Patent application number | Description | Published |
20110315895 | LUMINESCENT GLASS ELEMENT, PRODUCING METHOD THEREOF AND LUMINESCING METHOD THEREOF - The present invention relates to a luminescent glass element comprising a luminescent glass substrate, which a metal layer is positioned on a surface thereof. The metal layer is provided with a metal microstructure. The luminescent glass substrate has composite oxides represented as the following formula: aM | 12-29-2011 |
20110315896 | LUMINESCENT GLASS ELEMENT, PRODUCING METHOD THEREOF AND LUMINESCING METHOD THEREOF - The present invention relates to a luminescent glass element comprising a luminescent glass substrate, which a metal layer is positioned on a surface thereof. The metal layer is provided with a metal microstructure. The luminescent glass substrate has composite oxides represented as the following formula: aM | 12-29-2011 |
20120001091 | LUMINESCENT GLASS ELEMENT, PRODUCING METHOD THEREOF AND LUMINESCING METHOD THEREOF - The present invention relates to a luminescent glass element comprising a luminescent glass substrate, which a metal layer is positioned on a surface thereof. The metal layer is provided with a metal microstructure. The luminescent glass substrate has composite oxides represented as the following formula: aM | 01-05-2012 |
20120001092 | LUMINESCENT GLASS ELEMENT, PRODUCING METHOD THEREOF AND LUMINESCING METHOD THEREOF - The present invention relates to a luminescent glass element comprising a luminescent glass substrate, which a metal layer is positioned on a surface thereof. The metal layer is provided with a metal microstructure. The luminescent glass substrate has composite oxides represented as the following formula: aM | 01-05-2012 |
20120001093 | LUMINESCENT GLASS ELEMENT, PRODUCING METHOD THEREOF AND LUMINESCING METHOD THEREOF - The present invention relates to a luminescent glass element comprising a luminescent glass substrate, which a metal layer is positioned on a surface thereof. The metal layer is provided with a metal microstructure. The luminescent glass substrate has composite oxides represented as the following formula: aM | 01-05-2012 |
20120001535 | LUMINESCENT GLASS ELEMENT, PRODUCING METHOD THEREOF AND LUMINESCING METHOD THEREOF - The present invention relates to a luminescent glass element comprising a luminescent glass substrate, which a metal layer is positioned on a surface thereof. The metal layer is provided with a metal microstructure. The luminescent glass substrate has composite oxides represented as the following formula: aM | 01-05-2012 |
20120132856 | OXIDE LUMINESCENT MATERIALS ACTIVATED BY TRIVALENT THULIUM AND THEIR PREPARATIONS - The present invention relates to oxide luminescent materials activated by trivalent thulium and their preparations. The luminescent materials are the compounds with the following general formula: (RE | 05-31-2012 |
20120175560 | ZnO GREEN LUMINESCENT MATERIAL AND ITS PREPARATION - The present invention relates to ZnO green luminescent material and its preparation. The ZnO green luminescent material is prepared by doping a trivalent rare earth ion compound and a Li compound into zinc oxide material. The method comprises the following steps: (1) weighing raw material in the stoichiometric ratio of formula ZnO: xA, yLi, (2) grinding the raw material, sintering it at 800-1200° C. for 2-8 h, cooling to the room temperature, and then obtaining the ZnO green luminescent material. The present ZnO green luminescent material doped with trivalent rare earth ion compound and Li compound has high stability and luminous intensity, and has higher low-voltage cathode ray luminescence efficiency. The method can easily be operated and can be used widely. | 07-12-2012 |
20120175661 | SEMICONDUCTOR LIGHT EMITTING PACKAGE AND METHOD OF MANUFACTURING THE SAME - A semiconductor light emitting package includes a substrate, an encapsulating material, a semiconductor light emitting chip disposed on the substrate, wires; and an integrated glass-fluorescent powder compound light-emitting structure. The encapsulating material and the integrated glass-fluorescent powder compound light-emitting structure are packaged on the semiconductor light emitting chip, the integrated glass-fluorescent powder compound light-emitting structure is coated on the encapsulating material. The semiconductor light-emitting package has a large light-emitting area, high uniformity which can effectively avoid “halo” phenomenon, and long working life. The present invention also relates to a method for manufacturing semiconductor light emitting package, which can be implemented at low temperature and improve the reliability and the stability of the light-emitting property of the compound light-emitting structure. | 07-12-2012 |
20120199791 | BISMUTH ION SENSITIZED RARE EARTH GERMANATE LUMINESCENCE MATERIALS AND PREPARATION METHODS THEREOF - Bismuth ion sensitized rare earth germanate luminescence materials and preparation methods are disclosed. The luminescence materials are the compounds of the following general formula (Y | 08-09-2012 |
20120235093 | BORATE LUMINOUS MATERIAL AND PREPARATION METHOD THEREOF - Borate luminous material is provided, wherein, comprises the compound of following structural formula: M | 09-20-2012 |
20120273727 | SILICATE LUMINESCENT MATERIAL AND ITS PREPARATION METHOD - Silicate luminescent material and preparation method thereof are provided. The structural formula of the silicate luminescent material is Zn | 11-01-2012 |
20120286205 | BOROSILICATE LUMINESCENT MATERIAL AND PREPARING METHOD THEREOF - Provided are a borosilicate luminescent material and a preparing method thereof. The borosilicate luminescent material has a chemical formula of aM | 11-15-2012 |
20120308760 | LUMINESCENT GLASS, PRODUCING METHOD THEREOF AND LUMINESCENT DEVICE - A luminescent glass comprises glass matrix. Said glass matrix comprises a glass part and a complex part of glass and fluorescent powder, which is embedded in said glass part. Said complex part of glass and fluorescent powder comprises glass material and fluorescent powder dispersed in said glass material. Said fluorescent powder is of cerium-doped yttrium aluminum garnet series. A method for producing the luminescent glass and a luminescent device comprising the luminescent glass are also provided. The luminescent glass and the luminescent device have good luminescence reliability, high luminescence stability and long service life. The method can be carried out at a relatively low temperature. | 12-06-2012 |
20130001444 | WHITE LIGHT LUMINESCENT DEVICE BASED ON PURPLE LIGHT LEDS - The present invention relates to a white light luminescent device based on purple light LED. The white light luminescent device includes a housing, a support plate, at least one purple light LED semiconductor light source, and a piece of high silica luminescent glass. The support plate is received in the housing. The at least one purple light LED semiconductor light source is positioned on the support plate. The piece of high silica luminescent glass doped with Eu ions is opposite to the purple light LED semiconductor light source. One surface of the high silica luminescent glass away from the purple light LED semiconductor light source is coated with a phosphor layer formed with a selection from a mixture of yellow phosphor and red phosphor, a mixture of green phosphor and red phosphor, and yellow phosphor. | 01-03-2013 |
20130011551 | QUANTUM DOT-GLASS COMPOSITE LUMINESCENT MATERIAL AND MANUFACTURING METHOD THEREOF - A quantum dot-glass composite luminescent material is provided, the base of which is nanometer pore glass. The nanometer pore glass is doped with luminescent quantum dot. A manufacturing method for the luminescent material is also provided, which includes: step one, preparing an aqueous or organic solution of a single luminescent quantum dot, or a mixed aqueous or organic solution of two or more luminescent quantum dots; step two, immersing the nanometer pore glass in the solution of step one for at least ten minutes; step three, taking the immersed nanometer pore glass out of the solution and drying it in the air, wrapping and packaging the nanometer pore glass with resin, and obtaining the quantum dot-glass composite luminescent material after solidifying it. The composite luminescent material and manufacturing method thereof are suitable for industrialization and have a broad application in the fields of illumination, LED, display and so on. | 01-10-2013 |
20130015402 | RARE EARTH ION DOPED LANTHANUM GALLATE LUMINOUS MATERIAL CONTAINING METAL PARTICLES AND PREPARATION METHOD THEREOFAANM Zhou; MingjieAACI ShenzhenAACO CNAAGP Zhou; Mingjie Shenzhen CNAANM Ma; WenboAACI ShenzhenAACO CNAAGP Ma; Wenbo Shenzhen CNAANM Lv; TingAACI ShenzhenAACO CNAAGP Lv; Ting Shenzhen CN - A rare earth ion doped lanthanum gallate luminous material containing metal particles and preparation method thereof are provided. The chemical formula of the lanthanum gallate luminous material is La | 01-17-2013 |
20130037747 | ALUMINATE FLUORESCENT MATERIALS AND PREPARATION METHODS THEREOF - Aluminate fluorescent materials and preparation methods thereof are provided. The fluorescent materials include a core and a shell coating the core. The core is metal nano particle, the shell is fluorescent powder represented by the following chemical formula: (Ce | 02-14-2013 |
20130062562 | ALUMINATE-BASED FLUORESCENT POWDER COATED BY METAL NANOPARTICLE AND PRODUCTION METHOD THEREOF - An aluminate-based fluorescent powder coated by metal nanoparticles. The formula thereof is (Y | 03-14-2013 |
20130062563 | FLUORESCENT MATERIALS USED IN FIELD EMISSION AND PREPARATION METHODS THEREOF - Fluorescent materials used in field emission and preparation methods thereof are provided. The said fluorescent materials are a mixture consisting of Zn | 03-14-2013 |
20130069005 | TRANSPARENT GLASS CERAMIC EMITTING WHITE LIGHT AND PREPARATION METHOD THEREOF - A transparent glass ceramic emitting white light and preparation method thereof are provided. The chemical formula of the transparent glass ceramic is aSiO | 03-21-2013 |
20130069006 | OXYHALIDE LUMINESCENT MATERIAL DOPED WITH RARE EARTH CONTAINING METAL PARTICLE AND PRODUCTION METHOD THEREOF - An oxyhalide luminescent material doped with rare earth containing metal particles is provided. The formula thereof is Re′ | 03-21-2013 |
20130071689 | RARE EARTH ELEMENTS DOPING ON YTTRIUM OXIDE LUMINESCENT THIN FILM CONTAINING CONDUCTIVE OXIDES AND PREPARATION METHODS THEREOF - A rare earth elements doping on yttrium oxide luminescent thin film containing conductive oxides and preparation methods thereof are provided. The said luminescent thin film is consisted of Y | 03-21-2013 |
20130075658 | FLUORESCENT POWDER OF HALOGEN SILICATE CONTAINING NANO-METAL PARTICLES AND PREPARATION METHOD THEREOF - Provided is a fluorescent powder of halogen-silicate containing nano-metal particles with the formula of CaX | 03-28-2013 |
20130075659 | LUMINESCENT MATERIAL OF SILICATE AND PREPARING METHOD THEREOF - A luminescent material of silicate is provided. The luminescent material has a formula of Ln | 03-28-2013 |
20130084385 | METHOD FOR PRODUCING CORE-SHELL MAGNETIC ALLOY NANOPARTICLE - A method for producing core-shell magnetic alloy nanoparticle, comprising: step 1, dissolving nickel compound to produce solution; step 2, adding surfactant into the solution; step 3, dissolving the first reducing agent to produce the first reducing solution; step 4, adding the first reducing solution into the solution obtained from step 2, obtaining nickel nano-collosol by stirring and aging; step 5, adding metallic compound into the nickel nano-collosol; step 6, dissolving the second reducing agent to produce the second reducing solution; step 7, adding the second reducing solution into the mixed solution obtained from step 5; step 8, allow the product to stand, then discarding the supernatant, redispersing in water or absolute ethyl alcohol to obtain the core-shell magnetic alloy nanoparticle using nickel as the core. | 04-04-2013 |
20130099162 | BORATE BASED RED LIGHT EMITTING MATERIAL AND PREPARATION METHOD THEREOF - A borate based red light emitting material is provided, which comprises a core and a shell covering the said core. Said core is nanometer metal particle, and the shell is fluorescent powder having the chemical formula of (Y | 04-25-2013 |
20130105733 | OXIDE LUMINESCENT MATERIALS AND PREPARATION METHODS THEREOF | 05-02-2013 |
20130105734 | RARE EARTH IONS DOPED ALKALI METAL SILICATE LUMINESCENT GLASS AND THE PREPARATION METHOD THEREOF | 05-02-2013 |
20130112654 | PREPARATION METHOD OF FLUORESCENT POWDER LAYER - A preparation method of the fluorescent powder layer ( | 05-09-2013 |
20130126784 | ZINC MANGANESE SILICATE CONTAINING METAL PARTICLES LUMINESCENT MATERIALS AND PREPARATION METHODS THEREOF - Zinc manganese silicate containing metal particles luminescent materials and preparation methods thereof are provided. The said luminescent materials are represented by the general formula: Zn | 05-23-2013 |
20130126785 | METAL NANO PARTICLES DOPED WITH SILICATE LUMINESCENT MATERIALS AND PREPARATION METHODS THEREOF - Metal nano particles doped with silicate luminescent materials and preparation methods thereof are provided. The luminescent materials are represented by the general formula: (Sr | 05-23-2013 |
20130140492 | BORATE LUMINESCENT MATERIALS, PREPARATION METHODS AND USES THEREOF - Borate luminescent materials, preparation methods and uses thereof are provided. The luminescent materials are represented by the general formula: (In | 06-06-2013 |
20130153823 | RARE EARTH-ALUMINIUM/GALLATE BASED FLUORESCENT MATERIAL AND MANUFACTURING METHOD THEREOF - A rare earth-aluminium/gallate based fluorescent material and manufacturing method thereof are provided. Said rare earth-aluminium/gallate based fluorescent material comprises a core, and a shell which coats said core, wherein said core is a metal nanoparticle, and said shell is a fluorescent powder of chemical formula (Y | 06-20-2013 |
20130169143 | FIELD EMISSION LIGHT SOURCE DEVICE AND MANUFACTURING METHOD THEREOF - A field emission light source device, comprising: cathode plate comprising substrate and cathode conductive layer disposed on surface of substrate, and anode plate comprising base formed from transparent ceramic material and anode conductive layer disposed on one surface of base, and insulating support member by which cathode plate and anode plate are integrally fixed, and vacuum-tight chamber formed with anode plate, cathode plate and insulating support member; anode conductive layer and the cathode plate are disposed opposite each other. Because of advantages of good electrical conductivity, high light transmittance, stable electron-impact resistance performance and uniform luminescence, using transparent ceramic as the base of the anode plate in the field emission light source device can increase electron beam excitation efficiency effectively, increase light extraction efficiency of the field emission light source device, and finally increase its luminous efficiency. A manufacturing method of the field emission light source device is also provided. | 07-04-2013 |
20130175918 | FIELD EMISSION ANODE PLATE, FIELD EMISSION LIGHT SOURCE AND MANUFACTURING METHOD FOR LIGHT SOURCE - A field emission anode plate ( | 07-11-2013 |
20130214206 | TUNGSTATE FLUORESCENT MATERIALS AND PREPARATION METHODS THEREOF - Tungstate luminescent materials and preparation methods thereof are provided. The said luminescent materials are represented by the following general formula: RWO | 08-22-2013 |
20130221275 | HALO-SILICATE LUMINESCENT MATERIALS AND PREPARATION METHODS THEREOF - Halo-silicate luminescent materials and preparation methods thereof are provided. The said luminescent materials are represented by the following general formula: (Ba | 08-29-2013 |