具有四重 [5]苝单元的二氮杂三嗪:合成、光学性质和超分子组装

Xiao-Hui Ma, Jiang-Feng Xing, Ling Chai, Qing-Song Deng, Xuan-Wen Chen, Hai-Feng Su, Chao Li, Yuan-Zhi Tan
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引用次数: 0

摘要

通过使用立体阻碍的叔丁基来抑制[5]螺旋烯单元的进一步脱氢环化,成功合成了一种螺旋状重氮杂环烯(1)。这些叔丁基可以稳定[5]螺旋烯单元的构象,从而产生了 1 的三种稳定构象,包括一对对映体(1-(P, P, P, P)和 1-(M,M,M,M))和一个中间体(1-(P, P, M, M))。与平面类似物相比,螺旋 1 的吸收光谱和发射光谱的峰值都有所扩大,导致发射量子产率从 0.3 提高到 0.6。此外,还观察到该化合物在加入等效酸后可以完全质子化。此外,1 与 PdII 单元配位后组装成手性三元金属超分子复合物。质子化的 1 和金属超分子复合物都表现出增强的圆二色性响应。这些发现揭示了在纳米石墨烯中加入螺旋结构和吡啶氮掺杂可以合成反应灵敏的环光电石墨烯材料,这些材料可以作为构建手性分层金属超分子结构的基本成分。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Diazananographene with Quadruple [5]Helicene Units: Synthesis, Optical Properties, and Supramolecular Assembly

Diazananographene with Quadruple [5]Helicene Units: Synthesis, Optical Properties, and Supramolecular Assembly

A helical diazananographene (1) was successfully synthesized by employing sterically hindered t-butyl groups to inhibit further dehydrocyclization of [5]helicene units. These t-butyl groups stabilized the conformation of [5]helicene units, thus resulting in three stable conformers of 1, comprising a pair of enantiomers (1-(P, P, P, P) and 1-(M, M, M, M)) and a mesomer (1-(P, P, M, M)). In comparison to its planar analogs, helical 1 exhibited broadened peaks in both its absorption and emission spectra, leading to an increase in the emission quantum yield from 0.3 to 0.6. The significantly enhanced radiative decay rate (k r) accounted for the increase in the quantum yield of 1. Additionally, it was observed that the compound could be fully protonated upon the addition of an equivalent acid. Furthermore, 1 assembled into a chiral trimeric metallosupramolecular complex upon coordination with the PdII units. Both protonated 1 and the metallosupramolecular complex exhibited an enhanced circular dichroic response. These findings revealed that the incorporation of a helical structure and pyridinic nitrogen-doping into the nanographene can allow the synthesis of responsive chiroptical graphenic materials, which could serve as fundamental components for constructing chiral hierarchical metallosupramolecular structures.

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