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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.

机译：通过对低温处理的TiO 2电子传输层的成分和表面改性，无光浸透的聚合物太阳能电池的效率为10.5％。

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摘要

Compositional modification and surface treatments of a TiO2 film prepared by a low-temperature route are carried out by a new promising method. Inverted polymer solar cells incorporating the post-treated TiO2 :TOPD electron-transport layer achieve the highest efficiency of 10.5%, and more importantly, eliminate the light-soaking problem that is commonly observed in metal-oxide-based inverted polymer solar cells.

机译：通过一种新的有前途的方法，对通过低温路线制备的TiO2薄膜进行成分改性和表面处理。结合了后处理的TiO2：TOPD电子传输层的倒置聚合物太阳能电池可实现10.5％的最高效率，更重要的是，消除了通常在金属氧化物基倒置聚合物太阳能电池中发现的均光问题。

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Yan Y.; Cai F.; Yang L.; Li J.; Zhang Y.; Qin F.; Xiong C.; Zhou Y.; Lidzey D.G.; Wang T.;
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专利

1. 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 [J] . Yan Yu, Cai Feilong, Yang Liyan, Advanced Materials . 2017,第1期

机译：通过对低温处理的TiO2电子传输层进行成分和表面改性，效率为10.5％的无光倒置聚合物太阳能电池
2. Stable Efficiency Exceeding 20.6% for Inverted Perovskite Solar Cells through Polymer-Optimized PCBM Electron-Transport Layers [J] . Yang Dong, Zhang Xiaorong, Wang Kai, Nano letters . 2019,第5期

机译：通过聚合物优化的PCBM电子传输层逆转钙钛矿太阳能电池稳定效率超过20.6％
3. Achieving 10.5% efficiency for inverted polymer solar cells by modifying the ZnO cathode interlayer with phenols [J] . Fu Ping, Guo Xin, Zhang Bin, Journal of Materials Chemistry, A. Materials for energy and sustainability . 2016,第43期

机译：通过用酚改性ZnO阴极中间层，可实现聚合物反向太阳能电池转换效率的10.5％
4. Surface Modification of Decomposition Reaction on the TiO2 surface to enhance the dye-sensitized solar cells performance [C] . Molang Cai, Xu Pan, Songyuan Dai The 22nd International photovoltaic science and engineering conference . 2012

机译：TiO2表面分解反应的表面改性，以增强染料敏化太阳能电池的性能
5. Device, Interface, Process and Electrode Engineering Towards Low Cost and High Efficiency Polymer Solar Cells in Inverted Structure [D] . Zou, Jingyu. 2013

机译：面向倒装结构的低成本高效聚合物太阳能电池的设备，接口，工艺和电极工程
6. A new method to disperse CdS quantum dot-sensitized TiO2 nanotube arrays into P3HT:PCBM layer for the improvement of efficiency of inverted polymer solar cells [O] . Fumin Li, Chong Chen, Furui Tan, 2014

机译：将CdS量子点敏化的TiO2纳米管阵列分散到P3HT：PCBM层中的新方法以提高反向聚合物太阳能电池的效率
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。

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.

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