Class / Patent application number | Description | Number of patent applications / Date published |
427068000 | Multicolor or mosaic (e.g., color T.V. tube, etc.) | 6 |
20080317944 | Protecting layer, composite for forming the same, method of forming the protecting layer, plasma display panel comprising the protecting layer - A protecting layer is formed of a magnesium oxide and at least one additional component selected from the group consisting of a copper component selected from copper and a copper oxide, a nickel component selected from nickel and a nickel oxide, a cobalt component selected from cobalt and a cobalt oxide, and an iron component selected from iron and an iron oxide; a composite for forming the protecting layer; a method of forming the protecting layer; and a plasma display panel including the protecting layer. The protecting layer, which is used in a PDP, protects an electrode and a dielectric layer from a plasma ion generated by a gaseous mixture of Ne and Xe, or He, Ne, and Xe, and discharge delay time and dependency of the discharge delay time on temperature can be decreased and sputtering resistance can be increased. | 12-25-2008 |
20090068345 | COMPOSITION FOR FORMING ALIGNMENT FILM, AND METHOD FOR MANUFACTURING LIQUID CRYSTAL DEVICE - A composition for forming an alignment film used during formation of an alignment film with a droplet discharge method includes a solute, a first organic solvent and a second organic solvent. The solute includes an alignment film formation material. The first organic solvent dissolves the solute. The second organic solvent is for controlling surface tension. The first organic solvent includes a solvent having a lowest vapor pressure among all of solvent components in the composition. | 03-12-2009 |
20100310760 | Static and Addressable Emissive Displays - The various embodiments of the invention provide an addressable or a static emissive display comprising a plurality of layers, including a first substrate layer, wherein each succeeding layer is formed by printing or coating the layer over preceding layers. Exemplary substrates include paper, plastic, rubber, fabric, glass, ceramic, or any other insulator or semiconductor. In an exemplary embodiment, the display includes a first conductive layer attached to the substrate and forming a first plurality of conductors; various dielectric layers; an emissive layer; a second, transmissive conductive layer forming a second plurality of conductors; a third conductive layer included in the second plurality of conductors and having a comparatively lower impedance; and optional color and masking layers. Pixels are defined by the corresponding display regions between the first and second plurality of conductors. Various embodiments are addressable, have a substantially flat form factor with a thickness of 1-3 mm, and are also scalable virtually limitlessly, from the size of a mobile telephone display to that of a billboard. | 12-09-2010 |
20100316790 | Method of Manufacturing Multi-Touch Liquid Crystal Display Panel - A method of manufacturing a multi-touch LCD panel. A conductive colloidal mixture formed by mixing a plurality of conductive particles and a colloid is coated on the electrode layer of the counter substrate and is solidified to make the conductive particles electrically connect to the corresponding sensing electrodes of the array substrate. Consequently, when an external force is applied to one touching position on the counter substrate, the conductive particles electrically connect the sensing electrodes to the electrode layer and the touching signal of the position can be obtained. Due to the integration of the conductive particles into the liquid crystal cell gap, the multi-touch LCD panel has the advantages of slimness and lightness. Moreover, the manufacturing process of the conductive particles is introduced after the conventional counter substrate manufacturing method, and the objective of simple process, low cost and high yields can be achieved. | 12-16-2010 |
20110123708 | MANUFACTURING METHOD FOR A LAMINATED BODY - A method for producing a layered article having a layer of particles stacked on a substrate, including the following steps: (1): preparing a mixed particle dispersion liquid by dispersing, in a liquid dispersion medium, inorganic particle chains (A) in a volume fraction of from 0.30 to 0.84, each of the chains being composed of three or more particles with a particle diameter of from 10 to 60 nm attached to each other in a chain form, inorganic particles (B) having an average particle diameter of from 1 to 20 nm in a volume fraction of from 0.10 to 0.45, and particles (C) having an average particle diameter Dc of larger than 20 nm in a volume fraction of from 0.06 to 0.25, (2): applying the mixed particle dispersion liquid onto the substrate, and (3): removing the liquid dispersion medium from the mixed particle dispersion liquid applied, thereby forming, on the substrate, the particle layer having a thickness of D that satisfies 0.5D≦Dc≦D. | 05-26-2011 |
20110183066 | DISPLAY WITH RGB COLOR FILTER ELEMENT SETS - An electronic display containing a light source and a color filter set, the color filter set comprising: a green color filter having a green filter layer comprising a first pigment having its maximum absorption at a wavelength from 600 to 700 nm wherein at least 90 volume percent of the first pigment particles have a particle size less than 300 nm, and a second pigment having its maximum absorption at a wavelength from 400 to 500 nm wherein at least 90 volume percent of the second pigment particles have a particle size less than 300 nm, and wherein the green filter layer has a transmittance of 60% or more at a wavelength of 520 nm and of no more than 10% at a wavelength of 480 nm and of no more than 10% at a wavelength of 590 nm; a blue color filter having a blue filter layer; a red color filter having a red filter layer; and wherein the color gamut defined by the electronic display has a % NTSCx,y ratio greater than 88%. | 07-28-2011 |