Rational Monomer Design for the Synthesis of Conjugated Polymers by Direct Heteroarylation Polymerization

IF 4.7 Q1 POLYMER SCIENCE
Navnath R. Kakde, Himanshu Sharma, Nitin V. Dalvi, Kumar Vanka and Asha S.K*, 
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引用次数: 0

Abstract

This study focuses on the design concepts that contribute to the C–H activation in bithiophene-flanked monomers incorporating naphthalene diimide (NDI), perylene diimide (PDI), and fluorene (FLU) and their polymerization by direct heteroarylation. Density functional theory (DFT) calculations reveal distinct energy requirements for C–H bond abstraction, which is dictated by the electron-withdrawing strength of the central aromatic core flanked by bithiophene. These provide insights into the reactivity of each monomer for C–H bond activation. Proton NMR spectroscopic experimental results confirm the favorable energetic profiles predicted by DFT, with NDI- and PDI-flanked monomers exhibiting lower energy requirements than fluorene-flanked monomers. Successful polymer synthesis is demonstrated for NDI and PDI, while the fluorene-flanked monomer shows challenges due to its higher energy demands.

通过直接异芳基化聚合合成共轭聚合物的合理单体设计
本研究的重点是掺入了萘二亚胺(NDI)、苝二亚胺(PDI)和芴(FLU)的双噻吩侧翼单体中有助于 C-H 活化的设计理念,以及它们通过直接杂芳基化的聚合反应。密度泛函理论(DFT)计算揭示了 C-H 键抽离所需的独特能量要求,而这取决于中央芳香核心两侧噻吩的电子抽离强度。这有助于深入了解每种单体对 C-H 键活化的反应性。质子核磁共振光谱实验结果证实了 DFT 预测的有利能量曲线,NDI 和 PDI 侧翼单体的能量需求低于芴侧翼单体。NDI 和 PDI 的聚合物合成获得了成功,而芴侧翼单体由于能量需求较高而面临挑战。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
CiteScore
2.50
自引率
0.00%
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