Efficient and Reproducible Monolithic Perovskite/Organic Tandem Solar Cells with Low-Loss Interconnecting Layers

Xu Chen; Ziyan Jia; Zeng Chen; Tingming Jiang; Lizhong Bai; Feng Tao; Jianwu Chen; Xinya Chen; Tianyu Liu; Xuehui Xu; Chenying Yang; Weidong Shen; Wei E.I. Sha; Haiming Zhu; Yang (Michael) Yang

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Efficient and Reproducible Monolithic Perovskite/Organic Tandem Solar Cells with Low-Loss Interconnecting Layers

机译：具有低损耗互连层的高效和可再现的单片钙钛矿/有机串联太阳能电池

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Perovskite solar cells (PSCs) and organic photovoltaics (OPVs) have both undergone rapid development recently. The composition and molecular tunability of perovskite and organic semiconductors enable a large material pool with different band gaps and various physical characters, giving feasibility to construct perovskite/organic tandem solar cells (TSCs). Here, we developed a semi-empirical model, rationally selected the best available material combination, and successfully demonstrated the efficient and reproducible TSCs benefiting from their complementary band gaps and orthogonal processing solvents. Featuring with all-thermally evaporated low-loss interconnecting layers (ICLs), our 2-termimal (2T) monolithic perovskite/organic TSCs deliver high reproducibility with power conversion efficiency (PCE) narrowly distributed between 20% and 20.6% (certified as 19.54%). In addition to the promising efficiency, the UV sensitivity of OPVs is eliminated in the tandem structure, demonstrating its advantage on device stability. Those results unfold significant potentials of perovskite/organic tandem devices as reproducible and cost-effective structures to achieve high-performance TSCs.

机译：钙钛矿太阳能电池（PSC）和有机光伏（OPV）最近经历了快速发展。 Perovskite和有机半导体的组成和分子可调性使大型材料池能够具有不同的带隙和各种物理特性，可行性构建钙钛矿/有机串联太阳能电池（TSC）。在这里，我们开发了一个半实证模型，合理选择了最佳的可用材料组合，并成功地证明了从其互补带间隙和正交处理溶剂受益的有效和可重复的TSC。我们的2粒（2T）单片钙钛矿/有机TSC具有全热蒸发的低损耗互连层（ICLS），可提供高再现性，电力转换效率（PCE）狭窄地分布在20％和20.6％之间（认证为19.54％）。除了有前途的效率外，在串联结构中消除了OPV的UV敏感性，证明了其在装置稳定性上的优势。这些结果展开了钙钛矿/有机串联装置的显着潜力，作为可重复和具有成本效益的结构，以实现高性能TSC。

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来源
《Joule》 |2020年第7期|1594-1606|共13页
作者
Xu Chen; Ziyan Jia; Zeng Chen; Tingming Jiang; Lizhong Bai; Feng Tao; Jianwu Chen; Xinya Chen; Tianyu Liu; Xuehui Xu; Chenying Yang; Weidong Shen; Wei E.I. Sha; Haiming Zhu; Yang (Michael) Yang;
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State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

Center for Chemistry of High-Performance & Novel Materials Department of Chemistry Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

Key Laboratory of Micro-nano Electronic Devices and Smart Systems of Zhejiang Province Collegeof Information Science and Electronic Engineering Zhejiang University;

Center for Chemistry of High-Performance & Novel Materials Department of Chemistry Zhejiang University;

State Key Laboratory of Modern Optical Instrumentation College of Optical Science and Engineering International Research Center for Advanced Photonics Zhejiang University;

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2-terminal monolithic perovskite/organic tandem solar cell; practical PCE limit estimated by the semi-empirical model; high reproducibility and efficiency; enhanced photostability; all-thermally evaporated very thin and low-loss interconnecting layers;

机译：2末端单片钙钛矿/有机串联太阳能电池;通过半经验模型估计的实用PCE限制;高再现性和效率;增强的光稳定性;全热蒸发非常薄;低损耗互连层;

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2. Interconnecting layers of different crystalline silicon bottom cells in monolithic perovskite/silicon tandem solar cells [J] . Lingling Yan, Can Han, Biao Shi, Superlattices and microstructures . 2021,第Mara期

机译：单片钙钛矿/硅串联太阳能电池中不同晶体硅底电池的互连层
3. Organic Solar Cells: A New Interconnecting Layer of Metal Oxide/Dipole Layer/Metal Oxide for Efficient Tandem Organic Solar Cells (Adv. Energy Mater. 17/2015) [J] . Shunmian Lu, Xing Guan, Xinchen Li, Advanced energy materials . 2015,第17期

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机译：宽带隙钙钛矿的光学和组成工程，对高效整体钙钛矿/硅串联太阳能电池具有提高的光诱导相分离稳定性的稳定性
5. Thermally Stable, Efficient, Vapor-Deposited Inorganic Perovskite Solar Cells [D] . Gaonkar, Harshavardhan Ashok. 2019

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7. Solar Cells: Thermionic Emission-Based Interconnecting Layer Featuring Solvent Resistance for Monolithic Tandem Solar Cells with Solution-Processed Perovskites (Adv. Energy Mater. 36/2018) [O] . Can Li, Zi Shuai Wang, Hugh Lu Zhu, 2018

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Efficient and Reproducible Monolithic Perovskite/Organic Tandem Solar Cells with Low-Loss Interconnecting Layers

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