We report on the development of a dilute suspension of ferroelectric particles in a nematic liquid-crystal(LC) host. We found that the submicron particles do not disturb the LC alignment and the suspension macroscopically appears similar to a pure LC with no readily apparent evidence of dissolved particles. The suspension possesses enhanced dielectricanisotropy, and is sensitive to the sign of an applied electric field.</p
Molecules of a nematic liquid crystal respond to an applied magnetic field by reorienting themselves...
The still undiscovered fluid ferroelectric nematic phase is expected to exhibit a much faster and e...
Doping liquid crystals with nanoparticles is a widely accepted method to enhance liquid crystal’s in...
We construct a theoretical model of the dielectric properties of a ferroelectric LC nanosuspension (...
A key liquid crystalline property for electro-optic applications is the Frederiks threshold electric...
We investigate the dielectric and polarization properties of a suspension of low concentration ferro...
A large number of interesting phenomena related to the insertion of colloidal particles in liquid cr...
We report on the first, to the best of our knowledge, studies of photorefraction in nematic liquid c...
Recent experiments have reported that ferroelectric nanoparticles have drastic effects on nematic li...
We investigated the physical properties of low concentration ferroelectric nematic colloids, using c...
Recent experiments have reported that ferroelectric nanoparticles have drastic effects on nematic li...
The present paper discusses some properties of small, elongated particles suspended in a nematic or ...
The dispersion of ferroelectric nanomaterials in liquid crystals has recently emerged as a promising...
Very dilute suspensions of BaTio3 nanoparticles in liquid crystals seem to have remarkable effect on...
Liquid crystals, due to their large dielectric anisotropy, respond very sensitively to application o...
Molecules of a nematic liquid crystal respond to an applied magnetic field by reorienting themselves...
The still undiscovered fluid ferroelectric nematic phase is expected to exhibit a much faster and e...
Doping liquid crystals with nanoparticles is a widely accepted method to enhance liquid crystal’s in...
We construct a theoretical model of the dielectric properties of a ferroelectric LC nanosuspension (...
A key liquid crystalline property for electro-optic applications is the Frederiks threshold electric...
We investigate the dielectric and polarization properties of a suspension of low concentration ferro...
A large number of interesting phenomena related to the insertion of colloidal particles in liquid cr...
We report on the first, to the best of our knowledge, studies of photorefraction in nematic liquid c...
Recent experiments have reported that ferroelectric nanoparticles have drastic effects on nematic li...
We investigated the physical properties of low concentration ferroelectric nematic colloids, using c...
Recent experiments have reported that ferroelectric nanoparticles have drastic effects on nematic li...
The present paper discusses some properties of small, elongated particles suspended in a nematic or ...
The dispersion of ferroelectric nanomaterials in liquid crystals has recently emerged as a promising...
Very dilute suspensions of BaTio3 nanoparticles in liquid crystals seem to have remarkable effect on...
Liquid crystals, due to their large dielectric anisotropy, respond very sensitively to application o...
Molecules of a nematic liquid crystal respond to an applied magnetic field by reorienting themselves...
The still undiscovered fluid ferroelectric nematic phase is expected to exhibit a much faster and e...
Doping liquid crystals with nanoparticles is a widely accepted method to enhance liquid crystal’s in...