Low Temperature Processed Fully Printed Efficient Planar Structure Carbon Electrode Perovskite Solar Cells and Modules

Yang Fu; Dong Lirong; Jang Dongju; Saparov Begench; Tam Kai Cheong; Zhang Kaicheng; Li Ning; Brabec Christoph J.; Egelhaaf Hans-Joachim

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Low Temperature Processed Fully Printed Efficient Planar Structure Carbon Electrode Perovskite Solar Cells and Modules

机译：低温处理完全印刷高效的平面结构碳电极钙钛矿太阳能电池和模块

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Scalable deposition processes at low temperature are urgently needed for the commercialization of perovskite solar cells (PSCs) as they can decrease the energy payback time of PSCs technology. In this work, a processing protocol is presented for highly efficient and stable planar n-i-p structure PSCs with carbon as the top electrode (carbon-PSCs) fully printed at fairly low temperature by using cheap materials under ambient conditions, thus meeting the requirements for scalable production on an industrial level. High-quality perovskite layers are achieved by using a combinatorial engineering concept, including solvent engineering, additive engineering, and processing engineering. The optimized carbon-PSCs with all layers including electron transport layer, perovskite, hole transport layer, and carbon electrode which are printed under ambient conditions show efficiencies exceeding 18% with enhanced stability, retaining 100% of their initial efficiency after 5000 h in a humid atmosphere. Finally, large-area perovskite modules are successfully obtained and outstanding performance is shown with an efficiency of 15.3% by optimizing the femtosecond laser parameters for the P2 line patterning. These results represent important progress toward fully printed planar carbon electrode perovskite devices as a promising approach for the scaling up and worldwide application of PSCs.

机译：迫切需要在低温下进行可伸缩的沉积过程，以便为PEROVSKITE太阳能电池（PSC）商业化，因为它们可以降低PSCS技术的能量投资回收期。在这项工作中，通过在环境条件下使用廉价材料在相当低的温度下，具有碳的高效和稳定平面辊隙结构PSC，以碳的高效且稳定的平面辊隙结构PSC提供了一种高效且稳定的平面辊隙结构PSC，从而满足可扩展生产的要求在工业水平。通过使用组合工程概念，包括溶剂工程，添加剂工程和加工工程，实现了高质量的钙钛矿层。具有包括电子传输层，钙钛矿，空穴传输层和在环境条件下印刷的所有层的优化碳-PSC，其效率显示出超过18％的效率，增强的稳定性，在潮湿的5000小时后保持100％的初始效率大气层。最后，通过优化P2线图案化的飞秒激光参数，成功获得了大面积的Perovskite模块，并显示出优于15.3％的性能。这些结果代表了对全印刷平面碳电极钙钛矿器件的重要进展，作为缩放和全球PSC应用的有希望的方法。

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来源
《Advanced energy materials》 |2021年第28期|2101219.1-2101219.9|共9页
作者
Yang Fu; Dong Lirong; Jang Dongju; Saparov Begench; Tam Kai Cheong; Zhang Kaicheng; Li Ning; Brabec Christoph J.; Egelhaaf Hans-Joachim;
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Friedrich Alexander Univ Erlangen Nurnberg Inst Mat Elect & Energy Technol I MEET Martensstr 7 D-91058 Erlangen Germany|Solar Factory Future Bavarian Ctr Appl Energy Res Further Str 250 D-90429 Nurnberg Germany|Soochow Univ Lab Adv Optoelect Mat Coll Chem Chem Engn & Mat Sci Suzhou 215123 Peoples R China;

Friedrich Alexander Univ Erlangen Nurnberg Inst Mat Elect & Energy Technol I MEET Martensstr 7 D-91058 Erlangen Germany|Solar Factory Future Bavarian Ctr Appl Energy Res Further Str 250 D-90429 Nurnberg Germany;

Friedrich Alexander Univ Erlangen Nurnberg Inst Mat Elect & Energy Technol I MEET Martensstr 7 D-91058 Erlangen Germany|Solar Factory Future Bavarian Ctr Appl Energy Res Further Str 250 D-90429 Nurnberg Germany;

Solar Factory Future Bavarian Ctr Appl Energy Res Further Str 250 D-90429 Nurnberg Germany;

Friedrich Alexander Univ Erlangen Nurnberg Inst Mat Elect & Energy Technol I MEET Martensstr 7 D-91058 Erlangen Germany|Solar Factory Future Bavarian Ctr Appl Energy Res Further Str 250 D-90429 Nurnberg Germany;

Friedrich Alexander Univ Erlangen Nurnberg Inst Mat Elect & Energy Technol I MEET Martensstr 7 D-91058 Erlangen Germany;

Friedrich Alexander Univ Erlangen Nurnberg Inst Mat Elect & Energy Technol I MEET Martensstr 7 D-91058 Erlangen Germany|Helmholtz Inst Erlangen Nurnberg Renewable Energy Immerwahrstr 2 D-91058 Erlangen Germany;

Friedrich Alexander Univ Erlangen Nurnberg Inst Mat Elect & Energy Technol I MEET Martensstr 7 D-91058 Erlangen Germany|Solar Factory Future Bavarian Ctr Appl Energy Res Further Str 250 D-90429 Nurnberg Germany|Helmholtz Inst Erlangen Nurnberg Renewable Energy Immerwahrstr 2 D-91058 Erlangen Germany;

Friedrich Alexander Univ Erlangen Nurnberg Inst Mat Elect & Energy Technol I MEET Martensstr 7 D-91058 Erlangen Germany|Solar Factory Future Bavarian Ctr Appl Energy Res Further Str 250 D-90429 Nurnberg Germany;

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carbon electrodes; doctor blades; fully printed devices; long-term stability; perovskite solar cells;

机译：碳电极;刮刀;完全印刷的装置;长期稳定性;钙钛矿太阳能电池;

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机译：低温处理完全印刷高效的平面结构碳电极钙钛矿太阳能电池和模块

Low Temperature Processed Fully Printed Efficient Planar Structure Carbon Electrode Perovskite Solar Cells and Modules

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