| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 427443200 | Inorganic base | 8 |
| 20080213495 | Mother glass composition for gradient-index lens, gradient-index lens, manufacturing method thereof, optical product, and optical device - The present invention provides a mother glass composition for gradient-index lens, from which a lead-free Li-based gradient-index lens that is excellent in weather resistance, in particular weather resistance in the presence of water, can be manufactured. The mother glass composition includes the following components, indicated by mol %: 40≦SiO | 09-04-2008 |
| 20080292805 | METHOD FOR MANUFACTURING STAMPER, METHOD FOR MANUFACTURING NANOHOLE STRUCTURE, AND METHOD FOR MANUFACTURING MAGNETIC RECORDING MEDIUM - According to an aspect of an embodiment, a method for manufacturing a stamper for duplicating a pit pattern on a substrate includes forming on another substrate, a layer of a material insoluble to a liquid of a suspension of particles in a pattern having a plurality of land portions and a plurality of groove portions between the land portions, and dipping the another substrate having the layer of the material having the pattern in the liquid of the suspension of the particles so that the particles are adhered to the groove portions. The-method further includes forming a mold having a plurality of pits corresponding to the particles by transferring the shapes of the particles on the another substrate to the mold, and forming a stamper having a plurality of protrusions corresponding to the pits by transferring the shapes of the pits of the molds to the stamper. | 11-27-2008 |
| 20110086176 | CARBON NANOTUBE HAVING IMPROVED CONDUCTIVITY, PROCESS OF PREPARING THE SAME, AND ELECTRODE COMPRISING THE CARBON NANOTUBE - Provided are a method of doping carbon nanotubes, p-doped carbon nanotubes prepared using the method, and an electrode, a display device or a solar cell including the carbon nanotubes. Particularly, a method of doping carbon nanotubes having improved conductivity by reforming the carbon nanotubes using an oxidizer, doped carbon nanotubes prepared using the method, and an electrode, a display device or a solar cell including the carbon nanotubes are provided | 04-14-2011 |
| 20120321810 | METHOD FOR DEPOSITING A LAYER OF ORGANIZED PARTICLES ON A SUBSTRATE - A method for depositing a layer of organized particles on a substrate. This method includes the steps of: controlled stirring of a bath including at least the particles and a mixture of solvents formed of at least 50% by volume of ethanol; dipping of the substrate into the stirred bath; and removal of said substrate from the stirred bath. | 12-20-2012 |
| 20130230658 | IMPREGNATING DOSING DEVICE - This is a device for impregnating a cleaning cloth, making available on a basin a pre-fixed amount of impregnation liquid, after having extracted it from a bucket by means of a pump. | 09-05-2013 |
| 20140004269 | Treatment of Anodized Aluminum Components | 01-02-2014 |
| 20140170329 | LIQUID GLAZE DIPPING APPARATUS AND METHODS FOR USING THE SAME - A dipping apparatus is provided having a clamp pad and a support pad configured to clamp the external and internal surfaces of the base of a ceramic object to assist in dipping the ceramic object into a liquid glaze to achieve a blemish-free coating. | 06-19-2014 |
| 20140242289 | METHOD FOR FORMING TITANIUM OXIDE FILM ON SURFACE OF MOLDED PRODUCT COMPOSED OF GLASS - In a method for forming a titanium oxide film, with which a titanium oxide film can be formed on a surface of a glass base material, a surface of a molded product composed of a glass is irradiated with ultraviolet light in an air atmosphere in step 0. In Step 1, the base material is immersed in a mixed liquid of an aqueous solution of titanium chloride and a nitrite ion-containing aqueous solution. As a result of the immersion, a titanium oxide film is grown by repeating oxidation of a titanium ion, binding of the oxidized titanium ion to oxygen, and binding of the bound oxygen to a titanium ion at the cleaved end of the glass molded product. In Step 2, the base material is pulled out from the mixed liquid, and then washed to stop the reaction. The film thickness can be controlled by controlling the immersion time. | 08-28-2014 |
