Optimizing polarization efficiency of optically anisotropic films cast from lyotropic chromonic liquid crystals on surface-modified triacetyl cellulose films

Abstract

Abstract Optically anisotropic films by shear coating of a lyotropic chromonic liquid crystal (LCLC) aqueous solution were developed on a triacetyl cellulose (TAC) film instead of a glass substrate. The TAC film surface was treated using a sodium hydroxide (NaOH) solution to increase its surface energy for wetting ability. Although the desired surface energy, which is competitive with glass, was achieved, the TAC film surface became rougher during NaOH hydrolysis, which aggravated the alignment of LCLC aggregates, especially for those with a small length-to-width ratio. To alleviate the surface roughness without compensating the surface energy, further treatment of the NaOH-hydrolyzed TAC film was performed using atmospheric pressure Ar/O2 plasma. After optimization of the treatment conditions, the combined method could enhance the polarization efficiency (Peff) of the anisotropic film on the TAC substrate from 91.2% to 95.9%, which was nearly equal to that on a glass substrate.