Effects of Side Chains on Thiazolothiazole-Based Copolymer Semiconductors for High Performance Solar Cells

Selvam Subramaniyan; Hao Xin; Felix Sunjoo Kim; Safa Shoaee; James R. Durrant; Samson A. Jenekhe

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Effects of Side Chains on Thiazolothiazole-Based Copolymer Semiconductors for High Performance Solar Cells

机译：侧链对基于噻唑并噻唑的高性能太阳能电池共聚物半导体的影响

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New thiazolothiazole-dithienosilole copolymer semiconductors bearing side chains of different type, size, and topology were synthesized and used to demonstrate the influence of side chains on morphology, charge transport and photovoltaic properties. The field effect mobility of holes varied from 0.01-0.03 cm2V−1s−1 in PSOTT and PSEHTT to 0.12 cm2V−1s−1 in PSOxTT. The average power conversion efficiency of solar cells under 1.0 sun illumination could be varied from 2.1% in PSOxTT and 4.1% in PSOTT to 5.0% in PSEHTT. The highest photovoltaic efficiency achieved in PSEHTT, that has all-branched alkyl side chains and face-on π-stacking orientation, was corroborated by its enhanced charge photogeneration observed by transient absorption spectroscopy.

机译：合成了带有不同类型，尺寸和拓扑结构的侧链的新型噻唑并噻唑-二硫代甲硅烷基共聚物半导体，并用于证明侧链对形态，电荷传输和光伏性质的影响。空穴的场效应迁移率从PSOTT和PSEHTT中的0.01-0.03 cm2V-1s-1到PSOxTT中的0.12 cm2V-1s-1。在1.0阳光照射下，太阳能电池的平均功率转换效率可以从PSOxTT中的2.1％和PSOTT中的4.1％到PSEHTT中的5.0％不等。 PSEHTT具有全支链烷基侧链和面对面的π堆叠取向，实现了最高的光伏效率，这是通过瞬态吸收光谱法观察到的增强的电荷光生能力所证实的。

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来源
《Advanced energy materials》 |2011年第5期|1-7|共7页
作者
Selvam Subramaniyan; Hao Xin; Felix Sunjoo Kim; Safa Shoaee; James R. Durrant; Samson A. Jenekhe;
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作者单位

Department of Chemical Engineering and Department of Chemistry University of Washington Seattle Washington 98195-1750 USA;

Department of Chemical Engineering and Department of Chemistry University of Washington Seattle Washington 98195-1750 USA;

Department of Chemical Engineering and Department of Chemistry University of Washington Seattle Washington 98195-1750 USA;

Department of Chemistry Imperial College London Exhibition Road London SW7 2AZ England UK;

Department of Chemistry Imperial College London Exhibition Road London SW7 2AZ England UK;

Department of Chemical Engineering and Department of Chemistry University of Washington Seattle Washington 98195-1750 USA;

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正文语种 eng
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thiazolothiazole-based copolymers; polymer solar cells; dithienosilole-based copolymers; transient absorption spectroscopy; π-stacking orientation;

机译：噻唑并噻唑基共聚物;聚合物太阳能电池;二噻吩甲硅烷基基共聚物;瞬态吸收光谱;π堆积取向;

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机译：苯二苯噻吩二苯噻唑噻唑共聚物用于高效聚合物太阳能电池：对光伏性能的侧链效应

Effects of Side Chains on Thiazolothiazole-Based Copolymer Semiconductors for High Performance Solar Cells

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