Add to ORKGPolymer effect on the electro-optic properties of blue phase liquid crystal (BPLC) composites is investigated. A higher polymer concentration gives a more stable structure and faster response time, but its operating voltage is also higher. Monomer ratio also affects the stability of the polymer-stabilized BPLC. However, hysteresis is not affected by polymer concentration but mainly determined by the host liquid crystal and chiral dopants
Diluter effects on the phase transition temperatures, Debye relaxation frequency, and electro-optics...
Polymer stabilised blue phase liquid crystals (PSBPLCs) have been investigated for photonics and dis...
Electrode dimension effects on the electro-optic properties of a polymer-stabilized blue-phase liqui...
Polymer effect on the electro-optic properties of blue phase liquid crystal (BPLC) composites is inv...
Polymer effect on the electro-optic properties of blue phase liquid crystal (BPLC) composites is inv...
Effect of polymer concentration and composition on the electro-optic properties of blue phase liquid...
Abstract—Effect of polymer concentration and composition on the electro-optic properties of blue pha...
Polymer-stabilized blue-phase liquid crystals (PS-BPLCs) possess several attractive features, such a...
Polymer-stabilized blue phase liquid crystals (PS-BPLC) have become an increasingly important techno...
Polymer-stabilized blue phase liquid crystals (PS-BPLC) have become an increasingly important techno...
Our experimental results indicate that UV curing conditions dramatically affect the electro-optic pe...
A figure of merit (FoM), defined as the ratio of Kerr constant to response time, is used to characte...
Diluter effects on the phase transition temperatures, Debye relaxation frequency, and electro-optics...
A figure of merit (FoM), defined as the ratio of Kerr constant to response time, is used to characte...
Electrode dimension effects on the electro-optic properties of a polymer-stabilized blue-phase liqui...
Diluter effects on the phase transition temperatures, Debye relaxation frequency, and electro-optics...
Polymer stabilised blue phase liquid crystals (PSBPLCs) have been investigated for photonics and dis...
Electrode dimension effects on the electro-optic properties of a polymer-stabilized blue-phase liqui...
Polymer effect on the electro-optic properties of blue phase liquid crystal (BPLC) composites is inv...
Polymer effect on the electro-optic properties of blue phase liquid crystal (BPLC) composites is inv...
Effect of polymer concentration and composition on the electro-optic properties of blue phase liquid...
Abstract—Effect of polymer concentration and composition on the electro-optic properties of blue pha...
Polymer-stabilized blue-phase liquid crystals (PS-BPLCs) possess several attractive features, such a...
Polymer-stabilized blue phase liquid crystals (PS-BPLC) have become an increasingly important techno...
Polymer-stabilized blue phase liquid crystals (PS-BPLC) have become an increasingly important techno...
Our experimental results indicate that UV curing conditions dramatically affect the electro-optic pe...
A figure of merit (FoM), defined as the ratio of Kerr constant to response time, is used to characte...
Diluter effects on the phase transition temperatures, Debye relaxation frequency, and electro-optics...
A figure of merit (FoM), defined as the ratio of Kerr constant to response time, is used to characte...
Electrode dimension effects on the electro-optic properties of a polymer-stabilized blue-phase liqui...
Diluter effects on the phase transition temperatures, Debye relaxation frequency, and electro-optics...
Polymer stabilised blue phase liquid crystals (PSBPLCs) have been investigated for photonics and dis...
Electrode dimension effects on the electro-optic properties of a polymer-stabilized blue-phase liqui...