LIGHT POLYMERS HOLDING Patent applications |
Patent application number | Title | Published |
20150123911 | INDEX MATCHING AND TOUCH PANEL IMPROVEMENTS IN DISPLAY DEVICES - Provided are multilayered touch panel stacks and methods for forming thereof. The stacks include refractive index matching layers to minimize light losses. Specifically, the stacks may comprise a substrate, one, two, three, or four refractive index matching layers deposited on the substrate, and one or two transparent conductive layers such as indium tin oxide electrode layers. The stack may be attached to a light emitting element or be a part of an LCD or OLED displays. The refractive index matching interlayers may be based on a polymer solution having about 0.1%-30% by weight of specific rigid rod-like polymer molecules. The molecules may include various cores, spacers, and side groups to ensure their solubility, viscosity, and cross-linking ability. The refractive index matching interlayer may have a refractive index in between of about 1.60-1.80. | 05-07-2015 |
20150086799 | ORGANIC POLYMER COMPOUNDS SUITABLE FOR FORMING POSITIVE A-TYPE RETARDERS AND METHODS OF PRODUCTION THEREOF - An organic polymer solution may include about 0.1%-30% by weight of a specific polymer having rigid rod-like molecules. These molecules may include various cores, spacers, and sides groups to ensure their solubility, viscosity, and cross-linking ability. The rigid rod-like molecules are selected in such a way that they form self-assembling structures in the polymer solution, which makes it a lyotropic liquid crystal. The organic polymer solution, when properly deposited on a substrate and dried to remove solvents, forms a solid optical retardation layer of positive A-type substantially transparent to electromagnetic radiation in the visible spectral range. | 03-26-2015 |
20140322452 | DEPOSITING POLYMER SOLUTIONS TO FORM OPTICAL DEVICES - Provided are methods of depositing polymer solutions on substrates to form various optical elements. A polymer solution may include about 0.1%-0% by weight of a specific polymer having rigid rod-like molecules. The molecules may include various cores, spacers, and sides groups to ensure their solubility, viscosity, and cross-linking ability. The deposition techniques may include slot die, spray, molding, roll coating, and so forth. Pre-deposition techniques may be used to improve wettability and adhesion of substrates. Post-deposition techniques may include ultraviolet cross-linking, specific drying techniques, evaporation of solvent, treating with salt solutions, and shaping. The disclosed polymers and deposition processes may yield optical elements with high refractive index values, such as greater than 1.6. These optical elements may be used as +A plates, −C plates, or biaxial polymers and used as retarders in LCD active panels or as light collimators and light guides. | 10-30-2014 |
20140133177 | LCD BACKLIGHT COMPONENT COATINGS FOR REDUCING LIGHT LOSSES AND IMPROVING IN-STACK LIGHT COLLIMATION - Provided are multilayer stacks for backlight units in LCD panels and methods for forming thereof. The stacks include refractive index matching layers and pressure sensitive adhesives to minimize light losses. More particularly, the stacks comprise a reflector, a light guide, a course diffuser, one or more brightness enhancing films, and a fine diffuser. A refractive index matching layer is deposited onto at least one surface of the backlight components. A pressure sensitive adhesive is deposited onto the refractive index matching layers. Alternatively, the stacks comprise two or more refractive index matching layers on each surface of the backlight components and retain an air gap between the backlight components. The refractive index matching interlayers are based on a polymer solution having about 0.1%-30% by weight of specific rigid rod-like polymer molecules. The molecules may include various cores, spacers, and sides groups to ensure their solubility, viscosity, and cross-linking ability. | 05-15-2014 |