Optimization of Efficient Perovskite-Si Hybrid Tandem Solar Cells

N. Shukla, A. Verma, S. Tiwari
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Abstract

Perovskite-silicon tandem solar cells have attracted much attention to photovoltaic community because of their high efficiency via easy fabrication methods and availability of precursor material abundant in nature. The properties of both perovskite and silicon meet ideal solar cell standards such as high light absorption potential, long carrier diffusion length and fast charge separation process. Semi-transparent solar cell with widely tunable band gap of perovskite material is compatible with silicon solar cell for tandem structures. A perovskite-silicon tandem solar cell four terminal configuration optimization was performed through numerical simulation. The optimized four terminal perovskite-silicon tandem solar cell performances was investigated by varying the thickness of top and bottom solar cell absorber layers, defect density of the absorber layer, and temperature. Perovskite-silicon tandem solar cell showed better photovoltaic performance under constant illumination condition. A high performance mechanically attached four terminal (4-T) perovskite-silicon tandem solar cell has total power conversion efficiency (PCE) of 34.88% by optimized parameters through simulation. It has shown 37% efficiency with matched current of 23.71mA/cm2. These numerical simulation results are provided the parameter values for further experimental assignment.
高效钙钛矿-硅混合串联太阳能电池的优化
钙钛矿-硅串联太阳能电池因其制备方法简单、效率高、具有丰富的前驱体材料而受到光伏界的广泛关注。钙钛矿和硅的性能都满足理想的太阳能电池标准,如高光吸收电位、长载流子扩散长度和快速电荷分离过程。具有宽可调钙钛矿材料带隙的半透明太阳能电池可与硅太阳能电池兼容用于串联结构。通过数值模拟对钙钛矿-硅串联太阳能电池的四端结构进行了优化。通过改变顶部和底部吸收层厚度、吸收层缺陷密度和温度,研究了优化后的四端钙钛矿硅串联太阳电池的性能。钙钛矿硅串联太阳能电池在恒定光照条件下表现出较好的光伏性能。通过仿真优化参数得到的高性能机械贴附四端(4-T)钙钛矿硅串联太阳能电池总功率转换效率(PCE)达到34.88%。其效率为37%,匹配电流为23.71mA/cm2。这些数值模拟结果为进一步的实验提供了参数值。
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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