Add to ORKGIn-situ photopolymerization of polyfunctional liquid-crystalline monomers leads to anisotropic networks with a well-controlled and stable molecular organization. By polymerizing chiral monomers cholesteric networks are formed. The pitch of the molecular helix in these networks can be controlled between 180 nm and infinity. By a special process making use of photo-induced diffusion during the polymerization process, cholesteric networks are made with a pitch that varies gradually over the thickness of the film. These films may be optimized on reflection of circularly polarized light over the entire visible spectrum. The films are highly useful as non-absorbing polarizers for power-efficient liquid crystal displays
Monolithically ordered liquid crystal polymer networks are formed by the photoinitiated polymerizati...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Control over molecular motion is facilitated in materials with highly ordered nanoscale structures. ...
In-situ photopolymerization of polyfunctional liquid-crystalline monomers leads to anisotropic netwo...
In-situ photopolymerization of polyfunctional liquid-crystalline monomers leads to anisotropic netwo...
In-situ photopolymerization of polyfunctional liquid-crystalline monomers leads to anisotropic netwo...
Photopolymerization of liquid-crystalline [LC] monomers produces polymer films with a spatial contro...
Photopolymerization of liquid-crystalline [LC] monomers produces polymer films with a spatial contro...
Photopolymerization of liquid-crystalline [LC] monomers produces polymer films with a spatial contro...
Diffusion enforced photo-assembling during polymerization of a chiralnematic monomer blend yields a...
Diffusion enforced photo-assembling during polymerization of a chiralnematic monomer blend yields a...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Monolithically ordered liquid crystal polymer networks are formed by the photoinitiated polymerizati...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Control over molecular motion is facilitated in materials with highly ordered nanoscale structures. ...
In-situ photopolymerization of polyfunctional liquid-crystalline monomers leads to anisotropic netwo...
In-situ photopolymerization of polyfunctional liquid-crystalline monomers leads to anisotropic netwo...
In-situ photopolymerization of polyfunctional liquid-crystalline monomers leads to anisotropic netwo...
Photopolymerization of liquid-crystalline [LC] monomers produces polymer films with a spatial contro...
Photopolymerization of liquid-crystalline [LC] monomers produces polymer films with a spatial contro...
Photopolymerization of liquid-crystalline [LC] monomers produces polymer films with a spatial contro...
Diffusion enforced photo-assembling during polymerization of a chiralnematic monomer blend yields a...
Diffusion enforced photo-assembling during polymerization of a chiralnematic monomer blend yields a...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Monolithically ordered liquid crystal polymer networks are formed by the photoinitiated polymerizati...
Polymers with a controlledmolecular organization in all three dimensions are of interest because of ...
Control over molecular motion is facilitated in materials with highly ordered nanoscale structures. ...