چكيده لاتين :
Synthesis and characterization of new liquid crystalline poly(N-substituted urethane)
s using 4-bromo-(4-hexyloxy-biphenyl-4י-oxy)butane (C6-C4Br) as mesogenic
pendant group is described. The liquid crystalline polyurethanes were synthesized through N-substitution by a two-step process. First the polymer was dehydrogenated
by sodium hydride, and then the prepared urethane polyanion was treated
with C6-C4Br. The chemical structures were characterized by FTIR, 1H NMR, and elemental analysis. The solubility and thermal properties of N-substituted polyurethanes were investigated in view of the N-substitution degree of mesogenic unit. Thermogravimetric analysis (TGA) and differential scanning calorimetric (DSC) in combination with polartzinq optical microscopy (POM) were used to investigate the thermal properties of N-substituted polyurethane. As the degree of N-substitution increased, the solubility of polyurethane decreased in common organic solvents, and thermal stability increased from 285°C to 370°C because of different thermal-degradation
mechanisms of parent and N-substituted polyurethanes. The glass-transition temperature
(Tg) was shifted to higher temperature with an increasing degree of substitution
due to the increasing rigidity of polymer chains. Optical microscopy showed focal conic texture characteristic of the smectic A phase for both C6-C4Br and N-substituted
polyurethanes. DSC Experiments were also found in accordance with mesophase formation. The liquid crystalline properties were strongly dependent on the N-substitution
degree with increasing mesogen content from 25 to 100%, the mesophase-transition
and isotropization temperature increased. The minimum 25% amount of mesogen
is necessary to exhibit a liquid crystal property in the polymer.
