绿色能源玻璃与ZnO(保护层)太阳能电池吸收光谱模拟及效率比较

K. Rojasri, A. Deepak
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引用次数: 0

摘要

目的:通过改变保护层厚度(1000 nm ~ 6600 nm),获得玻璃(保护层)基太阳能电池和ZnO(保护层)基太阳能电池的效率。材料与方法:在纳米hub模拟环境下,通过改变保护层厚度(1000nm ~ 6600nm),比较了基于玻璃(保护层)的太阳能电池(n = 57)与基于ZnO(保护层)的太阳能电池(n = 57)的效率。结果:ZnO(保护层)基太阳能电池的效率(21.17%)显著高于玻璃(保护层)基太阳能电池(20.21%)。结论:在本研究范围内,基于ZnO(保护层)的太阳能电池具有更好的效率。
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Simulation of Absorption Spectra and Comparing Efficiency of Glass and ZnO (Protective Layer) based Solar Cell for Green Energy
Aim: Efficiency of Glass (protective layer) based solar cells and ZnO (protective layer) based solar cells was obtained by varying thickness (1000 nm to 6600 nm) of protective layer. Materials and Methods: Efficiency of Glass (protective layer) based solar cells (n = 57) was compared with ZnO (protective layer) based solar cells (n = 57) by varying thickness of protective layer ranging from 1000nm to 6600nm in the Nano hub Simulation environment. Results: ZnO (protective layer) based solar cell has significantly higher efficiency (21.17%) than Glass (protective layer) based solar cell (20.21%). Conclusion: Within the limits of this study, ZnO (protective layer) based solar cells offer better efficiency.
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来源期刊
Alinteri Journal of Agriculture Sciences
Alinteri Journal of Agriculture Sciences AGRICULTURE, MULTIDISCIPLINARY-
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