。结果表明，在活性表面积为96 cm2时，单面太阳能电池的填充系数(FF)为0.310423，转换效率(η)为5.193843%。

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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Progress in Solar Energy and Engineering Systems

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