Class / Patent application number | Description | Number of patent applications / Date published |
313509000 | With dielectric layer | 46 |
20080211401 | Electron Emission Device And Manufacturing Method Of The Same - An electron emission device including a lower electrode on a near side to a substrate and an upper electrode on a far side to the substrate and an insulator layer and an electron supply layer stacked between the lower electrode and the upper electrode and emitting an electron from the upper electrode side at the time of applying a voltage between the lower electrode and the upper electrode, which includes an electron emission part provided with an opening formed by an inner wall of a stepped shape in which a thickness of the insulator layer decreases stepwise; and a carbon-containing carbon region which is connected to the upper electrode side and which is brought into contact with the insulator layer and the electron supply layer. | 09-04-2008 |
20080218073 | Electroluminescent Nixels and Elements with Single-Sided Electrical Contacts - Systems and methods are provided for electroluminescent display elements. These electroluminescent display elements can include a dielectric layer having an upper surface and a lower surface and a top conductive layer having an upper surface and a lower surface, where the top conductive layer and the dielectric layer are positioned opposite one another so that the lower surface of the top conductive layer faces the upper surface of the dielectric layer. The electroluminescent display elements can further include a phosphor layer, where the phosphor layer is arranged between the dielectric layer and the top conductive layer, and a bottom conductive layer having an upper surface and a lower surface, where the bottom conductive layer and the dielectric layer are positioned opposite one another so that the upper surface of the bottom conductive layer faces the lower surface of the dielectric layer, and where the bottom conductive layer forms a first bottom electrode and a second bottom electrode. | 09-11-2008 |
20080218074 | Nanotube array ballistic light emitting devices - A new class of light emitting and laser diodes is disclosed wherein ballistic (without collisions) electron propagation along the nanotubes, grown normally to the substrate plane on the common metal electrode, provides conditions for the light emission from the nanotubes. The electrons, tunneling from the input contact into high energy states in the nanotubes, emit light via electron energy relaxation between the quantum energy levels existing in the nanotubes due to quantum size effect. | 09-11-2008 |
20080218075 | Electroluminescent Displays - An electroluminescent display comprising a substrate ( | 09-11-2008 |
20080218076 | ELECTROLUMINESCENT LIGHT EMITTING DEVICE - An electroluminescent device having a light emitting layer ( | 09-11-2008 |
20080224609 | INORGANIC LIGHT EMITTING DISPLAY - An inorganic light emitting display including: a first electrode; a second electrode facing the first electrode; a light emitting layer disposed between the first electrode and the second electrode; and an field emission layer disposed between the light emitting layer and the second electrode. | 09-18-2008 |
20080252210 | Electrode Patterning - A method is provided to isolated conductive pads on top of a multi-layer polymer device structure. The method utilizes laser radiation to ablate conductive material and create a non-conductive path, electrically isolating the conductive pads. The process is self-limiting and incorporates at least one layer within the stack that absorbs the radiation at the required wavelength. The prevention of radiation degradation of the underlying layers is achieved, as absorption of radiation occurs primarily on the surface of the structure, but not in any of the radiation sensitive underlying layers of the electronic device. The method preferably uses low energy infrared radiation which has been shown to produce little debris and no device degradation. | 10-16-2008 |
20080252211 | Electroluminescent Lamp - An EL lamp includes a substrate, which is transparent in at least a light-emitting region and an electrode assembly with a transparent electrode layer and a back electrode layer, which face each other in the light-emitting region. A phosphorescent layer and a dielectric layer are arranged between the transparent electrode layer and the back electrode layer. A first connection line is provided for connecting the transparent electrode to a driver circuit and a second connection line is provided for connecting the back electrode to a driver circuit. According to an important aspect of the invention, the EL lamp comprises an insulating layer for insulating the second connection line at least locally from the back electrode and/or, if the transparent electrode extends into a peripheral region of the EL lamp, for insulating the second connection line from the transparent electrode. | 10-16-2008 |
20080309234 | ALTERNATING CURRENT DRIVING TYPE QUANTUM DOT ELECTROLUMINESCENT DEVICE - An alternating current driving type quantum dot electroluminescent device includes; a first electrode, a second electrode, a quantum dot light-emitting layer disposed between the first electrode and the second electrode, and at least one layer selected from the group consisting of a tunneling layer, a bipolar layer, a dielectric layer, an insulating layer, and a combination of layers thereof, disposed between at least one of the first electrode and the quantum dot light-emitting layer, and the second electrode and the quantum dot light-emitting layer. | 12-18-2008 |
20080315762 | LAMINATED THICK FILM DIELECTRIC STRUCTURE FOR THICK FILM DIELECTRIC ELECTROLUMINESCENT DISPLAYS - A novel and improved composite thick film dielectric structure is provided to improve the operating stability of phosphors used in thick dielectric ac electroluminescent displays. The novel structure comprises one or more aluminum oxide layers disposed between the composite thick dielectric layer and the bottom of the phosphor layer of these displays. | 12-25-2008 |
20090058291 | LIGHT-EMITTING DEVICE - A light-emitting device is provided, which includes a first substrate, a first pair of electrodes formed above the first substrate, a second substrate disposed apart from the first substrate, a second pair of electrodes formed above the second substrate, a selective permeable layer disposed between the first substrate and the second substrate, a first light-emitting layer disposed between the first substrate and the selective permeable layer, a second light-emitting layer disposed between the second substrate and selective permeable layer. The first light-emitting layer contains a first light-emitting material which emits light through an electrochemical oxidation or reduction thereof and a supporting salt. The second light-emitting layer contains a second light-emitting material which emits light through an electrochemical oxidation or reduction thereof and a supporting salt. The selective permeable layer is non-permeable or hardly permeable to the first and second light-emitting materials but permeable to the supporting salt. | 03-05-2009 |
20090096373 | Glass-supported electroluminescent nixels and elements with single-sided electrical contacts - Systems and methods are provided for electroluminescent display elements which are glass supported. These electroluminescent display elements include an EL element or nixel structure that makes use of two rear or substantially same-sided electrodes that are electrically separated by a small gap or other non-conductive (e.g., insulating) material, but that generally cover the rear area of the EL element or nixel laminate. This EL element has a glass plate applied on the other side of the EL element. These EL elements may be made by growing the layers one on top of the other on one side on the glass plate, or a free standing EL element may be made using a ceramic substrate having a front surface onto which the layers are deposited. The back surface of the ceramic substrate may then be ground down to be thinner and the two back electrodes applied to this back surface, after which a glass plate is applied to the other side of the element. | 04-16-2009 |
20090121628 | INORGANIC LIGHT EMITTING DEVICE - An inorganic light emitting device includes a first emission layer that includes a first electrode, a first dielectric layer, a first sub-emission layer, a second dielectric layer and a first auxiliary electrode sequentially stacked on a substrate, a second emission layer that includes the first auxiliary electrode and a third dielectric layer, a second sub-emission layer, a fourth dielectric layer and a second auxiliary electrode sequentially stacked on the first auxiliary electrode, and a third emission layer that includes the second auxiliary electrode and a fifth dielectric layer, a third sub-emission layer, a sixth dielectric layer and a second electrode sequentially stacked on the second auxiliary electrode. | 05-14-2009 |
20090128029 | LIGHT EMITTING DEVICE WITH A STOPPER LAYER STRUCTURE - Electroluminescent (EL) devices structures are provided comprising a hot electron stopper layer structure to capture hot electrons and dissipate their energy, thereby reducing damage to the transparent conducting oxide (TCO) layer and reducing other hot electron effects, such as charging effects, which impact reliability of EL device structures. The stopper layer structure may comprise a single layer or multiple layers provided between the TCO electrode layer and the emitter structure, and may also function to reduce diffusion or chemical interactions between the TCO and the emitter layer structure. Optionally, stopper layers may also be provided within the emitter structure. Suitable stopper layer materials are wideband gap semiconductors or dielectrics, preferably transparent at wavelengths emitted by the EL device characterized by high impact ionization rates, and/or high relative permittivity relative to adjacent layers of the emitter structure. | 05-21-2009 |
20090140649 | Isolation mask for fine line display - An electroluminescent panel having a front electrode overlying a translucent sheet, a phosphor layer overlying the front electrode, a dielectric layer overlying the phosphor layer, and a rear electrode overlying the dielectric layer, the electroluminescent panel further includes a mask layer between the front electrode and the phosphor layer, wherein the mask layer is patterned to define graphics optically and electrically. A layer other than the mask layer can also be patterned. | 06-04-2009 |
20090184637 | Dispersion-Type Electroluminescent Element and Method for Manufacturing the Same - A dispersion-type EL element is a dispersion-type electroluminescent element with at least a transparent coating layer, a transparent conductive layer, a phosphor layer, a dielectric layer and a rear electrode layer sequentially formed on a base film surface. The transparent coating layer can be peeled off the surface of the base film. The transparent conductive layer is formed by applying a coating liquid composed mainly of conductive oxide particles and a binder on a surface of the transparent coating layer, applying compression processing to the applied layer and then curing the compressed layer. | 07-23-2009 |
20090218942 | DISPERSION TYPE ELECTROLUMINESCENT ELEMENT - A dispersion type EL element is provided which shows an excellent luminance and has an improved life. Further, a dispersion type EL element is provided which permits a large-sized panel, shows an excellent luminance and an excellent durability and has an improved life. | 09-03-2009 |
20090236984 | 3D Electroluminescent High-Pressure Forming Element, Production Process And Application - A three-dimensionally formed film element which can be produced by isostatic high-pressure forming, a process for producing the three-dimensionally formed film element according to the invention and the use of the three-dimensionally formed film element according to the invention for developing display elements such as a speedometer panel for land, water and aircraft, for developing seatbelt signs or warning signs for land, water and aircraft and warning signs in buildings and for developing housing elements for mobile and static electronic devices and for developing a keyboard. | 09-24-2009 |
20090267505 | Ligth emitting device package and method of manufacturing the same - The present invention relates to a light emitting device package and a method of manufacturing the same. There is provided a light emitting device package including a metal core; an insulating layer formed on the metal core; a metal layer formed on the insulating layer; a first cavity formed by removing parts of the metal layer and the insulating layer to expose a top surface of the metal core; and a light emitting device directly mounted on the top surface of the metal core in the first cavity and further there is provided a method of manufacturing the light emitting device package. | 10-29-2009 |
20100039031 | Electroluminescent Lamp - An electroluminescent lamp comprises a substrate, an electroluminescent system printed on the substrate and a protection layer covering the outer surface of the electroluminescent system. The electroluminescent system comprises two electrode layers, where a dielectric layer and electroluminescent layer placed there between. The protection layer and the substrate interconnecting to form an envelope layer sealing the electroluminescent system, isolating the electroluminescent system inside the substrate and the protection layer. There is an adhesive layer beneath the substrate. It is also disclosed here a combination of an electroluminescent lamp and a metal dome sheet. There is a metal dome sheet beneath the adhesive layer. The metal dome sheet comprises a spacer where several receiving-grooves are provided and several metal domes seated respectively within the receiving-grooves. There is a second adhesive layer beneath the spacer. This invention has a simple structure and is easy to assemble. | 02-18-2010 |
20100045180 | Liquid crystal display with split electrode - A light shutter includes a first electrode, a second electrode, and a third electrode, wherein the first and second electrodes are capacitively coupled to each other by the third electrode. The first electrode and the second electrode can be segmented and the segments separately addressed. In a display having a light shutter and an EL panel stacked on the same side of a substrate, there is a common front electrode and separate rear electrodes for operating the light shutter and the EL panel. The common electrode is electrically floating and the rear electrodes are capacitively coupled to each other by the common front electrode. The rear electrodes can be segmented and the segments separately addressed. | 02-25-2010 |
20100072890 | INORGANIC ELECTROLUMINESCENT DEVICE AND DISPLAY APPARATUS EMPLOYING THE SAME - An inorganic electroluminescent device includes; a conductive layer, a fluorescent material layer disposed on a surface of the conductive layer, a dielectric material layer disposed on a surface of the conductive layer substantially opposite to the surface on which the fluorescent material layer is disposed, a first electrode disposed on the fluorescent layer, and a second electrode disposed on the dielectric material layer. | 03-25-2010 |
20100109520 | INORGANIC ELECTROLUMINESCENT DEVICE AND METHOD OF MANUFACTURING THE SAME - An inorganic electroluminescence (“EL”) device includes a lower electrode; a dielectric layer disposed on the lower electrode; an inorganic emission layer disposed on the dielectric layer; an upper electrode disposed on the inorganic emission layer; a waveguide layer disposed on the upper electrode; and a reflection film partially coating the waveguide layer and including an emission portion through which light is emitted. | 05-06-2010 |
20100109521 | QUANTUM DOT ELECTROLUMINESCENT DEVICE - An EL device is presented which consists of a simple three active layer construction. A layer of a dielectric material, a traditional EL phosphor layer, and a quantum dot layer are present between an electrode and a transparent electrode. The EL device is operated efficiently by an AC source. Quantum dots which emit in the visible spectrum are used. The EL device is fully color tunable by altering the composition and thickness of the layers. | 05-06-2010 |
20100176720 | DISPLAY DEVICE, ELECTRONIC APPARATUS, AND METHOD OF FABRICATING THE DISPLAY DEVICE - It is an object of the invention to provide a technique to manufacture a display device with high image quality and high reliability at low cost with high yield. The invention has spacers over a pixel electrode layer in a pixel region and over an insulating layer functioning as a partition which covers the periphery of the pixel electrode layer. When forming a light emitting material over a pixel electrode layer, a mask for selective formation is supported by the spacers, thereby preventing the mask from contacting the pixel electrode layer due to a twist and deflection thereof. Accordingly, such damage as a crack by the mask does not occur in the pixel electrode layer. Thus, the pixel electrode layer does not have a defect in shapes, thereby a display device which performs a high resolution display with high reliability can be manufactured. | 07-15-2010 |
20100187989 | INORGANIC ELECTROLUMINESCENT DEVICE AND DISPLAY DEVICE INCLUDING SAME - An inorganic electroluminescent device includes a first electrode, a nano-coil layer disposed on the first electrode, a dielectric layer disposed on the nano-coil layer, a fluorescent layer disposed on the dielectric layer and a second electrode disposed on the fluorescent layer. | 07-29-2010 |
20100277065 | ELECTROLUMINESCENT FABRIC EMBEDDING ILLUMINATED FABRIC DISPLAY - Disclosed herein is an electroluminescent fabric embedding an illuminated fabric display. The electroluminescent fabric according to the present invention comprises: a foundation layer composed of a synthetic, regenerated or natural fiber; a polymer layer stacked on the base layer; a first bus bar stacked on the polymer layer; a transparent electrode layer stacked on the first bus bar; a fluorescent layer stacked on the transparent electrode layer; a dielectric layer stacked on the fluorescent layer; an interface electrode layer stacked on the dielectric layer; and a second bus bar connected to the interface electrode layer. | 11-04-2010 |
20100308719 | 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 |
20110006672 | FLAT LIGHT SOURCE AND MANUFACTURING METHOD THEREOF - The present invention discloses a flat light source and a manufacturing method thereof. The flat light source includes a first substrate, a second substrate, and a first electrode, a first insulation layer, a first fluorescent layer that are in series disposed on the first substrate, and a second electrode, a second insulation layer, a second fluorescent layer that are in series disposed on the second substrate, and a gas discharge channel. The first electrode includes a conductive layer and a plurality of conical electrodes. Each conical electrode protrudes from the conductive layer and electrically connects to the conductive layer. The gas discharge channel is disposed between the first fluorescent layer and the second fluorescent layer where at least a discharge gas is filled in. | 01-13-2011 |
20110121722 | PEROVSKITE OXIDE THIN FILM EL ELEMENT - There are provided a perovskite oxide thin film EL element in which a hole transport layer/a light-emitting layer/an electron transport layer comprising a perovskite oxide thin film are formed on a lower electrode, and an upper electrode is formed thereon, and a perovskite oxide thin film EL element that provides red light emission in the vicinity of a wavelength of 610 nm, which is the basis of display making. A perovskite oxide thin film EL element comprising a lower electrode | 05-26-2011 |
20110121723 | LED Base Structure with Embedded Capacitor - An LED base structure with an embedded capacitor includes a body, at least one pair of metal layers, at least one dielectric layer, and at least two conductive channels. The body is an insulating base. The metal layers are disposed in the body, and the dielectric layer is disposed between the metal layers, so as to form an embedded capacitor. The conductive channels are electrically connected to the metal layers, respectively. The LED base structure is further electrically connected to a resistor for forming a resistor-capacitor delay circuit whereby a phase delay is effectuated whenever AC power is supplied to the LED base structure, so as to control the time for switching on one of two parallel-connected LEDs and, as a result, prevent the LEDs from flashing which might otherwise arise when the LEDs are supplied with AC power. | 05-26-2011 |
20110273085 | TRANSPARENT CONDUCTIVE COATING WITH FILLER MATERIAL - An article is disclosed comprising a network-like pattern of conductive traces formed of at least partially-joined nanoparticles that define randomly-shaped cells that are generally transparent to light and contain a transparent filler material. In a preferred embodiment, the filler material is conductive such as a metal oxide or a conductive polymer. In another preferred embodiment, the filler material is an adhesive that is can be used to transfer the network from one substrate to another. A preferred method of forming the article is also disclosed wherein an emulsion containing the nanoparticles in the solvent phase and the filler material in the water phase is coated onto a substrate. The emulsion is dried and the nanoparticles self-assemble to form the traces and the filler material is deposited in the cells. An electroluminescent device is also disclosed wherein the article of the invention forms a transparent electrode in the device. | 11-10-2011 |
20120032585 | LIGHT EMITTING ELEMENT - Provided is a light emitting element capable of reducing external light reflectance while maintaining high light extraction efficiency, having a structure including a back surface member provided on a side of an emission layer opposite to a light extraction side, the back surface member including in order from the emission side: a dielectric layer having a smaller effective refractive index than that of the emission layer; and a metal fine patterned layer interacting with light entering a metal fine patterned layer to change level of reflectance, and back surface member reflectance with respect to light with an incident angle larger than the critical angle determined by conditions for total reflection at an interface between the emission and the dielectric layer is higher than back surface member reflectance with respect to light with an incident angle smaller than the critical angle. | 02-09-2012 |
20120062110 | ELECTROLUMINESCENT TEXTILE AND METHOD FOR THE PRODUCTION THEREOF - A method for producing electroluminescent textiles and to electroluminescent textiles produced accordingly is provided. A layer arrangement ( | 03-15-2012 |
20120146490 | LIGHT EMITTING SHEET - A light-emitting sheet which does not cause failures such as a short circuit without causing dielectric breakdown at the end of element at applying a voltage and which is able to realize stable driving is provided. Specifically, A light-emitting sheet comprising a first electrode, a second electrode, and a light-emitting layer disposed between the first and the second electrodes, wherein the first electrode and/or the second electrode disposed on and under the periphery of the light-emitting layer are cut to form a non-conductive portion being electrically disconnected with a circuit for applying a voltage to the light-emitting sheet, and as seen from a vertical direction to the plane of the light-emitting sheet, the non-conductive portion formed from the first electrode or the non-conductive portion formed from the second electrode surrounds the light-emitting layer, or the non-conductive portion formed from the first electrode and the non-conductive portion formed from the second electrode are apparently connected to each other and surrounds the light-emitting layer. | 06-14-2012 |
20120176027 | Radiation Emitting Device - A radiation emitting device includes a substrate and a layer sequence disposed on top of the substrate. The layer sequence includes a first electrode surface with a first contact for applying a voltage, at least one functional layer that emits radiation during operation, and a second electrode surface. In the layer sequence, a plurality of partial regions is present that is modified in such a way that the emission of radiation visible to an external observer therefrom is interrupted. The distribution density of these partial regions can vary depending on their distance from the contact. | 07-12-2012 |
20120242220 | LIGHT-EMITTING COMPOSITION, ELECTROLUMINESCENT SHEET, AND METHOD FOR PRODUCING SAME - A light-emitting composition comprising (A) a compound having a cyanoethyl group, (B) an adhesive resin material and (C) an electroluminescent material, wherein an amount of the component (B) is from 1 to 1,000 parts by mass per 100 parts by mass of the component (A); an electroluminescent sheet comprising at least a first electrode, an electroluminescent layer and a second electrode, laminated in this order, wherein at least one of the first electrode and the second electrode is transparent, and the electroluminescent layer contains the light-emitting composition; and a method for producing thereof are provided. Specifically, an electroluminescent sheet that can be produced at ambient temperature without heating, has high productivity, and can be mass produced at low cost, a method for producing thereof, and a light-emitting composition used therein are provided. | 09-27-2012 |
20120248976 | 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. | 10-04-2012 |
20130009544 | ELECTRONIC ARTICLES FOR DISPLAYS AND METHODS OF MAKING SAME - Electronic articles such as, for example, electroluminescent lamps useful for displays and method of making the same are provided. The electronic articles include a substrate, a conductive element adjacent to the substrate, a high dielectric composite adjacent to the conductive element and an electrically-active layer adjacent to at least a portion of the high dielectric composite. The high dielectric composite includes a polymeric binder and from 1 to 80 volume percent of filler retained in the binder. The filler comprises particles that include an electrically-conducting layer and an insulating layer substantially surrounding the electrically-conducting layer. In some embodiments the binder includes a pressure-sensitive adhesive and the composite has adhesive properties. | 01-10-2013 |
20130134868 | Highly bright electroluminescent wire - A highly bright electroluminescent wire includes a metal core electrode, an internal electron-emitting layer, an internal highly dielectric layer, a glowing layer, an external highly dielectric layer, an external electron-emitting layer, a transparent conductive layer, an electrode of external conductive layer, a transparent protective plastic layer and a color fluorescent transparent plastic layer orderly coated around the metal core electrode. The metal core electrode and the electrode of external conductive layer are charged with a voltage of AC50-400V and a frequency of 0.05 KHz to 20 KHz to produce a colored highly bright light. | 05-30-2013 |
20130187539 | ELECTROLUMINESCENT DISPLAY AND METHOD FOR PRODUCTION - The present invention relates to an electroluminescent display. The display includes a front conductive layer, a first dielectric layer, a light emitting layer, a second dielectric layer, and a rear conductive layer. The rear conductive layer defines a continuous void, where the void separates the rear conductive layer into a first area to be energized to electroluminate and a second area that is not energized. | 07-25-2013 |
20130221839 | MARKING HAVING ELECTROLUMINESCENT LIGHTING EFFECT, METHOD FOR THE PRODUCTION THEREOF - An electroluminescent arrangement is described. This electroluminescent arrangement comprises the following functional layers:
| 08-29-2013 |
20130234590 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - An display device comprising a plurality of pixel define units is disclosed. Each pixel define unit comprises patterned pixel define sections, a first electrode layer, an emission layer and a second electrode layer. The patterned pixel define section has a first lateral surface and a second lateral surface opposite to the first lateral surface. The first electrode layer comprises a first sub-electrode and a second sub-electrode. The first and second sub-electrodes are spaced apart from each other and respectively disposed on the first and second lateral surfaces. The emission layer is disposed on the first electrode layer. The second electrode layer is disposed on the emission layer. | 09-12-2013 |
20130249386 | ELECTRON EMISSION ELEMENT, ELECTRON EMISSION DEVICE, CHARGE DEVICE, IMAGE FORMING DEVICE, ELECTRON RADIATION CURING DEVICE, LIGHT-EMITTING DEVICE, IMAGE DISPLAY DEVICE, BLOWER DEVICE, COOLING DEVICE, AND MANUFACTURING METHOD FOR ELECTRON EMISSION ELEMENT - An electron emission element ( | 09-26-2013 |
20140117843 | ELECTROLUMINESCENT DISPLAY AND METHOD FOR PRODUCTION - The present invention relates to an electroluminescent display. The display includes a transparent conductive film layer, a first transparent dielectric layer, a light emitting layer, a second dielectric layer, and a rear conductive layer. The rear conductive layer defines a continuous void, where the void separates the rear conductive layer into a first area to be energized to electroluminate and a second area that is not energized. | 05-01-2014 |
20140361682 | LIGHT-EMITTING DISPLAY DEVICE AND METHOD OF FABRICATING THE SAME - In an aspect, a light-emitting display device and a method of fabricating the same is provided. The light-emitting display device includes a display substrate which comprises a pixel region and a non-pixel region; an encapsulation member which is disposed above the display substrate; and a destructive interference unit. | 12-11-2014 |