Your search keyword '"Williams, Vance E."' showing total 3 results

1. Exploiting molecular symmetry reduction to enrich liquid crystal phase diversity.

Author

Ester, David F. and Williams, Vance E.

Subjects

*LIQUID crystal states, *PHASE transitions, *MOLECULAR symmetries, *SMECTIC liquid crystals, *NEMATIC liquid crystals, *MOLECULAR self-assembly, *NAPHTHALENE derivatives, *MELTING points

Abstract

The strategic tuning of liquid crystalline phase behaviour by adjusting molecular symmetry was investigated. A family of sixteen symmetrical and unsymmetrical 2,6-di(4ʹ-n-alkoxybenzoyloxy) naphthalene derivatives were prepared and their liquid crystal properties examined by differential scanning calorimetry, polarised optical microscopy, and x-ray diffraction. All mesogens formed nematic phases, with longer-chain analogues also exhibiting smectic C phases at lower temperatures. Melting temperatures of the compounds strongly depend on molecular symmetry, whereas clearing transitions are relatively insensitive to this effect. A detailed analysis indicates that the clearing point can be predicted based on the nature of the terminal alkyl chains, with only a secondary effect from molecular symmetry. Moreover, low symmetry molecules showed a greater tendency to form smectic C phases, which was ascribed to the selective depression of the melting point versus the SmC-N transition. This demonstrates that molecular symmetry-breaking is a valuable tool both for tuning liquid crystalline phase range and for increasing a material's polymorphism. [ABSTRACT FROM AUTHOR]

Published

2019

2. Molecular symmetry effects on the stability of highly ordered smectic phases.

Author

Ester, David F. and Williams, Vance E.

Subjects

*SMECTIC liquid crystals, *LIQUID crystals, *CRYSTAL symmetry, *PHASE transitions, *DIFFERENTIAL scanning calorimetry

Abstract

In an effort to control the phase ranges of highly ordered smectic phases, we examined the impact of molecular symmetry on phase behaviour of a series of 12 symmetrical and unsymmetrical 4,4′-dialkanoyloxybiphenyl derivatives. Combined differential scanning calorimetry, polarised optical microscopy, and X-ray diffraction studies indicated that the compounds studied formed smectic F liquid crystals, and in some cases, G phases at lower temperatures. Although the clearing temperatures were largely unaffected by molecular symmetry, the transitions from the SmF liquid crystals to more ordered phases were consistently lowered upon reducing the molecular symmetry. As a result, unsymmetrical molecules had broader mesophases than their higher symmetry isomers, suggesting a strategy for tuning the phase behaviour of these highly ordered lamellar phases, which have been widely targeted for organic semiconductors. [ABSTRACT FROM AUTHOR]

Published

2019

3. Synthesis and comparison of mesomorphic behaviour of a cholesterol-based liquid crystal dimer and analogous monomers.

Author

Champagne, Pier-Luc, Ester, David, Aldosari, Salem, Williams, Vance E., and Chang-Chun Ling

Subjects

MESOPHASES, CHOLESTEROL, LIQUID crystals, DIMERS, MONOMERS, CHEMICAL synthesis, POLYMERIZATION

Abstract

Oligo/polymerisation of known mesogens constitutes a highly efficient strategy in liquid crystal research due to its potential to generate novel liquid crystal materials with intriguing mesomorphic properties. Here we report the synthesis and comparative studies of a synthetic liquid crystal dimer and two of its monomer analogues. By incorporating cholesterol as the mesogenic group, we designed a flexible scaffold consisting of a hybrid of non-polar hydrophobic chain and polar tetraethylene glycol appended to the cholesteryl mesogens. Detailed studies showed that the two classes of mesogens exhibit the same type of liquid crystal phases with similar dimensions but their transition temperatures varied which can be effectively rationalised by the particular chemical functionalities present in each class of materials. [ABSTRACT FROM AUTHOR]

Published

2018