Magnetic Field Assisted Liquid Crystal Alignment: Anchoring Energy and Angular Distribution of the Adsorbed Liquid Crystal Molecules
Magnetic field-assisted liquid crystal alignment, solid substrate, drift, easy orientation axis, anchoring energy, angular distribution, adsorbed liquid crystal molecules
The anchoring properties of a film of anisotropically adsorbed liquid crystal (LC) molecules on a rigid substrate have been studied. The LC film was prepared by cooling it from the isotropic phase in the presence of a magnetic field parallel to the surface of the substrate. Relationship between the anchoring energy, easy axis direction and angular distribution of the adsorbed molecules, and changes in their angular distribution due to adsorption–desorption, were studied. The dependence of the anchoring energy on the duration and the temperature at which the LC film is annealed allowed an estimation of the activation energy of desorption of LC molecules on ITO surface, ∆E≈0.55 eV. The results suggest that hydrogen bonds are responsible for the adsorption of LC molecules on the substrate.
Guo, R.; Slyusarenko, K.; Resnikov, Y.; and Kumar, Satyendra (2007). Magnetic Field Assisted Liquid Crystal Alignment: Anchoring Energy and Angular Distribution of the Adsorbed Liquid Crystal Molecules. Liquid Crystals 34, 955-961. doi: 10.1080/02678290701478319 Retrieved from https://digitalcommons.kent.edu/phypubs/118