Engineering “Meso-Atom” Bonding: Honeycomb-Network Transitions in Reticular Liquid Crystals

IF 13.9 Q1 CHEMISTRY, MULTIDISCIPLINARY

Aggregate (Hoboken, N.J.) Pub Date : 2024-12-26 DOI:10.1002/agt2.728

Christian Anders, Tianyi Tan, Virginia-Marie Fischer, Ruoyu Wang, Mohamed Alaasar, Rebecca Waldecker, Yu Cao, Feng Liu, Carsten Tschierske

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Abstract

A library of rod-like bolapolyphiles with sticky hydrogen-bonded glycerol groups at their ends and having highly branched side chains with a carbosilane-based four-way branching point, all based on the same oligo(phenylene ethynylene) core, has been synthesized and investigated. For these compounds, a A15-type Frank–Kasper phase is formed upon side-chain elongation in the steric frustration range at the transition from the triangular to the much larger square honeycombs. In contrast to the previously known tetrahedral sphere packings the A15 phase is in this case formed by tetrahedral networks of aggregates of parallelly organized π-conjugated rods. This allows the design of compounds with wide ranges of the A15 network down to room temperature. However, its formation becomes strongly disfavored by core fluorination that is attributed to a changing mode of core–core interaction that also modifies the square honeycombs by deformation of the squares into rectangular or rhombic cells, either with or without emergence of tilt of the rods.

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工程“介原子”键合：网状液晶中的蜂窝网络跃迁

合成并研究了一组棒状亲波多酚，其末端具有粘性的氢键甘油基团，侧链高度支化，具有基于碳硅烷的四向分支点，它们都基于相同的低聚物（苯乙烯-乙炔）核心。对于这些化合物，在从三角形蜂窝过渡到更大的方形蜂窝时，在位阻范围内侧链伸长形成a15型弗兰克-卡斯珀相。与先前已知的四面体球体填料相反，A15相是由平行组织的π共轭棒聚集体的四面体网络形成的。这使得化合物的设计具有宽范围的A15网络低至室温。然而，由于核芯-核芯相互作用模式的变化，核芯氟化对蜂窝状结构的形成非常不利，而核芯氟化也改变了方形蜂窝状结构，使方形蜂窝状结构变形为矩形或菱形细胞，无论棒状结构是否出现倾斜。

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