Abstract
In order to stabilize the anisotropic properties of films made from discotic liquid crystals (DLCs), we applied the “in-situ photopolymerization” process to reactive DLCs. We synthesized triphenylene benzoate derivatives with 1 to 6 acrylate end groups and studied the influence of the number of acrylates on their discotic nematic (ND) phase and on their photo-initiated polymerization behavior. The discotic acrylates align spontaneously between substrates in the ND phase, leading to thin films with a negative birefringence. We used the Haller extrapolation method to evaluate the order parameter of these materials. Oriented thin films of monomer were then “frozen in” using photo-initiated polymerization. We studied the optical properties of the resulting polymer films and in particular the dependence of the birefringence on the polymerization temperature. X-ray diffraction analyses of polymer films made from the diacrylate show a decrease of order with higher polymerization temperatures.
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