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Perovskite/CIGS Spectral Splitting Double Junction Solar Cell with 28 Power Conversion Efficiency

机译：Perovskite / CIGS光谱分裂双结太阳能电池功率转换效率为28％

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摘要

The highest theoretical efficiency of double junction solar cells is predicted for architectures with the bottom cell bandgap (Eg) of approximately 0.9–1.0 eV, which is lower than that of a typical Si cell (1.1 eV). Cu(In,Ga)(Se,S)2 (CIGS) solar cells exhibit a tunable Eg depending on their elemental composition and depth profile. In this study, various CIGS solar cells with Eg ranging from 1.02 to 1.14 eV are prepared and a spectrum splitting system is used to experimentally demonstrate the effect of using lower-Eg cells as the bottom cell of two-junction solar cells. The four-terminal tandem cell configuration fabricated using a mixed-halide perovskite top cell (Eg = 1.59 eV; stand-alone efficiency = 21.0%) and CIGS bottom cell (Eg = 1.02 eV; stand-alone efficiency = 21.5%) with a 775-nm spectral splitting mirror exhibits an efficiency of 28.0% at the aperture area of 1 cm2.

机译：预测双结太阳能电池的最高理论效率，用于底部单元带隙（例如）大约0.9-1.0eV的架构，其低于典型的Si细胞（1.1eV）。 Cu（In，Ga）（Se，S）2（CIGS）太阳能电池表现出可调谐，例如取决于它们的元素组成和深度曲线。在该研究中，制备具有例如1.02至1.14eV的各种CIG太阳能电池，并且使用光谱分裂系统来实验证明使用低级电池作为双结太阳能电池的底部池的效果。使用混合卤化卤化物钙钛矿顶部细胞（例如= 1.59eV;独立效率= 21.0％）和CIGS底部电池（例如= 1.02eV;独立效率= 21.5％）制造的四端子串联电池构型。 775-NM光谱分离镜在1cm 2的孔面积上表现出28.0％的效率。

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期刊名称 iScience
作者
Motoshi Nakamura; Keishi Tada; Takumi Kinoshita; Takeru Bessho; Chie Nishiyama; Issei Takenaka; Yoshinori Kimoto; Yuta Higashino; Hiroki Sugimoto; Hiroshi Segawa;
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作者单位

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年(卷),期 2020(23),12
年度 2020
页码 101817
总页数 14
原文格式 PDF
正文语种
中图分类
关键词
Inorganic Materials; Optical Materials; Materials Science; Materials Application; Energy Materials;

机译：无机材料;光学材料;材料科学;材料应用;能源材料;

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专利

1. Boosting the power conversion efficiency of perovskite solar cells based on Sn doped TiO_2 electron extraction layer via modification the TiO_2 phase junction [J] . Liao Ying-Han, Chang Yin-Hsuan, Lin Ting-Han, Solar Energy . 2020,第Jula期

机译：通过修改TiO_2相结基于Sn掺杂TiO_2电子提取层提高Perovskite太阳能电池的功率转换效率
2. Theoretical evidence of high power conversion efficiency in double perovskite solar cell device [J] . Kumar Manish, Raj Abhishek, Kumar Arvind, Optical Materials . 2021,第Jana期

机译：双钙钛矿太阳能电池装置高功率转换效率的理论证据
3. Water Splitting Exceeding 17% Solar-to-Hydrogen Conversion Efficiency Using Solution-Processed Ni-Based Electrocatalysts and Perovskite/Si Tandem Solar Cell [J] . Park Hoonkee, Park Ik Jae, Lee Mi Gyoung, ACS applied materials & interfaces . 2019,第37期

机译：使用溶液加工的Ni基电催化剂和Perovskite / Si Tandem太阳能电池（Perovskite / Si串联太阳能电池）的水分裂超过17％的太阳能转换效率
4. Improvement in the conversion efficiency of single and double junction a-Si solar cells by using high quality p-SiO:H window layer and seed layer/thin n-/spl mu/c-Si:H bilayer [C] . Barua, A.K., Sarker, . 2000

机译：通过使用高质量的p-SiO：H窗口层和种子层/ n- / spl mu / c-Si：H双层薄层来提高单结和双结a-Si太阳能电池的转换效率
5. Optimal Junction Parameters to Improve The Quantum Efficiency of Multi-junction Perovskite / III-V Solar Cells [D] . Rentschler, Micah D. 2019

机译：最佳结参数，提高多结钙钛矿/ III-V太阳能电池量子效率
6. Enhanced Power Conversion Efficiency of Perovskite Solar Cells with an Up-Conversion Material of Er3+-Yb3+-Li+ Tri-doped TiO2 [O] . Zhenlong Zhang, Jianqiang Qin, Wenjia Shi, 2018

机译：Er3 + -Yb3 + -Li +三掺杂TiO2上转换材料提高了钙钛矿太阳能电池的功率转换效率
7. Water Splitting Exceeding 17 Solar-to-Hydrogen Conversion Efficiency Using Solution-Processed Ni-Based Electrocatalysts and Perovskite/Si Tandem Solar Cell [O] . -1

机译：使用溶液加工的Ni基电催化剂和Perovskite / Si Tandem太阳能电池超出17％的太阳能转换效率超过17％的太阳能转换效率

Perovskite/CIGS Spectral Splitting Double Junction Solar Cell with 28 Power Conversion Efficiency

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