| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 502172000 | Alcohol, phenol, ether, aldehyde or ketone | 13 |
| 20090137384 | HYDROPHOBIC OIL ADSORBENT MATERIAL AND PROCESS FOR PRODUCTION AND USE - The subject of the invention is a hydrophobic, oil-adsorbent material separating oil from water as well as methods for production and application of said material, suitable for collecting and removing hydrocarbons and other contaminations of oil content from solid surface and water as well. | 05-28-2009 |
| 20090176646 | CATALYST SUPPORT USING CELLULOSE FIBERS, PREPARATION METHOD THEREOF, SUPPORTED CATALYST COMPRISING NANO-METAL CATALYST SUPPORTED ON CARBON NANOTUBES DIRECTLY GROWN ON SURFACE OF THE CATALYST SUPPORT, AND METHOD OF PREPARING THE SUPPORTED CATALYST - Disclosed are a porous catalyst support for maximizing an increase in catalytic reaction activity and a method of preparing a nano-metal-supported catalyst using the same. The method includes splitting cellulose fibers, thus preparing a catalyst support, growing carbon nanotubes on the prepared catalyst support, and supporting a nano-metal catalyst on the catalyst support having the carbon nanotubes grown thereon. A nano-metal-supported catalyst including the cellulose catalyst support and the use of cellulose fibers as the catalyst support for supporting the nano-metal catalyst are also provided. When porous cellulose fibers having a plurality of micropores are used as material for the catalyst support for supporting a nano-metal catalyst, the preparation cost of the catalyst is reduced and the increase in catalytic reaction activity is maximized even with the use of a small amount thereof in various catalytic reactions. A technique for directly growing carbon nanotubes is applied, thereby controlling the electrical conductivity of the catalyst and increasing the surface area, and further, an expensive nano-metal catalyst component can be easily collected after the reaction, resulting in eco-friendly properties. | 07-09-2009 |
| 20090325787 | NANOCOMPOSITE PARTICLE AND PROCESS OF PREPARING THE SAME - A nanocomposite particle, its use as a catalyst, and a method of making it are disclosed. The nanocomposite particle comprises titanium dioxide nanoparticles, metal oxide nanoparticles, and a surface stabilizer. The metal oxide nanoparticles are formed hydrothermally in the presence of the titanium dioxide nanoparticles. The nanocomposite particle is an effective catalyst support, particularly for DeNO | 12-31-2009 |
| 20100130348 | PHOTOCATALYTIC COMPOSITION FOR ANTI-REFLECTION AND THE GLASS SUBSTRATE COATED WITH THE COMPOSITION - Disclosed herein is an antireflective photocatalyst composition including a titanium dioxide-based photocatalyst, a binder, water, and alcohol, and a substrate using the composition. The antireflective photocatalyst composition is advantageous in that, when it is applied to a glass substrate, such as a glass antireflective film for a solar cell or a glass illuminator, it can prevent incident light energy from scattering and improve optical transmissivity, and in that it decomposes pollutants due to the dual action of harmful gas decomposition and self-purification, which are specific characteristics of a photocatalyst. | 05-27-2010 |
| 20100167917 | METHOD FOR PRODUCING A HYDROGEN STORAGE MATERIAL - Method for producing a hydrogen storage material that includes a metal hydride and a non-hydrogenated material and that is doped with a metal as a catalyst, includes; mixing a catalyst precursor, which includes the metal, with the non-hydrogenated material so as to provide a first mixture; agitating the first mixture; thermally treating the first mixture so as to form a composite of the non-hydrogenated material and the metal; mixing the composite with the metal hydride so as to provide a second mixture; and grinding the second mixture so as to provide the hydrogen storage material. | 07-01-2010 |
| 20100173770 | METHOD FOR PRODUCING CATALYSTS AND CATALYSTS THEREOF - The invention relates to a process to produce catalysts by powder injection moulding and the catalysts thereof, wherein the catalysts are made by preparing a ceramic formulation with temperature controlled rheological properties comprising catalytic components, heating the powder formulation up to at least the fluid state transition temperature, shaping a sample by injecting the fluid powder formulation into an injection mould followed by cooling the injected powder formulation below the fluid state transition temperature, de-binding the shaped sample, and sintering the shaped sample to form a ceramic catalyst. Alternatively the ceramic structure may be formed initially followed by a coating of the ceramic structure by one or more catalytic compounds. | 07-08-2010 |
| 20100184589 | HONEYCOMB CATALYTIC ARTICLE - There is provided a honeycomb structure where a catalyst is loaded on surfaces of inner pores of the surface layer and on a surface of the surface layer; a relation between a catalyst area proportion A of the catalyst to a gap area proportion B of a gap in a cross-section of the surface layer on the inlet side is 1% | 07-22-2010 |
| 20100298123 | PROCESS OF MAKING METAL CHALCOGENIDE PARTICLES - There is disclosed a process of making metal chalcogenide particles. The process comprises the steps of reacting a metal salt solution with a precipitant solution under conditions to form metal chalcogenide particles and by-product thereof, coating the metal chalcogenide particles with a surfactant; and separating the surfactant coated chalcogenide particles from the by-product to obtain metal chalcogenide particles substantially free of by-product. | 11-25-2010 |
| 20110143927 | Titania-containing extrudate - An extrudate comprising titania, a carboxyalkyl cellulose, and a hydroxyalkyl cellulose is disclosed. The extrudates have a smooth outer surface when they exit the extruder. The extrusion processibility is improved. | 06-16-2011 |
| 20110245070 | Catalyst Components for the Polymerization of Olefins and Catalysts Therefrom Obtained - Catalyst component comprising Mg, Ti, Hf, a halogen and, optionally, —OR groups where R is a C1-C20 hydrocarbon group, characterized in that (a) the Mg atoms are present in an amount higher than 7% based on the total weight of the said catalyst component, (b) the amount of Mg, Ti, and Hf atoms is such that the Mg/Ti molar ratio ranges from 3 to 25 and the Hf/Ti molar ratio is lower than 1.5 and (c) when —OR groups are present their amount is such that the —OR/Ti molar ratio is lower than 2. | 10-06-2011 |
| 20130090235 | ADDITIVES COMPRISING CELLULOSE ETHERS FOR CERAMICS EXTRUSION - The present invention relates to extrudable ceramic masses and other masses which set as a result of baking or sintering, which masses comprise specific additives based on water-soluble cellulose ethers, an extrusion process, the extrudates and their use. | 04-11-2013 |
| 20130210616 | LIQUID COMBUSTION CATALYST COMPOSITION COMPRISING AN IONIZED METAL COMPOUND - Provided is a liquid combustion catalyst composition comprising an ionized metal compound, and more particularly, to a liquid combustion catalyst composition comprising an ionized metal compound, in which the ionic metal compound is added to fuel burning in a combustion engine to quickly achieve a chemical thermal equilibrium condition required for the combustion of fuel such as hydrocarbon fuel, fossil fuel and biomass, and to optimize the amount of air which contains oxygen required for the equilibrium condition in terms of chemical equivalence, thereby improving thermal efficiency and the efficiency of the combustion engine so that fuel consumption for a heat source can be reduced, and optimizing the combustion performed by the combustion device by controlling the generation of sludge, clinker and fouling which may be generated due to an inorganic substance so that a combustion rate per unit area and the productivity of the combustion device can be improved. Provided is a liquid combustion catalyst composition comprising an ionized metal compound or a complex ionic combustion catalyst composition which comprises an ionized metal compound and which has a hydrate form dried at 100° C. or less, wherein the composition is characterized in that one or more metal compounds selected from Mg, Ca, Mn, and Zn are dissolved in nitric acid or ammonia water to form one or more metal ions selected from Mg, Ca, Mn, and Zn. | 08-15-2013 |
| 20140162868 | IRON-NICKEL CORE-SHELL NANOPARTICLES - Core-shell nanoparticles and techniques for their synthesis are described herein. Generally, the nanoparticles comprise a core that includes iron and at least one shell disposed about the core that includes nickel. In certain versions, the nanoparticles are free of precious metals. | 06-12-2014 |
