用于高性能聚合物-富勒烯太阳能电池的异靛蓝-二氰基联噻吩基共聚物，开路电压达1.06V，功率转换效率达8.36% 。

Isoindigo-dicyanobithiophene-Based Copolymer for High Performance Polymer-Fullerene Solar Cells Reaching 1.06 V Open Circuit Voltage and 8.36% Power Conversion Efficiency.

作者信息

Liao Song-Fu, Chen Chin-Ti, Chao Chi-Yang

机构信息

Department of Materials Science and Engineering, National Taiwan University, Taipei 10617, Taiwan, Republic of China.

Institute of Chemistry, Academia Sinica, Taipei 11529, Taiwan, Republic of China.

出版信息

ACS Macro Lett. 2017 Sep 19;6(9):969-974. doi: 10.1021/acsmacrolett.7b00547. Epub 2017 Aug 22.

DOI:10.1021/acsmacrolett.7b00547

PMID:35650877

Abstract

To investigate the effect of substitution of cyano groups (CN) on D-π-A type conjugated copolymer in photophysical and photovoltaic properties, a non-CN-substituted and a CN-substituted isoindigo-based copolymers were synthesized and characterized. Having dicyano-substituted bithiophene as electron-donating segment and isoindigo as electron-accepting segment, exhibits a deeper highest occupied molecular orbital energy level (HOMO) than that of the non-CN-substituted . Benefiting from the improved solubility via copolymer side-chain substituent (2-decylteradecyl), inverted solar cells fabricated with a thick (∼200 nm) active layer (:PCBM, 1:2.0) have achieved a very high open circuit voltage of 1.06 V. High power conversion efficiency of 8.36% can be reached without thermal annealing treatment or processing solvent additives.

摘要

为了研究氰基（CN）取代对D-π-A型共轭共聚物光物理和光伏性能的影响，合成并表征了一种非氰基取代和一种氰基取代的异吲哚基共聚物。以二氰基取代的联噻吩为给电子段、异吲哚为受电子段，其最高占据分子轨道能级（HOMO）比非氰基取代的更深。得益于共聚物侧链取代基（2-癸基十四烷基）改善的溶解性，用厚（约200nm）活性层（：PCBM，1:2.0）制备的倒置太阳能电池实现了1.06V的非常高的开路电压。无需热退火处理或添加加工溶剂添加剂即可达到8.36%的高功率转换效率。

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Isoindigo-dicyanobithiophene-Based Copolymer for High Performance Polymer-Fullerene Solar Cells Reaching 1.06 V Open Circuit Voltage and 8.36% Power Conversion Efficiency.用于高性能聚合物-富勒烯太阳能电池的异靛蓝-二氰基联噻吩基共聚物，开路电压达1.06V，功率转换效率达8.36% 。

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用于高性能聚合物-富勒烯太阳能电池的异靛蓝-二氰基联噻吩基共聚物，开路电压达1.06V，功率转换效率达8.36% 。

Isoindigo-dicyanobithiophene-Based Copolymer for High Performance Polymer-Fullerene Solar Cells Reaching 1.06 V Open Circuit Voltage and 8.36% Power Conversion Efficiency.

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