Patent application number | Description | Published |
20110316452 | METHOD FOR GENERATING WHITE LIGHT AND LIGHTING DEVICE - A method for generating white light and a lighting device are provided. The method comprises exciting blue cathodoluminescence material by FED to generate blue light; exciting yellow photoluminescence material by the blue light generated to generate yellow light, complexing the residual blue light that do not excite the yellow photoluminescence material and the yellow light to generate a white light. | 12-29-2011 |
20120010067 | Green Light-Emitting Glass and Method of Preparing the Same - A green light-emitting glass and the method of preparing the same are provided. The components with parts by mole of the green light-emitting glass are alkali oxide 25-40, Y | 01-12-2012 |
20120012786 | GERMANATE LUMINESCENCE MATERIAL AND ITS PREPARATION - A kind of germanate luminescence material and its preparation. The germanate luminescence material is a compound of following formula: (Y | 01-19-2012 |
20120056130 | FULL-COLOR LIGHT-EMITTING MATERIAL AND PREPARATION METHOD THEREOF - A full-color light-emitting material and preparation method thereof are provided. A light-emitting material is following general formula compound (Y | 03-08-2012 |
20120061615 | Rare Earth Ion Doped Silicate Luminescence Glass and Preparation Method Thereof - A rare earth ion doped silicate luminescence glass and preparation method thereof are provided. The luminescence glass is the material with the following formula: aM | 03-15-2012 |
20120068117 | GREEN LUMINESCENT MATERIALS AND THEIR PREPARING METHODS - Green luminescent materials and their preparing methods. The luminescent materials are the compounds of the following general formula: M | 03-22-2012 |
20120077025 | METHOD FOR RAISING LUMINOUS EFFICIENCY OF FIELD EMISSIVE LUMINESCENT MATERIAL, LUMINESCENT GLASS ELEMENT AND THE PREPARING METHOD THEREOF - A method for raising luminous efficiency of field emissive luminescent material, a luminescent glass element and the preparing method thereof are provided. The method for raising luminous efficiency of field emissive luminescent material comprises: forming a nonperiodic metal film having metal micro-nano structure on the surface of a luminescent glass body having a composition of aM | 03-29-2012 |
20120091394 | BLUE LIGHT EMITTING GLASS AND PREPARATION METHOD THEREOF - Blue light emitting glass and the preparation method thereof are provided. The blue light emitting glass has the following composition: aCaO.bAl | 04-19-2012 |
20120126172 | LUMINESCENT BORATE GLASS AND PREPARATION METHOD THEROF - A luminescent borate glass and a preparation method thereof are disclosed. The preparation method includes: weighing raw materials according to a composition of the formula: aM | 05-24-2012 |
20120138854 | GREEN LUMINESCENT GLASS FOR ULTRAVIOLET LED AND PREPARATION METHOD THEREOF - A green luminescent glass for ultraviolet LED and a preparation method for glass are disclosed. The preparation method includes: weighing raw materials of CaCO | 06-07-2012 |
20120146499 | LUMINESCENT ELEMENT, ITS PREPARATION METHOD THEREOF AND LUMINESCENE METHOD - A luminescent element includes a luminescent substrate; and a metal layer with a metal microstructure formed on a surface of the luminescent substrate; wherein the luminescent substrate has a luminescent material with a chemical composition: Y | 06-14-2012 |
20120146500 | LUMINESCENT ELEMENT, PREPARATION METHOD THEREOF AND LUMINESCENCE METHOD - A luminescent element comprises: a luminescent substrate; and a metal layer with a metal microstructure formed on a surface of the luminescent substrate; the luminescent substrate comprises luminescent materials with a chemical composition of Zn | 06-14-2012 |
20120146501 | LUMINESCENT ELEMENT, PREPARATION METHOD THEREOF AND LUMINESCENCE METHOD - A luminescent element is disclosed including: a luminescent substrate; and a metal layer with a metal microstructure formed on a surface of the luminescent substrate; wherein the luminescent substrate comprises a luminescent material with a chemical composition of Y | 06-14-2012 |
20120146502 | LUMINESCENT ELEMENT INCLUDING NITRIDE, PREPARATION METHOD THEREOF AND LUMINESCENCE METHOD - A luminescent element including nitride includes a luminescent film and a metal layer with a metal microstructure formed on a surface of the luminescent film; wherein the luminescent film has a chemical composition: Ga | 06-14-2012 |
20120153803 | LUMINESCENT ELEMENT, PREPARATION METHOD THEREOF AND LUMINESCENCE METHOD - A luminescent element includes a luminescent glass and a metal layer with a metal microstructure formed on a surface of the luminescent glass; wherein the luminescent glass has a chemical composition: aR | 06-21-2012 |
20120153821 | LUMINESCENT ELEMENT, PREPARATION METHOD THEREOF AND LUMINESCENCE METHOD - A luminescent element comprises: a luminescent substrate; and a metal layer with a metal microstructure formed on a surface of the luminescent substrate; the luminescent substrate comprises luminescent materials with a chemical composition of Y | 06-21-2012 |
20120153822 | LUMINESCENT ELEMENT, PREPARATION METHOD THEREOF AND LUMINESCENCE METHOD - A luminescent element includes a luminescent glass and a metal layer with a metal microstructure formed on a surface of the luminescent glass; wherein the luminescent glass has a chemical composition: bY | 06-21-2012 |
20120177866 | 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 silicate 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. | 07-12-2012 |
20120219750 | 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 comprises the fluorescent material which can be excited by ultraviolet. 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. | 08-30-2012 |
20120225238 | 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. 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. | 09-06-2012 |
20120225240 | 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 nitrides or oxynitrides 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. | 09-06-2012 |
20120270056 | 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 long after-glow fluorescent powder. 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. | 10-25-2012 |
20120319045 | LUMINOUS NANO-GLASS-CERAMICS USED AS WHITE LED SOURCE AND PREPARING METHOD OF LUMINOUS NANO-GLASS-CERAMICS - A luminous nano-glass-ceramics used as white LED source and the preparing method of nano-glass-ceramics are provided. The glass is a kind of non-porous compact SiO | 12-20-2012 |
20120326056 | GLASS SUBSTRATE LIGHT EMITTING ELEMENT AND METHODS FOR MANUFACTURING AND LUMINESCENCE THEREOF - A light emitting element ( | 12-27-2012 |
20120329979 | COPOLYMER CONTAINING FLUORENYLPORPHYRIN-BENZENE, PREPARATION METHOD AND USE THEREOF - A copolymer containing fluorenylporphyrin-benzene is disclosed, which comprises a copolymer represented by formula (1), in which R | 12-27-2012 |
20120329982 | CYCLOPENTADIENEDITHIOPHENE-QUINOXALINE CONJUGATED POLYMER AND PREPARATION METHOD AND USES THEREOF - A cyclopentadienedithiophene-quinoxaline conjugated polymer and a preparation method and uses thereof are disclosed. The preparation method comprises the following steps: reacting diketone compound with o-phenylenediamine compound to obtain dibromide intermediate of quinoxaline heteroarylic ring compound; carrying out Stille-type coupling reaction of the intermediate, with 2,6-di(trimethyltin)-4,4-dialkyl-cyclopentadiene[2,1-b:3,4-b′] dithiophene compound, and 2,6-dibromo-4,4-dialkyl-cyclopentadiene[2,1-b:3,4-b′] dithiophene compound to obtain the cyclopentadienedithiophene-quinoxaline conjugated polymers. The polymers may be used in the fields of polymer solar cell and the like due to good solubility, high carrier mobility and relatively strong modifiability of chemical property and chemical structure. The preparation method is simple and can be handled and controlled easily. | 12-27-2012 |
20130000719 | ORGANIC SOLAR CELL AND METHOD FOR MANUFACTURING THE SAME - An organic solar cell ( | 01-03-2013 |
20130004699 | 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 terbium 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. | 01-03-2013 |
20130017395 | DOUBLE CORE-SHELL FLUORESCENT MATERIALS AND PREPARATION METHODS THEREOFAANM Zhou; MingjieAACI GuangdongAACO CNAAGP Zhou; Mingjie Guangdong CNAANM Ma; WenboAACI GuangdongAACO CNAAGP Ma; Wenbo Guangdong CNAANM Lu; ShuxinAACI GuangdongAACO CNAAGP Lu; Shuxin Guangdong CNAANM Wang; YewenAACI GuangdongAACO CNAAGP Wang; Yewen Guangdong CN - Double core-shell fluorescent materials and preparation methods thereof are provided. The double core-shell fluorescent materials include inner core, inner shell coating the inner core and outer shell coating the said inner shell. The inner core is metal particle and the chemical constitution of the inner shell is silicon dioxide. The outer shell is fluorescent powder represented by the following chemical formula: (R | 01-17-2013 |
20130020534 | SILICATE LUMINESCENT MATERIAL AND PRODUCTION METHOD THEREOF - A silicate luminescent material and the production method thereof are provided. The chemical formula of the silicate luminescent material is Re | 01-24-2013 |
20130034652 | PREPARATION METHOD FOR COPPER OXIDE NANOWIRES - The disclosure provides a preparation method for copper oxide nanowires including following steps: step | 02-07-2013 |
20130048922 | METHOD FOR PREPARING QUANTUM DOTS OF LEAD SELENIDE - Provided is a method for preparing quantum dots of lead selenide, comprising the following steps: 1) mixing selenium powder with octadecene, heating with stirring to dissolve the selenium powder fully, maintaining the temperature, then cooling to room temperature to obtain a stock solution of selenium; 2) mixing lead compound, oleic acid, octadecene and benzophenone together, and dissolving to obtain a stock solution of lead, then maintaining the temperature at 130-190° C.; 3) adding the stock solution of selenium into the stock solution of lead rapidly, and maintaining the temperature at 100-160° C., after cooling, quantum dots of lead selenide are initially prepared; 4) adding the initially prepared quantum dots of lead selenide into a mixture of toluene and methanol, centrifugating and removing the supernatant to obtain a precipitate, then redissolving the precipitate with toluene to obtain a transparent solution of quantum dots of pure lead selenide. The method is safe in operation, simple, good in reproducibility and low in cost. | 02-28-2013 |
20130059994 | PORPHYRIN COPOLYMER CONTAINING QUINOXALINE UNIT, PREPARATION METHOD AND USES THEREOF - A porphyrin copolymer containing quinoxaline unit, preparation method and uses thereof are disclosed. The copolymer has the structural formula (I), wherein R | 03-07-2013 |
20130066043 | Conjugated Polymer Containing Dithienopyrrole-Quinoxaline, Preparation Method and Uses Thereof - A conjugated polymer containing dithienopyrrole-quinoxaline, the preparation method and uses thereof are disclosed. The structural formula of the polymer is general formula (I) as follows: wherein, x+y=1, 003-14-2013 | |
20130069004 | LUMINESCENT MATERIAL AND PREPARATION METHOD THEREOF - The formula of a luminescent material is NaY | 03-21-2013 |
20130075656 | OXIDE STANNATE LUMINESCENT MATERIAL AND PREPARATION METHOD THEREOF - A luminescent material and a preparation method thereof are provided. The said luminescent material is represented by the following chemical formula: Ln | 03-28-2013 |
20130075657 | HALOGEN SILICATE LUMINESCENT MATERIAL AND THE PREPARATION METHOD AND APPLICATION THEREOF - Disclosed is a halogen silicate luminescent material having a chemical structural formula of (N | 03-28-2013 |
20130075661 | SILICATE LUMINOUS MATERIAL AND PREPARATION METHOD THEREOF - Silicate luminous material and preparation method thereof are provided. The luminous material is represented by the following chemical formula: Zn | 03-28-2013 |
20130075662 | YTTRIUM OXIDE PHOSPHOR AND PREPARATION METHOD THEREOF - Fluorescent materials and preparation methods thereof are provided. The fluorescent materials are represented by the general formula: Y | 03-28-2013 |
20130078459 | CONDUCTIVE ADHESIVE MIXTURE, FLUORESCENT SCREEN ANODE PLATE AND THE MANUFACTURING METHODS THEREOF - A conductive adhesive mixture includes a component A which is 0.1% to 28% of the dry weight of the conductive adhesive mixture and a component B which is 72% to 99.9% of the dry weight of the conductive adhesive mixture. The component A is selected from one or more of the group consisting of SnCl | 03-28-2013 |
20130082208 | STRONTIUM CERATE LUMINESCENT MATERIAL AND THE PREPARATION METHOD AND APPLICATION THEREOF - Disclosed is a strontium cerate luminescent material having a chemical formula of Sr | 04-04-2013 |
20130085249 | CONJUGATED POLYMER BASED ON PERYLENE TETRACARBOXYLIC ACID DIIMIDE AND DIBENZOTHIOPHENE AND THE PREPARATION METHOD AND APPLICATION THEREOF - The present invention discloses a conjugated polymer having high photoelectric conversion efficiency based on perylene tetracarboxylic acid diimide and dibenzothiophene having high light absorption and high electron affinity in the visible light region, which has the following general formula: | 04-04-2013 |
20130090446 | POLYMER CONTAINING UNITS OF FLUORENE, ANTHRACENE AND BENZOTHIADIAZOLE, PREPARATION METHOD THEREOF AND APPLICATION THEREOF - A polymer containing units of fluorene, anthracene and benzothiadiazole with the following formula is provided: | 04-11-2013 |
20130092876 | SILICATE LUMINESCENT MATERIALS AND PREPARATION METHODS THEREOF - Silicate luminescent materials and preparation methods thereof are provided. The luminescent materials are represented by the general formula: M | 04-18-2013 |
20130112919 | White Light Emitting Glass-Ceramic and Production Method Thereof - A white light emitting glass-ceramic. The chemical formula of the glass-ceramic is aSiO | 05-09-2013 |
20130119856 | FIELD EMITTING FLAT LIGHT SOURCE AND METHOD FOR MAKING THE SAME - A field emission flat light source and a manufacturing method thereof are provided. The field emission flat light source includes an anode ( | 05-16-2013 |
20130126786 | Color Adjustable Luminescent Powder and Preparation Method Thereof - A color-adjustable luminescent powder is provided, the chemical general formula of which is (Y | 05-23-2013 |
20130165616 | PERYLENETETRACARBOXYLIC DIIMIDE ORGANIC SEMICONDUCTOR MATERIAL AND THE PREPARATION METHOD AND APPLICATION THEREOF - Disclosed is a perylenetetracarboxylic acid diimide organic semiconductive material represented by the following formula (I), which belongs to the field of photoelectric material. In formula (I), n is an integer of 1-100, R | 06-27-2013 |
20130168611 | COMPOSITE ELECTRODE MATERIAL, MANUFACTURING METHOD AND APPLICATION THEREOF - The invention relates to a composite electrode material, a manufacturing method and application thereof. The composite electrode material comprises manganese oxide, graphene and graphite oxide. The manufacturing method includes the following steps, first step: adequately milling graphene then ultrasonic dispersing it into water; second step: dissolving hypermanganate into the water containing graphene and obtaining the aqueous solution containing permanganate ion and graphene; third step: adding polyethylene glycol into the aqueous solution of second step under stirring and obtaining mixed solution; fourth step: stirring the mixed solution until fuchsia completely faded, then filtering, washing and drying precipitate and obtaining the composite electrode material. The composite electrode material has the following advantages: high specific surface area, high conductivity and high specific capacity, and can be applied to supercapacitor electrode material. | 07-04-2013 |
20130168665 | ORGANIC ELECTROLUMINESCENT DEVICE AND MANUFACTURING METHOD THEREOF - An organic electroluminescent device and a method of manufacture thereof are provided. The device comprises a conductive substrate, a hole-injecting layer, a light-emitting layer, and a cathode layer, which are stacked in order. The material of the hole-injecting layer is made of an acid-doped polyaniline. The polyaniline has good conductivity and high stability, and the polyaniline is suitable as the material of hole-injecting layer. The acid-doped polyaniline can significantly improve the solubility and conductivity. As a result of the acid-doped polyaniline as the hole-injecting layer, the light-emitting performance of the organic electroluminescent device is basically same as a traditional OLED, and the cost is lowered. | 07-04-2013 |
20130172508 | FLUORENE-CONTAINING ORGANIC SEMICONDUCTOR MATERIAL, PREPARATION METHOD AND USE THEREOF - A fluorene-containing organic semiconductor material, preparation method and use thereof are provided. Said fluorene-containing organic semiconductor material has the following formula (P), wherein n is an integer of 1-100; m is an integer of 1-20; x and y are positive real number, and x+y=1; R | 07-04-2013 |
20130209794 | LIGHT EMISSION APPARATUS AND MANUFACTURING METHOD THEREOF - A light emission apparatus ( | 08-15-2013 |
20130225782 | ORGANIC SEMICONDUCTOR MATERIAL, PREPARATION METHODS AND USES THEREOF - Disclosed are organic semiconductor material, preparation methods and uses thereof. The organic semiconductor material is shown as the following formula (P), in which R | 08-29-2013 |
20130230709 | POROUS GRAPHENE MATERIAL AND PREPARATION METHOD AND USES AS ELECTRODE MATERIAL THEREOF - A porous graphene material and preparation method thereof are provided. The pore diameter of the porous graphene material is 1 nm-10 μm and its specific surface area is 100 m | 09-05-2013 |
20130234077 | LUMINESCENT MATERIAL OF GALLIUM INDIUM OXIDE AND PREPARATION METHOD THEREOF - A luminescent material of gallium indium oxide and preparation method thereof are provided. The luminescent material of gallium indium oxide has a chemical formula of GaInO | 09-12-2013 |
20130240785 | HALO-BORATE LUMINESCENT MATERIALS AND PREPARATION METHODS THEREOF - Halo-borate luminescent materials and preparation methods thereof are provided. The said luminescent materials are represented by the following general formula: Ca | 09-19-2013 |
20130252138 | PT/GRAPHENE CATALYST, PREPARATION METHOD AND USE THEREOF - A Pt/graphene catalyst comprises graphene as carrier, and Pt loaded on the graphene. The use of graphene as carrier for the catalyst takes advantage of the ion effect and two-dimensional ductility of graphene, which increases the stability of the catalyst. The catalyst is prepared by a reverse micelles system method which provides a micro-environment (i.e. water-in-oil microemulsion), so that the particle size of the resulting nano-particles can be regulated easily and is more uniformly distributed. The use of the catalyst in electrochemostry is also disclosed. | 09-26-2013 |
20130252499 | GRAPHENE DERIVATIVE-CARBON NANOTUBE COMPOSITE MATERIAL AND PREPARATION METHODS THEREOF - A graphene ramification-carbon nanotube composite material and preparation method thereof which includes the following steps: step one, adding the graphene ramification and carbon nanotubes to alcohol dispersant and dispersing for 120-150 minutes by ultrasonic to form a stable suspension; step two, filtrating the suspension, drying the solid substance and cooling it to room temperature to obtain the graphene ramification-carbon nanotube composite material. In the composite material produced by the method, the graphene ramification and carbon nanotube composite form an intermixing and interveining structure to avoid the aggregation and stacking of the graphene ramification, so as to enable complementarities in structure and function of the graphene ramification and carbon nanotubes and improve the conductive property of the composite material. | 09-26-2013 |
20130287677 | PREPARATION METHOD AND USE OF MANGANESE DIOXIDE NANO-ROD - Provided are a preparation method and use of manganese dioxide nano-rod. The preparation method comprises the following steps: mixing manganese salt solution and hydrogen peroxide solution to prepare a mixed solution, and adjusting the pH value of the mixed solution to 4-6; subjecting the mixed solution to hydrothermal reaction at 150-190° C. to produce manganese dioxide precipitate; cooling the product of the hydrothermal reaction, and collecting the manganese dioxide precipitate after solid-liquid separating; washing and drying the manganese dioxide precipitate to obtain the manganese dioxide nano-rod. The method is simple, does not need high temperature calcination, and consumes little energy and oxidant, while the purity of the manganese dioxide is high. The manganese dioxide nano-rod has a high catalytic effect on decomposing hydrogen peroxide. | 10-31-2013 |
20130306951 | ORGANIC ELECTROLUMINESCENT DEVICE AND CONDUCTIVE SUBSTRATE THEREOF - An organic electroluminescent device and a conductive substrate thereof are provided. Said conductive substrate includes a glass substrate, an indium tin oxide (ITO) layer and a metal oxide layer located between said glass substrate and said ITO layer. The refractive index of said metal oxide layer ranges between that of said glass substrate and said ITO layer. Due to the metal oxide layer, the refractive index of which ranges between that of the glass substrate and the ITO layer, is inserted into said conductive substrate, when the light extracts between the ITO/metal oxide layer and the metal oxide layer/glass, the critical angle of total reflection increases compared with that without the inserted metal oxide layer. Most part of light extracts out of the interface after refraction, and only small part of light is totally reflected, thus the light extraction enhances. | 11-21-2013 |
20130313541 | SUBSTRATE, MANUFACTURING METHOD THEREOF, AND ORGANO-ELECTROLUMINESCENT DEVICE USING THE SAME - A substrate, manufacturing method thereof, and an organic electroluminescent device using the same are provided, belonging to photoelectron field. The substrate includes a paper layer ( | 11-28-2013 |
20140021500 | LIGHT EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - A light emitting device and a manufacturing method thereof are provided. The light emitting device ( | 01-23-2014 |
20140090711 | DIFLUORO BENZOTRIAZOLYL SOLAR CELL MATERIAL, PREPARATION METHOD AND USE THEREOF - The present invention relates to solar cells and discloses a difluoro benzotriazolyl solar cell material and preparation method and use thereof. The solar cell material is represented by formula (I), | 04-03-2014 |
20140128558 | AMINE-CONTAINING DIFLUORO BENZOTRIAZOLYL POLYMER, PREPARATION METHOD AND USE THEREOF - The present disclosure relates to the field of solar cells. An amine-containing difluoro benzotriazolyl polymer, preparation method, and use thereof are provided; the polymer has a structure as represented by formula (I), | 05-08-2014 |
20140251430 | POLYMER SOLAR CELL AND METHOD FOR PREPARING SAME - The present invention relates to a polymer solar cell and a method for preparing the same. The cell comprises a conductive anode substrate, a hole buffer layer, an active polymer layer, an electron buffer layer and a cathode laminated in succession, wherein the hole buffer layer comprises a metal compound host and a guest doped in the metal compound host, the metal compound host being one selected from ZnO, ZnS and CdS and the doped gust being one selected from Li2CO3, Li2O, LiF, LiCl and LiBr. By doping a lithium compound with few electrons as a dopant into the metal compound host, a p-type doped layer facilitating the hole transportation is formed in the polymer solar cell. The dopant and the metal compound host have stable properties and would not corrode the conductive anode substrate, facilitating industrial production in the future and effectively improving the energy conversion efficiency of the polymer solar cell. | 09-11-2014 |
20140256894 | DIFLUORO BENZOTRIAZOLYL ORGANIC SEMICONDUCTOR MATERIAL, PREPARATION METHOD AND USE THEREOF - The present invention relates to solar cells and discloses a difluoro benzotriazolyl organic semiconductor material and preparation method and use thereof. The organic semiconductor material is represented by formula (I), | 09-11-2014 |
20140326318 | POLYMER SOLAR CELL DEVICE AND METHOD FOR PREPARING SAME - Provided are a polymer solar cell ( | 11-06-2014 |
20140326986 | POLYMERIC ELECTROLUMINESCENT DEVICE AND METHOD FOR PREPARING SAME - Disclosed are a polymeric electroluminescent device and a method for preparing the same. The polymeric electroluminescent device includes an anode ( | 11-06-2014 |
20140366947 | POLYER CONTAINING THIOPHENE-BENZENE-THIOPHENE UNIT, PREPARATION METHOD THEREFOR AND SOLAR CELL DEVICE - A polymer containing thiophene-benzene-thiophene unit has the following formula: | 12-18-2014 |
20150037655 | SOLID ELECTROLYTE BATTERY - A solid electrolyte battery comprises a positive plate ( | 02-05-2015 |
20150042000 | METHOD FOR PREPARING GRAPHENE PAPER - Provided is a method for preparing graphene paper, comprising the followings steps: placing a clean substrate into a reaction chamber, then introducing protective gas into the reaction chamber to purge out air in the reaction chamber; heating the substrate at a temperature of 800 to 1100° C.; continuously introducing carbonaceous material into the reaction chamber for 100 to 300 min, stopping the introduction of carbonaceous material into the reaction chamber, and at the same time stopping heating of the substrate, then cooling the substrate at a rate of 5 to 30° C./min, finally, stopping the introduction of the protective gas, thereby obtaining graphene paper on the surface of said substrate. | 02-12-2015 |
20150083965 | CORE-SHELL STRUCTURED SILICATE LUMINESCENT MATERIAL AND PREPARATION METHOD THEREFOR - A core-shell structured silicate luminescent material and a preparation method thereof. The molecular formula of the luminescent material is: MLn | 03-26-2015 |