The application of a magnetic field to improve polymer: Fullerence solar cell performance

机译：磁场的应用改善聚合物：韧性太阳能电池性能

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Charge transport in a percolated network resulted from the mixing of donor (polymer) and acceptor materials is one of the important issues in improving the performance of polymer solar cells. We demonstrate a simple approach to enhance the performance of polymer solar cells based on poly(3-hexythiophene) (P3HT):fullerene blend incorporating a small amount of magnetic FePt-nanowires (FePt-NWs) as an additive. The photoactive film was prepared under the application of a magnetic field perpendicular to the substrate during solvent drying process. The power conversion efficiency has been improved up to ～ 60% for the treated cells. The improved device performance can be attributed to the overall improvement of polymer crystallinity.

机译：由供体（聚合物）和受体材料的混合产生渗透网络中的电荷传输是提高聚合物太阳能电池性能方面的重要问题之一。我们证明了一种基于聚（3-己烯烯）（P3HT）的高分子太阳能电池性能的简单方法：富勒烯共混物作为添加剂作为添加剂的少量磁性纳米线（Fept-NWS）。在溶剂干燥过程中在垂直于基材的磁场施加光活性膜。处理细胞的功率转换效率高达约60％。改进的装置性能可归因于聚合物结晶度的总体改进。

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《IEEE Photovoltaic Specialists Conference》|2014年||共4页
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Hsu Fang-Chi; Chen Chiang-Ting; Li Cheng-Hung; Chen Chia-Chun; Chen Yang-Fang;
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中图分类太阳能电池;
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Abstracts; Films; Indiumtinoxide; Magneticresonanceimaging; Photovoltaicsystems; Production; Standards; ZnOnanorod; fullerene; magneticfield; nanowire; polymer; solarcells;

机译：摘要;薄膜;铟荧光氧化物;ModeleResonimaging;光伏学系统;生产;标准;Znonanorod;Znonanorod;Znonanorod;富勒烯;磁场;纳米线;聚合物;SOLARCELLS;

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1. Enhanced Performance of Polymer Solar Cells using PEDOT-.PSS Doped with Fe3O4 Magnetic Nanoparticles Aligned by an External Magnetostatic Field as an Anode Buffer Layer [J] . Kai Wang, Chao Yi, Xiaowen Hu ACS applied materials & interfaces . 2014,第15期

机译：使用掺有Fe3O4磁性纳米粒子的PEDOT-.PSS掺杂的静磁场作为阳极缓冲层，增强了聚合物太阳能电池的性能
2. Performance and stability of PTB7:PC_(71)BM based polymer solar cells, with ECZ and/or PVK dopants, under the application of an external electric field [J] . Armando Alvarez-Fernandez, Jose-Luis Maldonado, Enrique Perez-Gutierrez, Journal of materials science . 2016,第6期

机译：在外部电场的作用下，带有ECZ和/或PVK掺杂剂的PTB7：PC_（71）BM基聚合物太阳能电池的性能和稳定性
3. Dithienobenzothiadiazole-Based Conjugated Polymer: Processing Solvent-Relied Interchain Aggregation and Device Performances in Field-Effect Transistors and Polymer Solar Cells [J] . Jun Huang, Yongxiang Zhu, Junwu Chen, Macromolecular rapid communications: Publishing the newsletters of the European Polymer Federation . 2014,第22期

机译：Dithienobenzothiadiazole基共轭聚合物：场效应晶体管和聚合物太阳能电池中加工溶剂依赖的链间聚集和器件性能
4. The application of a magnetic field to improve polymer: Fullerence solar cell performance [C] . Hsu Fang-Chi, Chen Chiang-Ting, Li Cheng-Hung, IEEE Photovoltaic Specialists Conference . 2014

机译：磁场改善聚合物的应用：富勒太阳能电池性能
5. Magnetic Field Effects Induced by Incorporation of Magnetic Nanoparticles on Bulk Heterojunction Polymer Solar Cells [D] . Wu, Dezhen. 2018

机译：通过在散装异质结聚合物太阳能电池上掺入磁性纳米粒子诱导的磁场效应
6. Polymer Solar Cells: High‐Performance Polymer Solar Cells Based on a Wide‐Bandgap Polymer Containing Pyrrolo34‐fbenzotriazole‐57‐dione with a Power Conversion Efficiency of 8.63 (Adv. Sci. 9/2016) [O] . Liuyuan Lan, Zhiming Chen, Qin Hu, 2016

机译：聚合物太阳能电池：高性能聚合物太阳能电池基于含有吡咯并34-f苯并三唑-57-二酮的宽带隙聚合物功率转换效率为8.63％（Adv。Sci。9/2016）
7. Polymer Solar Cells: Low-Temperature Processable High-Performance D-A-Type Random Copolymers for Nonfullerene Polymer Solar Cells and Application to Flexible Devices (Adv. Energy Mater. 30/2018) [O] . Ji-yeong Kim, Sungmin Park, Seungjin Lee, 2018

机译：聚合物太阳能电池：非氟氯丁烯聚合物太阳能电池的低温加工高性能D-A型无规共聚物和柔性器件的应用（ADV。能源母体。30/2018）
8. High power, gel polymer lithium-ion cells with improved low temperature performance for NASA and DoD applications [R] . Smart, M. C., Ratnakumar, B. V., Whitcanack, L. D., 2004

机译：高功率，凝胶聚合物锂离子电池，具有改进的低温性能，适用于Nasa和DoD应用

The application of a magnetic field to improve polymer: Fullerence solar cell performance

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