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Orientational transitions of discotic columnar liquid crystals in cylindrical pores.

Rui-Bin ZhangMarco A GrunwaldXiang-Bing ZengSabine LaschatAndrew N CammidgeGoran Ungar
Published in: Soft matter (2024)
Confined in a cylindrical pore with homeotropic anchoring condition, the hexagonal columnar phase of discotic liquid crystals can form a "log-pile" configuration, in which the columns are perpendicular to the long axis of the pore. However, the {100} planes of the hexagonal lattice can orient either parallel (termed (100) ‖ orientation) or perpendicular ((100) ⊥ ) to pore axis. Here we experimentally show that the (100) ‖ orientation is found in narrower cylindrical pores, and the (100) ‖ -(100) ⊥ transition can be controlled by engineering the structure of the molecules. The (100) ‖ orientation is destroyed in asymmetric discotics hepta(heptenyloxy)triphenylene (SATO7); replacing the oxygen linkage in hexa(hexyloxy)triphenylene (HATO6) by sulphur (HATS6) improves the (100) ‖ orientation in small pores; adding a perfluorooctyl end to each alkyl chain of HATO6 (HATO6F8) moves the (100) ‖ -(100) ⊥ transition to larger pores. We have provided a semi-quantitative explanation of the experimental observations, and discussed them in the context of previous findings on related materials in a wider pore size range from 60 nm to 100 μm. This allows us to produce a comprehensive picture of confined columnar liquid crystals whose applications critically depend on our ability to align them.
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