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P. RICHARDSON, J. CRAIN, Department of Physics and Astronomy; A. C. JONES, Department of Chemistry, University of Edinburgh, Edinburgh, EH9 3JJ, UK.
We use laser-desorption supersonic jet spectroscopy in conjunction with novel density functional computer simulation to investigate the conformational behaviour of 4-cyanobiphenyl and its 4'-alkyl substituted derivatives. 4-pentyl-4'-cyanobiphenyl(5CB) is considered to be the prototypical nematic liquid crystalline molecule, 4-cyanobiphenyl(0CB) and the shorter chain 4-alkyl-4'-cyanobiphenyls(1-4CB) constitute mesogenic fragments of 5CB. The aim of studying these molecules is to explore the relationship between molecular structure and flexibility and liquid crystalline properties.
Density functional ab initio computer simulations are being carried out [1] to predict the conformational energy landscapes of 5CB and related molecules. These calculations predict the behaviour of isolated molecules, but the available experimental data is generally concerned with the condensed phase . The supersonic jet technique provides a unique route to the observation and spectroscopic characterisation of isolated molecular conformers, and thus to experimental data with which to definatively test the validity of the density functional calculations.
1. S.J. Clark, C.J. Adam, D.J. Cleaver and J. Crain, Liquid Crystals, 1997, 22, 477.