Doped thieno[3,4-b]thiophene-based copolymers for p-type organic thermoelectric materials

Wu Sicheng; Xing Weilong; Zhu Mengsu; Zou Ye; Sun Yimeng; Xu Wei; Zhu Daoben

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Doped thieno[3,4-b]thiophene-based copolymers for p-type organic thermoelectric materials

机译：掺杂Thieno [3,4-B]噻吩基的P型有机热电材料的共聚物

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In this work, two conjugated polymers named PTbTTVT and PTbTTVT-F were obtained by TbT (thieno[3,4-b]thiophene) derivatives and linker TVT (1,2-bis(3-tetradecylthiophen-2-yl)ethene) copolymerization. PTbTTVT showed good orientation and better charge mobility, while the introduction of fluorine results in a disordered stacking and inferior hole mobility of PTbTTVT-F. Through the detailed study of the thermoelectric performance of polymers, we found that they both exhibited good performance with the best power factor (PF) of over 35 mu W m(-1) K-2. Although PTbTTVT-F showed much worse hole mobility compared with PTbTTVT, it could gain similar or superior PF when the suitable dopants were selected. The results implied that polymers with less ordered stacking could have more tolerance for the disruption of the dopant, and exploiting amorphous materials with prominent mobility might be a useful strategy to gain high performance organic thermoelectric materials (OTEs).

机译：在本研究中，通过TbT（噻吩[3,4-b]噻吩）衍生物和连接剂TVT（1,2-双（3-十四烷基噻吩-2-基）乙烯）共聚，获得了两种共轭聚合物PTbTTVT和PTbTTVT-F。PTbTTVT显示出良好的取向性和较好的电荷迁移率，而氟的引入导致PTbTTVT-F的无序堆积和较低的空穴迁移率。通过对聚合物热电性能的详细研究，我们发现它们都表现出良好的性能，最佳功率因数（PF）超过35μW m（-1）K-2。虽然PTbTTVT-F的空穴迁移率比PTbTTVT差得多，但当选择合适的掺杂剂时，它可以获得类似或更好的PF。结果表明，有序堆积的聚合物对掺杂剂的破坏具有更大的耐受性，开发具有显著迁移率的非晶态材料可能是获得高性能有机热电材料（OTE）的有效策略。

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《Journal of Materials Chemistry, C. materials for optical and electronic devices》 |2021年第12期|共6页
作者
Wu Sicheng; Xing Weilong; Zhu Mengsu; Zou Ye; Sun Yimeng; Xu Wei; Zhu Daoben;
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Chinese Acad Sci Inst Chem Beijing Natl Lab Mol Sci Key Lab Organ Solids Beijing 100190 Peoples R China;

Chinese Acad Sci Inst Chem Beijing Natl Lab Mol Sci Key Lab Organ Solids Beijing 100190 Peoples R China;

Chinese Acad Sci Inst Chem Beijing Natl Lab Mol Sci Key Lab Organ Solids Beijing 100190 Peoples R China;

Chinese Acad Sci Inst Chem Beijing Natl Lab Mol Sci Key Lab Organ Solids Beijing 100190 Peoples R China;

Chinese Acad Sci Inst Chem Beijing Natl Lab Mol Sci Key Lab Organ Solids Beijing 100190 Peoples R China;

Chinese Acad Sci Inst Chem Beijing Natl Lab Mol Sci Key Lab Organ Solids Beijing 100190 Peoples R China;

Chinese Acad Sci Inst Chem Beijing Natl Lab Mol Sci Key Lab Organ Solids Beijing 100190 Peoples R China;

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正文语种 eng
中图分类物理化学（理论化学）、化学物理学;
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Doped thieno[3,4-b]thiophene-based copolymers for p-type organic thermoelectric materials

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