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Alkoxy-Functionalized Bithiophene/thiazoles: Versatile Building Blocks for High-Performance Organic and Polymeric Semiconductors
Accounts of Materials Research ( IF 14.0 ) Pub Date : 2023-02-21 , DOI: 10.1021/accountsmr.2c00237 Kun Yang 1, 2 , Zhicai Chen 1 , Yimei Wang 1 , Xugang Guo 1
Accounts of Materials Research ( IF 14.0 ) Pub Date : 2023-02-21 , DOI: 10.1021/accountsmr.2c00237 Kun Yang 1, 2 , Zhicai Chen 1 , Yimei Wang 1 , Xugang Guo 1
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Organic electronics has experienced substantial advances in the past decade, driven by the development of high-performance organic semiconductors (OSCs) in combination with device engineering. While the pursuit of new aromatic building blocks has been a central topic in OSC innovation, the installation of novel side chains is also of significance for accessing high-performance solution-processable OSCs due to their great impact on (macro)molecular conformation/configuration, energy levels, intra/intermolecular interaction, and packing motifs, as well as film morphology of the materials.
中文翻译:
烷氧基官能化联噻吩/噻唑:用于高性能有机和聚合物半导体的多功能构建单元
在高性能有机半导体 (OSC) 与器件工程相结合的推动下,有机电子产品在过去十年中取得了长足的进步。虽然追求新的芳香结构单元一直是 OSC 创新的中心主题,但由于它们对(大)分子构象/配置的巨大影响,新型侧链的安装对于获得高性能可溶液处理的 OSC 也具有重要意义,能级、分子内/分子间相互作用和堆积图案,以及材料的薄膜形态。
更新日期:2023-02-21
中文翻译:
烷氧基官能化联噻吩/噻唑:用于高性能有机和聚合物半导体的多功能构建单元
在高性能有机半导体 (OSC) 与器件工程相结合的推动下,有机电子产品在过去十年中取得了长足的进步。虽然追求新的芳香结构单元一直是 OSC 创新的中心主题,但由于它们对(大)分子构象/配置的巨大影响,新型侧链的安装对于获得高性能可溶液处理的 OSC 也具有重要意义,能级、分子内/分子间相互作用和堆积图案,以及材料的薄膜形态。
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