无缺陷合成全π共轭螺旋梯形聚合物并拆分为一对对映体螺旋梯形聚合物。

Defect-Free Synthesis of a Fully π-Conjugated Helical Ladder Polymer and Resolution into a Pair of Enantiomeric Helical Ladders.

作者信息

Ikai Tomoyuki, Miyoshi Sayaka, Oki Kosuke, Saha Ranajit, Hijikata Yuh, Yashima Eiji

机构信息

Department of Molecular and Macromolecular Chemistry, Graduate School of Engineering, Nagoya University Chikusa-ku, Nagoya, 464-8603, Japan.

Precursory Research for Embryonic Science and Technology (PRESTO), Japan Science and Technology Agency (JST), Kawaguchi, Saitama, 332-0012, Japan.

出版信息

Angew Chem Int Ed Engl. 2023 May 8;62(20):e202301962. doi: 10.1002/anie.202301962. Epub 2023 Apr 7.

DOI:10.1002/anie.202301962

PMID:36918353

Abstract

Fully π-conjugated ladder polymers with a spiral geometry represent a new class of helical polymers with great potential for organic nanodevices, but there is no precedent for an optically active helical ladder polymer totally composed of achiral units. We now report the defect-free synthesis and resolution of a fully π-conjugated helical ladder polymer with a rigid helical cavity, which has been achieved by quantitative and chemoselective acid-promoted alkyne benzannulations of a rationally designed, random-coil achiral polymer followed by chromatographic enantioseparation. Because of a sufficiently high helix-inversion barrier, the isolated excess one-handed helical ladder polymer with a degree of polymerization of more than 15 showed a strong circular dichroism with a dissymmetry factor of up to 1.7×10 and is thermally stable, maintaining its optical activity in solution even at 100 °C, as well-supported by molecular dynamics simulation.

摘要

具有螺旋几何结构的全π共轭梯形聚合物代表了一类新型的螺旋聚合物，在有机纳米器件方面具有巨大潜力，但完全由非手性单元组成的光学活性螺旋梯形聚合物尚无先例。我们现在报道了一种具有刚性螺旋腔的全π共轭螺旋梯形聚合物的无缺陷合成与拆分，这是通过对一种合理设计的无规卷曲非手性聚合物进行定量和化学选择性酸促进的炔烃苯并环化反应，然后进行色谱对映体分离实现的。由于具有足够高的螺旋反转势垒，分离得到的聚合度大于15的过量单手螺旋梯形聚合物显示出强烈的圆二色性，不对称因子高达1.7×10 ，并且热稳定，即使在100 °C的溶液中也能保持其光学活性，分子动力学模拟也充分支持了这一点。

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无缺陷合成全π共轭螺旋梯形聚合物并拆分为一对对映体螺旋梯形聚合物。

Defect-Free Synthesis of a Fully π-Conjugated Helical Ladder Polymer and Resolution into a Pair of Enantiomeric Helical Ladders.

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