Self-Assembled TiO2 Nanorods as Electron Extraction Layer for High-Performance Inverted Polymer Solar Cells

Lv Longfeng; Lu Qipeng; Ning Yu; Lu Zhenda; Wang Xin; Lou Zhidong; Tang Aiwei; Hu Yufeng; Teng Feng; Yin Yadong; Hou Yanbing

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Self-Assembled TiO2 Nanorods as Electron Extraction Layer for High-Performance Inverted Polymer Solar Cells

机译：自组装的TiO2纳米棒作为高性能反相聚合物太阳能电池的电子提取层

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We demonstrate the use of TiO2 nanorods with well-controlled lengths as excellent electron extraction materials for significantly improving the performance of inverted polymer solar cells. The cells containing long nanorods outperform the devices using amorphous TiO2 particles as the electron extraction layer, mainly by a 2-fold increase in short-circuit current and fill factor. The enhanced charge extraction is attributed to the high electron mobility in crystalline nanorods and their preferential alignment during film formation. Furthermore, transient photocurrent studies suggest the presence of fewer interfacial and internal defects in the nanorod interlayers, which can effectively decrease carrier recombination and suppress electron trapping.

机译：我们展示了长度可控的TiO2纳米棒作为出色的电子提取材料的用途，可显着提高倒置聚合物太阳能电池的性能。包含长纳米棒的电池的性能优于使用非晶态TiO2颗粒作为电子提取层的器件，主要是因为短路电流和填充因子提高了2倍。增强的电荷提取归因于结晶纳米棒中的高电子迁移率及其在成膜过程中的优先排列。此外，瞬态光电流研究表明，纳米棒中间层中存在较少的界面和内部缺陷，可有效减少载流子复合并抑制电子俘获。

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《Chemistry of Materials: A Publication of the American Chemistry Society》 |2015年第1期|共9页
作者
Lv Longfeng; Lu Qipeng; Ning Yu; Lu Zhenda; Wang Xin; Lou Zhidong; Tang Aiwei; Hu Yufeng; Teng Feng; Yin Yadong; Hou Yanbing;
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1. Self-Assembled TiO2 Nanorods as Electron Extraction Layer for High-Performance Inverted Polymer Solar Cells [J] . Lv Longfeng, Lu Qipeng, Ning Yu, Chemistry of Materials: A Publication of the American Chemistry Society . 2015,第1期

机译：自组装的TiO2纳米棒作为高性能反相聚合物太阳能电池的电子提取层
2. High-performance inverted polymer solar cells without an electron extraction layer via a one-step coating of cathode buffer and active layer [J] . Zheng Nannan, Wang Zhenfeng, Zhang Kai, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2019,第4期

机译：高性能倒聚合物太阳能电池，无需电子提取层通过一步涂层的阴极缓冲液和活性层
3. Niobium doped zinc oxide nanorods as an electron transport layer for high-performance inverted polymer solar cells [J] . Hina Naz, Rai Nauman Ali, Qing Liu, Journal of Colloid and Interface Science . 2018,第期

机译：铌掺杂氧化锌纳米棒作为高性能倒聚合物太阳能电池的电子传输层
4. Photophysics of Perovskite Solar Cells based on Sn-TiO2 Electron Extraction Layer Revealed by Time-Resolved Photoluminescence Spectroscopy [C] . Ying-Han Liao, Ming-Chung Wu 応用物理学会秋季学術講演会;応用物理学会 . 2019

机译：时间分辨光致发光光谱显示基于Sn-TiO2电子提取层的钙钛矿太阳能电池的光物理性质
5. Low temperature flexible perovskite solar cell with mesoporous TiO2 electron transport layer in high humidity environment [D] . De La Torre, Felipe. 2016

机译：在高湿度环境中具有介孔TiO2电子传输层的低温柔性钙钛矿太阳能电池
6. Semitransparent inverted polymer solar cells employing a sol-gel-derived TiO2 electron-selective layer on FTO and MoO3/Ag/MoO3 transparent electrode [O] . Fumin Li, Chong Chen, Furui Tan, 2014

机译：半透明倒置聚合物太阳能电池在FTO和MoO3 / Ag / MoO3透明电极上采用溶胶-凝胶衍生的TiO2电子选择层
7. Polymer Solar Cells: Light-Soaking-Free Inverted Polymer Solar Cells with an Efficiency of 10.5 by Compositional and Surface Modifications to a Low-Temperature-Processed TiO2 Electron-Transport Layer (Adv. Mater. 1/2017) [O] . Yu Yan, Feilong Cai, Liyan Yang, 2017

机译：聚合物太阳能电池：通过组成和表面改性，对低温加工的TiO2电子传输层（ADV。Mater.1 / 2017）的效率为10.5％的无浸泡倒置聚合物太阳能电池。

Self-Assembled TiO2 Nanorods as Electron Extraction Layer for High-Performance Inverted Polymer Solar Cells

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