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Modeling and simulation of bifacial perovskite/PERT-silicon tandem solar cells

机译:双脉冲钙钛矿/ Pert-Silicon串联太阳能电池的建模与仿真

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摘要

In this paper, we physically modeled a bifacial perovskite/PERT-silicon tandem solar cells for the first time using Silvaco technology computer-aided design simulator (TCAD). The cell model was calibrated with the reported experimental data of perovskite solar cell (PSC) and PERT-silicon solar cell. The effects of perovskite thickness (t(pvk)) and perovskite bandgap were investigated on the performance of bifacial tandem solar cells under different albedo. The simulation results predict that the optimum t(pvk) increases with albedo intensities because a thicker perovskite layer is needed to facilitate current matching for high albedos. Moreover, the t(pvk) tolerance for a high-efficiency bifacial tandem solar cell increases with albedo. The simulation results reveal an efficiency over 31.9% for 0.45-1 mu m of t(pvk) with 1.65-1.75 eV perovskite bandgap for a bifacial tandem cell under 30% albedo. Additionally, compared to the monofacial cell, the tandem design shows an enhancement of about 30% at the spectral albedo level of common grounds like concrete. The simulation and analysis presented in this work can help optimize perovskite/silicon tandem cell manufacturing to achieve higher power conversion efficiencies.
机译:在本文中,我们首次使用Silvaco Technology计算机辅助设计模拟器(TCAD)进行了一系列的Bifacial Perovskite / Pert-Silicon串联太阳能电池。通过报告的钙钛矿太阳能电池(PSC)和Pert-Silicon太阳能电池的实验数据校准了细胞模型。研究了钙钛矿厚度(T(PVK))和Perovskite带隙的影响在不同的Albedo下的双相串联太阳能电池的性能下进行了研究。仿真结果预测,最佳T(PVK)随着Albedo强度而增加,因为需要较厚的钙钛矿层来促进高玻璃玻璃的电流匹配。此外,高效双串联太阳能电池的T(PVK)耐受与Albedo增加。仿真结果揭示了0.45-10mM的效率超过31.9%,对于30%Albedo的双脉冲串联细胞为1.65-1.75 eV Perovskite带隙。另外,与单曲线细胞相比,串联设计表明,在像混凝土的光谱反玻璃水平的光谱反玻璃水平上提高了约30%的增强。本作工作中提出的仿真和分析可以帮助优化Perovskite /硅串联电池制造,以实现更高的功率转换效率。

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  • 来源
    《Solar Energy》 |2021年第10期|292-302|共11页
  • 作者

    Li Ping; Xiong Hao; Lin Lingyan; Jiang Linqin; Kang Zhenjing; Yan Qiong; Lien Shui-Yang; Chen Han; Qiu Yu;

  • 作者单位

    Fujian Jiangxia Univ Key Lab Green Perovskites Applicat Fujian Prov Un Fuzhou 350108 Peoples R China|Fujian Jiangxia Univ Coll Elect Informat Sci Fuzhou 350108 Peoples R China;

    Fujian Jiangxia Univ Key Lab Green Perovskites Applicat Fujian Prov Un Fuzhou 350108 Peoples R China|Fujian Jiangxia Univ Coll Elect Informat Sci Fuzhou 350108 Peoples R China;

    Fujian Jiangxia Univ Key Lab Green Perovskites Applicat Fujian Prov Un Fuzhou 350108 Peoples R China|Fujian Jiangxia Univ Coll Elect Informat Sci Fuzhou 350108 Peoples R China;

    Fujian Jiangxia Univ Key Lab Green Perovskites Applicat Fujian Prov Un Fuzhou 350108 Peoples R China|Fujian Jiangxia Univ Coll Elect Informat Sci Fuzhou 350108 Peoples R China;

    Fujian Jiangxia Univ Key Lab Green Perovskites Applicat Fujian Prov Un Fuzhou 350108 Peoples R China|Fujian Jiangxia Univ Coll Elect Informat Sci Fuzhou 350108 Peoples R China;

    Fujian Jiangxia Univ Key Lab Green Perovskites Applicat Fujian Prov Un Fuzhou 350108 Peoples R China|Fujian Jiangxia Univ Coll Elect Informat Sci Fuzhou 350108 Peoples R China;

    Xiamen Univ Technol Sch Optoelect & Commun Engn Xiamen 361024 Peoples R China;

    Shanghai Jiao Tong Univ Sch Mat Sci & Engn State Key Lab Met Matrix Composites Shanghai 200240 Peoples R China;

    Fujian Jiangxia Univ Key Lab Green Perovskites Applicat Fujian Prov Un Fuzhou 350108 Peoples R China|Fujian Jiangxia Univ Coll Elect Informat Sci Fuzhou 350108 Peoples R China;

  • 收录信息 美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
  • 原文格式 PDF
  • 正文语种 eng
  • 中图分类
  • 关键词

    Bifacial; Perovskite; PERT; Albedo; High-efficiency;

    机译:双环;Perovskite;pert;反诉;高效率;

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