Macromolecules, Vol.31, No.2, 349-354, 1998
Photoinduced alignment of polymer liquid crystals containing azobenzene moieties in the side chain. 1. Effect of light intensity on alignment behavior
Polydomain films of liquid crystalline polymer (MACB-AB6) with low content (6 mol %) of azobenzene units were prepared and irradiated with linearly polarized light at 366 nm, thus inducing an alignment of the photochromic side groups as well as the nonphotoactive mesogens, the cyanobiphenyl groups. An induced order parameter, S, was obtained from polarized UV and IR spectroscopy, and it increased with increase in temperature at first and then decreased due to phase transition. The effect of light intensity on the alignment behavior has been investigated in detail. Alignment change can take place even for a low intensity (0.7 mW/cm(2)) of irradiation light. Irradiation light at high intensity induced alignment as well as a phase transition at relatively low temperature. A higher saturation order parameter and faster achievement of the order parameter were obtained, since a higher concentration of cis-azobenzene was produced when the film was exposed to polarized light with a higher intensity. This is due to the angular-dependent absorbance of irradiation light by the azobenzene moieties.
Keywords:REVERSIBLE OPTICAL STORAGE;ISOTHERMAL PHASE-TRANSITION;AZO POLYMERS;COOPERATIVE MOTION;FILMS;ANISOTROPY