Facet dependent electro‐optical properties of liquid crystals doped with Au nanocrystals

Abstract

Doping nanoparticles into liquid crystal (LC) systems can effectively improve the electro-optical (E-O) properties of LCs. The authors introduced three types of (cubic, octahedral, and rhombic dodecahedral) Au nanocrystals (NCs) into a nematic LC 4-cyano-4′-n-pentylbiphenyl (5CB) and investigated the facet-dependent Au NCs in improving the E-O properties of 5CB. The surface energies of Au facets decreased in the order {110}>{100}>{111}. The improvement in the E-O properties of LC is related to the interaction between LC and different exposed crystal planes of dopants. Dodecahedral Au NCs, exposing {110} facets, are the most effective in improving the E-O properties because of their highest surface energy, resulting in a 30.15% reduction of the threshold voltage (Vth) and a 29.08% of the saturation voltage (Vsat) at a doping concentration of 0.4 wt%. The Au NCs trapped impurity particles. The screening effect could be suppressed, and the electric field could be strengthened, resulting in outstanding E-O properties. This work provides a novel way to enhance the E-O properties of LC molecules by doping with noble metal nanomaterials, thus improving their potential applications in energy-saving LC displays.