Class / Patent application number | Description | Number of patent applications / Date published |
106287170 | Aluminum compound containing | 17 |
20080314288 | Mixture For Doping Semiconductors - A doping mixture for coating semiconductor substrates which are then subjected to a high temperature treatment to form a doped layer includes at least one p- or n-dopant, water and a mixture of two or more surfactants. At least one of the surfactants is nonionic. Also provided are a method for producing such a doping mixture and the use thereof. | 12-25-2008 |
20090120326 | CLAY DISPERSION, METHOD FOR MANUFACTURING THE SAME AND CLAY THIN FILM - A clay dispersion, wherein an organically modified clay is dispersed in a polar organic solvent, and the clay dispersion is obtained by: dispersing a swelling clay in a liquid which includes water as a main component; adding organic onium ions to the liquid to cause ion-exchange between the organic onium ions and hydrophilic cations existing on the surface of the swelling clay to obtain an organically modified clay; removing the ion-exchanged hydrophilic cation to obtain the organically modified clay which is in a condition that water exists in the clay; and adding the organically modified clay from which the ion-exchanged hydrophilic cation is removed to an polar organic solvent. | 05-14-2009 |
20110094417 | HYDROPHOBIC SELF-CLEANING COATING COMPOSITIONS - Coating compositions of the present invention comprise hydrophobic particles, an alcohol, a solvent, and an effective amount of water such that coatings formed therefrom are hydrophobic. The hydrophobic particles may comprise a metal oxide, such as silica (SiO | 04-28-2011 |
20120097071 | MESOPOROUS AMORPHOUS OXIDE OF TITANIUM - This invention pertains to a mesoporous amorphous oxide of titanium and processes of making a mesoporous amorphous oxide of titanium. This is not the same as Title | 04-26-2012 |
20120125234 | Method for Producing Coatings Having Anti-Reflection Properties - A method for producing coatings having anti-reflection properties uses a compound comprising at least one type of nanoparticle and at least one solvent. The compound is applied to a substrate and treated at various temperatures. Anti-reflection coatings can be obtained on temperature-sensitive materials such as PMMA or PET. | 05-24-2012 |
20120145038 | CLAY DISPERSION LIQUID, AND METHOD FOR PRODUCING THE SAME, CLAY FILM, AND METHOD FOR PRODUCING THE SAME, AND TRANSPARENT MATERIAL - An object of the present invention is to provide a clay dispersion liquid which is capable of obtaining a clay film which realizes compatibility between heat resistance and water resistance, and a method for producing the same; a clay film and a transparent material, produced from the lay dispersion. The clay dispersion liquid of the present invention contains a liquid containing water as a main component, and a tetraphenylphosphonium-modified clay. The clay film and the transparent material of the present invention are obtained by applying the clay dispersion liquid on a surface of a supporting body to form a film. | 06-14-2012 |
20130036942 | COATING BASED ON NiAl2O4 IN SPINEL STRUCTURE - The invention relates to a coating that comprises at least one compound of oxygen and/or nitrogen with at least two metal materials, said compound being present at least partly in spinel structure. The invention also relates to a method for coating and to a coated substrate. | 02-14-2013 |
20130055926 | RECYCLING METHOD OF WASTE SCAGLIOLA - Provided is a method of recycling waste scagliola, which includes a pre-treating step, a pyrolysing step, a resin recycling step, and a filler recycling step. The pre-treating step includes storing the waste scagliola of a dry dust type, drying and storing the waste scagliola of a wet dust type, or pulverizing and storing the waste scagliola of a scrap type. The pyrolysing step includes receiving and heating a recycling raw material stored in the dust or granular type in the pre-treating step, and decomposing the raw material into a resin mixed gas and a filler mixed solid material. The resin recycling step includes receiving the resin mixed gas decomposed in the pyrolysing step, and recycling a resin from which impurities are removed by a purifying process. The filler recycling step includes receiving the filler mixed solid material decomposed in the pyrolysing step, and recycling a filler from which impurities are removed by a firing process. Thereby, the resin and filler are more effectively recycled from the waste scagliola, so that it is possible to prevent environmental pollution caused by disposing the waste scagliola, and to enhance an effect of reducing resource waste according to resource recycling. | 03-07-2013 |
20130068137 | Method for Producing Coatings Having Anti-Reflection Properties - A method for producing coatings having anti-reflection properties uses a compound comprising at least one type of nanoparticle and at least one solvent. The compound is applied to a substrate and treated at various temperatures. Anti-reflection coatings can be obtained on temperature-sensitive materials such as PMMA or PET. | 03-21-2013 |
20130152822 | METHOD OF MODIFYING SURFACE OF POWDER, COATING MATERIAL, METHOD OF MANUFACTURING MAGNETIC RECORDING MEDIUM, AND MAGNETIC RECORDING MEDIUM MANUFACTURED BY THE SAME - An aspect of the present invention relates to a method of modifying a surface of a powder, comprising mixing a powder with a compound denoted by general formula (I): | 06-20-2013 |
20130220178 | Re-Dispersible Metal Oxide Nanoparticles and Method of Making Same - The current invention relates to a method of making metal oxide nanoparticles comprising the reaction of—at least one metal oxide precursor (P) containing at least one metal (M) with—at least one monofunctional alcohol (A) wherein the hydroxy group is bound to a secondary, tertiary or alpha-unsaturated carbon atom—in the presence of at least one aliphatic compound (F) according to the formula Y | 08-29-2013 |
20140000481 | ALUMINIUM OXIDE PASTES AND PROCESS FOR THE USE THEREOF | 01-02-2014 |
20140251183 | TAILINGS STREAM TREATMENT PROCESSES - A process for treating a tailings stream comprises (a) contacting (1) a gelling agent and (2) an activator with said tailings stream to produce a gel; (b)entrapping solids including sand and clay, and other solid particles with the gel; and (c) allowing the gel to strengthen and solidify to produce a trafficable deposit; wherein the tailings stream comprises water and solids, which solids comprise sand, clay and other solids particles, and wherein 5% by volume to 100% by volume of the solids have a particle size less than 0.05 mm, based on the total volume of the solids. The process may further comprises spreading the gel produced in step (a) or the trafficable deposit produced in step (c) over a surface. The present invention is particularly useful to treat tailings streams produced in processes to extract bitumen from oil sands ores. | 09-11-2014 |
20140318414 | NANO-METAL SOLUTION AND NANO-METAL COMPLEX GRAINS - A nano-metal solution, nano-metal complex grains, and a manufacturing method of a metal film are provided. The nano-metal solution includes metal grains having an amount of 0.1˜30 wt %, metallic-organic self-decomposition molecules having an amount of 0.1˜50 wt % and having formula 1, and a solvent having an amount of 20˜99.8 wt %: | 10-30-2014 |
20150033986 | INORGANIC FIBROUS REGULARLY SHAPED ARTICLE AND METHOD FOR ADJUSTING HARDNESS THEREOF - An inorganic fibrous shaped product including organic fiber that includes at least biosoluble inorganic fiber having the following composition and an organic thickener, and including no colloidal silica: [Composition] SiO | 02-05-2015 |
20160024328 | SLURRY FOR THERMAL SPRAYING, THERMAL SPRAY COATING, AND METHOD FOR FORMING THERMAL SPRAY COATING - A thermal spray slurry of the present invention contains ceramic particles in a content of 10% by mass or more and 85% by mass or less, and has a viscosity of 3,000 mPa·s or less. The ceramic particles have an average particle size of, for example, 1 nm or more and 5 μm or less. The thermal spray slurry may further contain a dispersant. The thermal spray slurry may further contain a viscosity modifier. The thermal spray slurry may further contain a flocculant. | 01-28-2016 |
20160177063 | Seed Scavenging Technologies for Waterborne Paint Formulations | 06-23-2016 |