Design of ionic liquid crystals enabled by [2]rotaxane structure formation†

IF 3.2 3区 工程技术 Q2 CHEMISTRY, PHYSICAL Molecular Systems Design & Engineering Pub Date : 2024-06-20 DOI:10.1039/D4ME00034J
Gosuke Washino, Takashi Kajitani, Suzushi Nishimura and Atsushi Shishido
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Abstract

We report a new synthetic concept for converting isotropic ionic molecules into thermotropic ionic liquid crystals by forming [2]rotaxane structures. Our results demonstrate the synthesis of liquid-crystalline (LC) rotaxane from an ionic axle molecule as a mesogen core, and a molecular ring as flexible tails, neither of which possess LC properties. The [2]rotaxane obtained exhibited an interdigitated smectic A phase at around 140 °C. A simple mixture of the axle and the ring, which cannot form a rotaxane structure, did not show an LC phase. A [2]rotaxane compound having a ring with shorter flexible tails did not show an LC phase, either. These comparisons revealed that the integration of the mesogen core and flexible tails of a sufficient length in one molecule via the rotaxane structure enables the emergence of LC nature. Our results prove that the rotaxane structure serves as a connection to spatially introduce flexible tails into the mesogen core, pioneering a new approach to LC molecular design.

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通过形成 [2]rotaxane 结构设计离子液晶
我们报告了一种通过形成 [2]rotaxane 结构将各向同性离子分子转化为热致性离子液晶的新合成概念。我们的研究结果表明,以离子轴分子为介质核心,以分子环为柔性尾部(两者均不具备液晶特性),合成了液晶(LC)罗他烷。获得的 [2]rotaxane 在 140 °C 左右呈现出相互交错的 Smectic A 相。轴和环的简单混合物不能形成罗他烷结构,也没有显示出低密度相。一种具有较短柔性尾部的环的 [2]rotaxane 化合物也没有出现 LC 相。这些比较结果表明,通过轮烷结构将介源核心和足够长的柔性尾端整合在一个分子中,可以产生低浓相。我们的研究结果证明,轮烷结构是将柔性尾巴在空间上引入介源核心的连接纽带,开创了低浓分子设计的新方法。
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来源期刊
Molecular Systems Design & Engineering
Molecular Systems Design & Engineering Engineering-Biomedical Engineering
CiteScore
6.40
自引率
2.80%
发文量
144
期刊介绍: Molecular Systems Design & Engineering provides a hub for cutting-edge research into how understanding of molecular properties, behaviour and interactions can be used to design and assemble better materials, systems, and processes to achieve specific functions. These may have applications of technological significance and help address global challenges.
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