Smectic A-hexagonal columnar-B7 phase transition of acute-angle bent-core moleculesElectronic supplementary information (ESI) available: Fig. S1. POM micrographs of SmA and B7 phases. Fig. S2. Transmittance spectrum and obtained birefringence of SmA. Synthetic procedure and NMR analysis data. See DOI: 10.1039/c4tc02723j

Acute-angle bent-shaped molecules comprising a 1,7-naphthalene central core, alkylthio terminal chains and long side wings comprising three phenyl rings connected by imine and ester linkages were synthesised. Their distinct mesomorphic properties and phase structures were revealed. Despite their acu...

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Main Authors: Lee, Eun-Woo, Hattori, Masaya, Uehara, Fumiya, Tokita, Masatoshi, Kawauchi, Susumu, Watanabe, Junji, Kang, Sungmin
Format: Article
Language:English
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Summary:Acute-angle bent-shaped molecules comprising a 1,7-naphthalene central core, alkylthio terminal chains and long side wings comprising three phenyl rings connected by imine and ester linkages were synthesised. Their distinct mesomorphic properties and phase structures were revealed. Despite their acute shape, these molecules exhibited a polar switchable hexagonal columnar phase (Col h ), banana B7 phases and calamitic smectic A (SmA) phase, enabling the first observation of SmA-Col h -B7 and Col h -B7 phase transition behaviours. The formation of a hexagonal columnar phase between the layered smectic A and B7 phases supports the proposed Col h phase model in which a tube-like assembly incorporating smectic layers generates hexagonal columns. Molecular packing in the optically uniaxial SmA phase was also discussed in terms of birefringence. Overall, the structural transformation of one-dimensional SmA layers into deformed hexagonal columnar and B7 phases was found to depend on the combined effects of molecular asymmetry, alkylthio terminal tails and the balance between flexible chain lengths and rigid mesogenic units. A distinct structural transformation occurs between a 1D layered SmA phase and 2D layer undulated banana phase via a unique hexagonal columnar phase which may result from different molecular packings as a function of temperature.
ISSN:2050-7526
2050-7534
DOI:10.1039/c4tc02723j