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Monodomain Alignment Of The Smectic-A Liquid Crystalline Phase From The Isotropic Phase, Mitya Reznikov, Bentley Wall, Mark A. Handschy, Philip J. Bos
Monodomain Alignment Of The Smectic-A Liquid Crystalline Phase From The Isotropic Phase, Mitya Reznikov, Bentley Wall, Mark A. Handschy, Philip J. Bos
Philip J. Bos
The liquid crystal alignment method described here provides uniform orientation of otherwise difficult-to-align smectic-A liquid crystal materials lacking a nematic phase. The smectic-A phase is grown in the presence of a 10–20 K/mm temperature gradient from an air bubble located within a cell by a photolithographically defined channel in the cell substrates. We obtain uniform layer alignment in millimeter-wide smectic regions at growth rates below about 0.05 μm/s even though there is a tendency for spontaneous nucleation of focal-conic defects at higher growth rates once the width of the smectic-A region exceeds the critical value of about 20 μm.
The Effect Of Salt On Ion Adsorption On A Siox Alignment Film And Reduced Conductivity Of A Liquid Crystal Host, Yi Huang, Achintya Bhowmik, Philip J. Bos
The Effect Of Salt On Ion Adsorption On A Siox Alignment Film And Reduced Conductivity Of A Liquid Crystal Host, Yi Huang, Achintya Bhowmik, Philip J. Bos
Philip J. Bos
It is shown that the addition of salt to liquid crystal cells, using a SiOx alignment layer, can actually reduce the ion concentration. This seeming contradiction may be explained by the ability of salt to complex with water and to aid the drying of the liquid crystal material. The results show a pathway to purifying liquid crystal devices to the extent needed for low-power low-refresh rate displays for e-book applications.