摘要:
An anode panel for a Field Emission Device (FED) includes a substrate, an anode electrode arranged on a lower surface of the substrate, a black matrix arranged on a lower surface of the anode electrode and having a plurality of openings with respect to one pixel, phosphor layers having predetermined colors to cover the plurality of openings corresponding to each pixel and the black matrix between the plurality of openings, and a reflection layer arranged on lower surfaces of the phosphor layers.
摘要:
A method of manufacturing a field emission display includes: sequentially forming a cathode electrode, an insulating layer, and a gate material layer on a substrate; forming a metal sacrificial layer on an upper surface of the gate material layer; forming a through hole to expose the insulating layer in the metal sacrificial layer and the gate material layer; forming an emitter hole to expose the cathode electrode in the insulating layer exposed through the through hole; forming a gate electrode by etching the gate material layer constituting an upper wall of the emitter hole; and forming an emitter of Carbon NanoTubes (CNTs) on an upper surface of the cathode electrode located below the through hole.
摘要:
A method of manufacturing a field emission display includes: sequentially forming a cathode electrode, an insulating layer, and a gate material layer on a substrate; forming a metal sacrificial layer on an upper surface of the gate material layer; forming a through hole to expose the insulating layer in the metal sacrificial layer and the gate material layer; forming an emitter hole to expose the cathode electrode in the insulating layer exposed through the through hole; forming a gate electrode by etching the gate material layer constituting an upper wall of the emitter hole; and forming an emitter of Carbon NanoTubes (CNTs) on an upper surface of the cathode electrode located below the through hole.
摘要:
An illuminating device includes: an upper substrate and a lower substrate facing each other and spaced apart from each other; an anode electrode arranged on a lower surface of the upper substrate; a phosphor layer arranged on a lower surface of the anode electrode; a cathode electrode arranged on an upper surface of the lower substrate; an electron emission source arranged on the cathode electrode; and a reflection film arranged between the electron emission source and the phosphor layer and respectively separated therefrom, the reflection film being patterned on a surface facing the phosphor layer to diffuse light emitted from the phosphor layer. The illuminating device provides improved brightness uniformity by forming a pattern on the reflection film so that light can be uniformly diffused or dispersed.
摘要:
A method of manufacturing an upper panel of a field emission type backlight unit. The method includes: sequentially forming an anode electrode and a phosphor layer on a substrate; forming a metal reflection film on the phosphor layer; and annealing a surface of the metal reflection film. The method can increase brightness of an image, can prevent occurrence of an electric arc when a high driving voltage is applied to the backlight unit, and allows removal of residues produced when manufacturing the backlight unit.
摘要:
An electroluminescent device uses nano structures having a wide surface area. The electroluminescent device includes a substrate, a first electrode having a plurality of nano structures formed on an upper surface of the substrate, a dielectric layer formed so as to correspond to the shape of the nano structures, a light emitting layer formed so as to correspond to the shape of the dielectric layer, and a second electrode covering the light emitting layer. A surface of the second electrode facing the light emitting layer is separated by a predetermined distance from a surface of the nano structures.
摘要:
A field emission type backlight unit and a method of manufacturing the same. The field emission type backlight unit includes a lower substrate, a plurality of cathode electrodes formed on the lower substrate, a plurality of insulating layers formed in a line shape on the lower substrate and the cathode electrodes, a plurality of gate electrodes formed on the insulating layers, and at least one emitter formed of an electron emission material on each cathode electrode between the insulating layers.
摘要:
A method of manufacturing a phosphor layer structure including an improved process of forming a phosphor layer between barriers on an anode substrate includes: forming a substrate to have inner spaces divided by barriers; forming a sacrificial layer on the barriers and the inner spaces to planarize an upper surface of the substrate; forming a phosphor layer on the sacrificial layer; and removing the sacrificial layer, the phosphor layer remaining in the inner spaces previously occupied by the sacrificial layer.
摘要:
A method for forming a carbon nanotube emitter by coating a photoresist on a substrate having an electrode already formed thereon, followed by patterning to form a photoresist dot on the electrode. The substrate is covered with a carbon nanotube paste that covers the photoresist dot. The carbon nanotube emitter is formed on the electrode by interdiffusion between the photoresist dot and the carbon nanotube paste through drying, and the carbon nanotube paste covering the carbon nanotube emitter is then removed.
摘要:
A method of forming carbon nanotube emitters and a method of manufacturing an FED using such carbon nanotube emitters includes: forming a carbon nanotube layer on a substrate on which a plurality of electrodes are formed, coating a photoresist on the carbon nanotube layer, patterning the photoresist such that the photoresist only remains above the electrodes, removing an exposed portion of the carbon nanotube layer by etching using the patterned photoresist as a etch mask, and removing the photoresist pattern and forming the carbon nanotube emitters on the electrodes.