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Abstract
The results of optical microscopy, DSC, X‐ray diffraction and optical birefringence studies on four nematogenic difluorobenzene derivatives are presented. The thermal stability of the compounds increases substantially as greater flexibility is introduced into the core structure. Average intermolecular distances, obtained from X‐ray data, are found to increase when a comparatively rigid planar phenyl ring is substituted by a flexible non‐planar cyclohexyl ring in the core structure. From the values of apparent molecular lengths in the nematic phase, a short range antiferroelectric type of association is found to exist between neighbouring molecules. Density values suggest that the molecular packing is less efficient with increasing flexibility either in chain‐ or in core‐structure. All the refractive indices exhibit normal dispersive behaviour, and a positive optical anisotropy is observed in all the compounds which decreases quickly with temperature. Temperature dependences of orientational order parameters, determined from both X‐ray and optical birefringence studies, are presented. Variations of different physical properties with order parameters are discussed.
Acknowledgements
This work was supported by Indo‐German Joint Research Project No. IND 00/007. The authors thank Dr Eike Poetsch, Merck, Germany for supplying the materials. S.B. thanks NBU for providing a research fellowship.