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Reticular liquid crystal design: Controlling complex self-assembly of p-terphenyl rods by side-chain engineering and chirality

Silvio Poppe, Anne Lehmann, Matthias Steimecke, Marko Prehm, Yangyang Zhao, Changlong Chen, Yu Cao, Feng Liu, Carsten Tschierske

2024Giant11 citationsDOIOpen Access PDF

Abstract

A series of K-shaped bolapolyphiles, consisting of a p-terphenyl core, two polar glycerol end-groups and a swallow-tailed alkyl side-chain were synthesized and investigated. By increasing the side-chain volume an astonishing variety of very different liquid crystalline (LC) phases was observed, ranging from a rectangular (Colrec/c2mm) and a square honeycomb (Colsqu/p4mm) via a highly complex zeolite-like octagon/pentagon honeycomb filled with additional strings of rod-bundles (Colrec/c2mm), a new 3D-hexagonal (R3;-c) double network phase, a double and even a single network cubic phase (double gyroid Cub/Ia3;-d and single diamond Cub/Fd3;-m, respectively) to a correlated lamellar phase (LamSm/c2mm). Though these LC structures are highly complex and there is a delicate balance of steric and geometric frustration determining the phase formation, there is only a small effect of permanent molecular chirality in the glycerol groups ((R,R)-configuration) on them, which is attributed to a slightly different packing density of uniformly chiral and racemic glycerols, but not to an effect of induced helicity. Compared to related T-shaped bolapolyphiles with a single linear n-alkyl side-chain, which form exclusively honeycomb phases, the complexity of self-assembly is enhanced for the K-shaped compounds due to a competition between the requirements of space filling, chain stretching and geometric frustration, and affected by the shape of the polar glycerol domains at the junctions.

Topics & Concepts

Chirality (physics)TerphenylReticular connective tissueRodMaterials scienceSide chainChain (unit)NanotechnologyCrystallographyChemistryComposite materialOrganic chemistryPhysicsAnatomyMedicinePathologyChiral symmetry breakingPolymerAstronomyQuarkAlternative medicineNambu–Jona-Lasinio modelQuantum mechanicsLiquid Crystal Research AdvancementsSupramolecular Self-Assembly in MaterialsPhotochromic and Fluorescence Chemistry
Reticular liquid crystal design: Controlling complex self-assembly of p-terphenyl rods by side-chain engineering and chirality | Litcius