Class / Patent application number | Description | Number of patent applications / Date published |
427529000 | Inorganic oxide containing plating or implanted material | 8 |
20090324845 | METHOD FOR PRODUCING ORIENTATION FILM - A method for producing an orientation film that causes orientation of a liquid crystal includes a process of vapor depositing an inorganic oxide from an oblique direction on a substrate and forming an obliquely vapor-deposited film composed of a plurality of columnar structural bodies tilted at an angle equal to or greater than 20° from a substrate normal and a process of performing ion beam irradiation onto the plurality of columnar structural bodies constituting the obliquely vapor-deposited film. An ion beam irradiation direction in the ion beam irradiation process is in a plane including a vapor deposition direction of the inorganic oxide and the substrate normal and an angle of the ion beam irradiation direction θ | 12-31-2009 |
20100062175 | Method for Manufacturing an Optical Waveguide Layer - A method for manufacturing an optical waveguide layer includes a substrate that is prepared, onto which a first part-layer is first grown. Subsequently, a second part-layer of the waveguide layer, consisting of the same material as the first part-layer, is grown on the first part-layer. The second part-layer is bombarded with ions as it grows. The method permits manufacturing optical waveguide layers on temperature-sensitive polymer substrates. | 03-11-2010 |
20110039035 | TUNABLE VARIABLE EMISSIVITY MATERIALS AND METHODS FOR CONTROLLING THE TEMPERATURE OF SPACECRAFT USING TUNABLE VARIABLE EMISSIVITY MATERIALS - Tunable variable emissivity materials, methods for fabricating tunable variable emissivity materials, and methods for controlling the temperature of a spacecraft using tunable variable emissivity materials have been provided. In an exemplary embodiment, a variable emissivity material has the formula M1 | 02-17-2011 |
20110143048 | Zinc oxide film and method for making - A method for depositing a solid film of ZnO onto a substrate from a reagent solution includes a reservoir of reagent solution maintained at a sufficiently low temperature to inhibit homogeneous reactions within the reagent solution. The reagent solution contains a source of Zn, a source of 0, and multiple ligands to further control solution stability and shelf life. The chilled solution is dispensed through a showerhead onto a substrate. The substrate is positioned in a holder that has a raised structure peripheral to the substrate to retain or impound a controlled volume (or depth) of reagent solution over the exposed surface of the substrate. The reagent solution is periodically or continuously replenished from the showerhead so that only the part of the solution directly adjacent to the substrate is heated. A heater is disposed beneath the substrate and maintains the substrate at an elevated temperature at which the deposition of a desired solid phase from the reagent solution may be initiated. The showerhead may also dispense excess chilled reagent solution to cool various components within the apparatus and minimize nucleation of solids in areas other than on the substrate. The deposited film may be annealed after deposition and may be doped to enhance selected characteristics. The ZnO films made by the process have distinctive electrical and optical properties and are suitable for a variety of electronic and optical devices. | 06-16-2011 |
20110311732 | THIN FILM DEPOSITION METHOD - The subject of the invention is a heat treatment process by flame treatment of at least one thin film deposited on a glass substrate ( | 12-22-2011 |
20120021137 | CUTTING TOOL - A method for manufacturing a cutting tool includes the steps of providing a body of cermet or cemented carbide, having a cutting edge with an edge radius R | 01-26-2012 |
20120237691 | METHOD OF FORMING METAL OXIDE FILM - Provided is a method of forming a metal oxide film. In the method, a metal oxide film is formed on a substrate using a coating solution including a metal precursor, and electrical conductivity of the metal oxide film is controlled. | 09-20-2012 |
20150147481 | METHOD FOR MAKING A SCISSORING-TYPE CURRENT-PERPENDICULAR-TO-THE-PLANE (CPP) MAGNETORESISTIVE SENSOR WITH EXCHANGE-COUPLED SOFT SIDE SHIELDS - A method for making a scissoring type current-perpendicular-to-the-plane magnetoresistive sensor with exchange-coupled soft side shields uses oblique angle ion milling to remove unwanted material from the side edges of the upper free layer. All of the layers making up the sensor stack are deposited as full films. The sensor stack is then ion milled to define the sensor side edges. The side regions are then refilled by deposition of an insulating layer. Next, the lower soft magnetic layers of the exchange-coupled side shields are deposited, which also coats the insulating layer up to and past the side edges of the upper free layer. The soft magnetic material adjacent the side edges of the upper free layer is removed by oblique angle ion beam milling. The material for the antiparallel-coupling (APC) layers is deposited, followed by deposition of the material for the upper soft magnetic layers of the exchange-coupled side shields. | 05-28-2015 |