SnS超薄太阳能电池的数值模拟

2017 International Conference on Electrical, Computer and Communication Engineering (ECCE) Pub Date : 2017-02-01 DOI:10.1109/ECACE.2017.7913033

Mrinmoy Dey, Maitry Dey, N. Rahman, I. Tasnim, R. Chakma, U. Aimon, M. Matin, N. Amin

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引用次数: 12

摘要

在现代文明中，选择太阳能作为可再生能源作为清洁、绿色的能源，是对可持续发展的一种非常可靠的回应。SnS是一种二元半导体化合物，在损耗成本薄膜太阳能电池中具有很好的光电性能。因此，超薄SnS太阳能电池的研究备受关注。本研究利用SCAPS 2802模拟器对硫化铋(Bi2S3)为窗层材料的SnS太阳能电池的深层缺陷进行了数值分析。在所提出的电池中，减少了SnS吸收层，从而最大限度地降低了成本，节省了制造所需的工艺时间和能量。在本研究中，发现该超薄SnS太阳电池的可行性，并显示出20.05%的效率(Jsc = 36.61 mA/cm2, FF = 0.614, Voc = 0.89 V)，因此，研究了SnS太阳电池的热稳定性，以探索吸收层的隐藏潜力。

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Numerical modeling of SnS ultra-thin solar cells

In modern civilization, the solar energy as renewable energy is chosen for the generation of the clean and green energy which is very reliable in response of sustainable development. The SnS is a binary semiconductor compound which has very favourable optoelectronic properties for lost cost thin film solar cell. Therefore, the researchers have great attention to investigate the ultra-thin SnS solar cell. In this research work, the deep level defects on the performance of SnS solar cells with Bismuth Sulfide (Bi2S3) as window layer material was carried out by numerical analysis using SCAPS 2802 simulator. In the proposed cell, the SnS absorber layer was reduced that minimized the cost, saving process time and energy required for fabrication. In this study, it was found that the feasibility of this proposed ultra thin SnS solar cells and showed higher efficiency of 20.05 % (Jsc = 36.61 mA/cm2, FF = 0.614, Voc = 0.89 V). Consequently, it has been investigated the thermal stability of the SnS solar cell to explore the hidden potentiality of absorber layer.

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2017 International Conference on Electrical, Computer and Communication Engineering (ECCE)

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