用于无铅 Cs2NaGaBr6 ni-i-p 太阳能电池光伏评估的 HTL 掺杂密度优化

SPIE/COS Photonics Asia Pub Date : 2023-11-28 DOI:10.1117/12.2686546

Ajay Kumar, M. S. Thomas, Neha Gupta, Amit kumar Goyal, Yehia Massoud

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摘要

本研究采用 HTL 优化技术分析了双卤化物过氧化物（无铅）Cs2NaGaBr6 ni-i-p 太阳能电池，以提高其光电性能。所有模拟都使用了一种名为 SCAPS- 1D 的强大太阳能电池建模工具。建议的光伏设计采用双包晶石材料。Cs2NaGaBr6 的带隙为 1.762 eV，是一种直接带隙卤化物双包晶石材料，与有机无机包晶石材料极为接近。通过改进空穴传输层（HTL）掺杂（1×1018 cm-3-1×1022 cm-3），该太阳能电池的效率提高到 26.19%。此外，Jsc、Voc、FF 和 PCE (η) 都作为光伏性能参数进行了研究。为了为太阳能应用创造有效的无铅过氧化物，可以使用所提出的装置。

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HTL doping density optimization for photovoltaic assessment of Pb-free Cs2NaGaBr6 n-i-p solar cell

In this study, HTL optimisation techniques have been used to analyse a double halide perovskite (which is lead-free) Cs2NaGaBr6 n-i-p solar cell in order to improve photovoltaic performance. A robust solar cell modeling tool called SCAPS- 1D was used for all of the simulations. The suggested photovoltaic design uses a double perovskite material. With a bandgap of 1.762 eV, Cs2NaGaBr6 is a direct band gap halide double perovskite material that is extremely close to organicinorganic perovskite material. With an improved hole transport layer (HTL) doping (1×1018 cm-3–1×1022 cm-3), the proposed solar cell had a better efficiency of 26.19%. Additionally, Jsc, Voc, FF, and PCE (η) have all been examined as photovoltaic performance parameters. In order to create effective Pb-free perovskite for solar applications, the proposed device may be used.

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SPIE/COS Photonics Asia

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