Add to ORKGWe have carried out a numerical study of the structural, thermodynamic, and anchoring properties of organic liquid crystal (LC) films (OLCFs) deposited in vacuo on a solid surface. Calculations have been carried out in the framework of the extended McMillan approach for anisotropic forces. The effects of surface enhanced pair interactions in the bounding LC/solid and LC/vacuum layers and of film thickness on the orientational and translational order parameters, as well as on Helmholtz free energy, entropy, and anchoring energy of OLCFs have been investigated. A reasonable agreement between the theoretically predicted and the experimentally obtained data on the anchoring energy of 4-n-octyl-40-cyanobiphenyl films has been obtained
We demonstrate that it is possible to achieve exceptionally fine control over the anchoring of liqui...
The response of a cholesteric liquid crystal film to mechanical confinement is theoretically investi...
We demonstrate that it is possible to achieve exceptionally fine control over the anchoring of liqui...
We have carried out a numerical study of the structural, thermodynamic, and anchoring properties of ...
No theory of the polar and azimuthal anchoring energies of liquid crystals (LCs) has been developed ...
The anchoring properties of a film of anisotropically adsorbed liquid crystal (LC) molecules on a ri...
none6noWe employ atomistic molecular dynamics simulations to predict the alignment and anchoring str...
To a first approximation one may predict the orientation of the director of a thin film of nematic l...
For a cell configuration consisting of a thin nematic layer bounded by two parallel plane surfaces, ...
The interaction energy between mesogenic molecules (diphenyl, pentylbiphenyl and 4-n-octyl-4′-cyaneb...
The anchoring energy of a nematic liquid crystal can be evaluated from measurements of the tilt angl...
We have generalised earlier work on anchoring of nematic liquid crystals by Sullivan, and Sluckin an...
Anchoring, i.e. the orientation and ordering of organic molecules at a surface and its persistence a...
Measurements of the force as a function of distance between two solids separated by a liquid crystal...
The fundamental understanding of nematic liquid crystal (NLC) alignment on solid surfaces is signifi...
We demonstrate that it is possible to achieve exceptionally fine control over the anchoring of liqui...
The response of a cholesteric liquid crystal film to mechanical confinement is theoretically investi...
We demonstrate that it is possible to achieve exceptionally fine control over the anchoring of liqui...
We have carried out a numerical study of the structural, thermodynamic, and anchoring properties of ...
No theory of the polar and azimuthal anchoring energies of liquid crystals (LCs) has been developed ...
The anchoring properties of a film of anisotropically adsorbed liquid crystal (LC) molecules on a ri...
none6noWe employ atomistic molecular dynamics simulations to predict the alignment and anchoring str...
To a first approximation one may predict the orientation of the director of a thin film of nematic l...
For a cell configuration consisting of a thin nematic layer bounded by two parallel plane surfaces, ...
The interaction energy between mesogenic molecules (diphenyl, pentylbiphenyl and 4-n-octyl-4′-cyaneb...
The anchoring energy of a nematic liquid crystal can be evaluated from measurements of the tilt angl...
We have generalised earlier work on anchoring of nematic liquid crystals by Sullivan, and Sluckin an...
Anchoring, i.e. the orientation and ordering of organic molecules at a surface and its persistence a...
Measurements of the force as a function of distance between two solids separated by a liquid crystal...
The fundamental understanding of nematic liquid crystal (NLC) alignment on solid surfaces is signifi...
We demonstrate that it is possible to achieve exceptionally fine control over the anchoring of liqui...
The response of a cholesteric liquid crystal film to mechanical confinement is theoretically investi...
We demonstrate that it is possible to achieve exceptionally fine control over the anchoring of liqui...