| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 427069000 | Vapor deposition | 16 |
| 20090098280 | VAPOR DEPOSITION APPARATUS AND METHOD OF VAPOR DEPOSITION MAKING USE THEREOF - A vapor deposition apparatus comprises as a vaporization assembly a container in form of a boat or crucible and a support for vapor depositing phosphor or scintillator material thereupon from raw materials present in said container, wherein said boat or crucible internally comprises an assembly of two perforated covers or lids, one of which is an outer lid (also called first lid) more close to the said support and the other cover is an inner lid (also called second lid) more close to the bottom of the said crucible; and wherein perforations present in said outer lid represent a total surface exceeding the total surface of perforations present in said inner lid more close to the bottom of the said crucible and wherein in said vapor deposition apparatus the said raw materials or the bottom of the said crucible cannot be directly seen through said perforations from any point of said support; thereby providing the manufacturing of a radiation image storage phosphor layer on a support or substrate, by a vapor depositing step of raw materials of an alkali metal halide salt and a lanthanide dopant salt or a combination thereof in order to ensure vapor deposition of a binderless needle-shaped storage phosphor layer in the said vapor deposition apparatus, so that a ratio between the total surface of perforations in said inner lid more close to the bottom of crucible and the total surface of perforations in said outer lid more close to the support is not more than 1.0. | 04-16-2009 |
| 20090110807 | METHOD FOR COATING AND APPARATUS - The invention relates to thin-film generating. A method is provided for coating a substrate with an evaporation material, the evaporation material comprising one or more metals chosen from the group consisting of light metals; noble metals; poor metals; alkaline earth metals; transition metals from the VI subgroup or VIII subgroup; and lanthanides, with the steps of providing the evaporation material, a portion of the evaporation material being oxidized; providing a reducing agent different from the evaporation material; heating the evaporation material and the reducing agent; wherein the evaporation material and the reducing agent are chosen such that due to the presence of the reducing agent the portion of the oxidized evaporation material is reduced and/or that the evaporation temperature of the oxide of the reducing agent is lower than or equal to the evaporation temperature of the evaporation material. | 04-30-2009 |
| 20090162535 | METHOD OF FORMING A PHOSPHOR OR SCINTILLATOR MATERIAL AND VAPOR DEPOSITION APPARATUS USED THEREFOR - In a method of preparing a storage phosphor or a scintillator layer on a support by vapor depositing from a crucible unit in a vapor deposition apparatus, while heating as phosphor or scintillator precursor raw materials a matrix component and an activator component or a precursor component thereof, said crucible unit comprises a bottom and surrounding side walls as a container for the said phosphor or scintillator precursor raw materials present in said crucible, said crucible is provided with an internal lid with perforations ( | 06-25-2009 |
| 20090285978 | Electrochromic devices having improved ion conducting layers - An improved ion conductor layer for use in electrochromic devices and other applications is disclosed. The improved ion-conductor layer is comprised of at least two ion transport layers and a buffer layer, wherein the at least two ion transport layers and the buffer layer alternate within the ion conductor layer such that the ion transport layers are in communication with a first and a second electrode. Electrochromic devices utilizing such an improved ion conductor layer color more deeply by virtue of the increased voltage developed across the ion conductor layer prior to electronic breakdown while reducing the amount of electronic leakage. Also disclosed are methods of making electrochromic devices incorporating the improved ion conductor layer disclosed herein and methods of making ion conductors for use in other applications. | 11-19-2009 |
| 20100021624 | Film Formation Apparatus and Method for Forming a Film - An apparatus for forming a film having high uniformity in its film thickness distribution is provided. An evaporation source is used in which an evaporation cell, or a plurality of evaporation cells, having a longitudinal direction is formed, and by moving the evaporation source in a direction perpendicular to the longitudinal direction of the evaporation source, a thin film is deposited on a substrate. By making the evaporation source longer, the uniformity of the film thickness distribution in the longitudinal direction is increased. The evaporation source is moved, film formation is performed over the entire substrate, and therefore the uniformity of the film thickness distribution over the entire substrate can be increased. | 01-28-2010 |
| 20100092658 | COATING OF MASKED SUBSTRATES - The present invention refers to a coating installation and a corresponding method or coating a substrate comprising the steps of:
| 04-15-2010 |
| 20100129530 | METHOD FOR MANUFACTURING FLAT PANEL DISPLAY - A method for manufacturing a flat panel display ( | 05-27-2010 |
| 20100136221 | METHOD OF FABRICATING PIXEL STRUCTURE - A method of fabricating a pixel structure for use in an electroluminescent panel includes the following steps. A substrate is provided. Three shadow masks having a plurality of first, second, and third openings patterned in an array of T shaped are respectively provided, and three evaporation processes using the three shadow masks are subsequently performed to form a plurality of first subpixel units, second subpixel units and third subpixel units respectively. One first subpixel of the first subpixel unit, one second subpixel of the second subpixel unit adjacent to the first subpixel unit, and one third subpixel of the third subpixel unit adjacent to the first subpixel unit form a display pixel unit. | 06-03-2010 |
| 20100159125 | METHOD AND APPARATUS FOR DEPOSITING MIXED LAYERS - The present invention refers to a method as well as an apparatus for depositing a layer at a substrate, the layer containing at least two components co-deposited by at least two evaporation sources, wherein the mixture of the components regarding the content of the components is set by tilting the evaporation sources to predetermined angle and/or by positioning the evaporation sources at a predetermined distance with respect to the substrate and/or wherein evaporation plumes of the evaporation sources are arranged such that the maxima of the evaporation plumes are separated locally with respect to the substrate. | 06-24-2010 |
| 20100316791 | SUPERCRITICAL VAPOR DEPOSITION METHOD AND SYSTEM - A supercritical vapor deposition method includes the following steps. Firstly, a fluid is provided. Then, the pressure of the fluid is increased to a supercritical phase such that the fluid becomes a supercritical solvent. Then, a coating substance is dissolved in the supercritical solvent, thereby preparing a solubility equilibrium supercritical solution. Then, a substrate is provided on a heating base, which is immersed in the solubility equilibrium supercritical solution. Afterwards, the heating base is heated to have the solubility equilibrium supercritical solution generate a precipitation driving force, so that the coating substance is precipitated out and deposited on the substrate as a film. | 12-16-2010 |
| 20110052795 | THIN FILM DEPOSITION APPARATUS AND METHOD OF MANUFACTURING ORGANIC LIGHT-EMITTING DISPLAY DEVICE BY USING THE SAME - A thin film deposition apparatus includes an electrostatic chuck that fixes a substrate on which a deposition material is to be deposited; a blocking member disposed at a side of the substrate fixed on the electrostatic chuck and covering at least a portion of the substrate; and a deposition unit including a chamber and a thin film deposition assembly disposed in the chamber and to deposit a thin film on the substrate fixed on the electrostatic chuck. | 03-03-2011 |
| 20130224369 | METHOD FOR MAKING ANODE ACTIVE MATERIAL - A method for making an anode active material is described. The anode active material includes a phosphorus composite material. In the method, a solid-state red phosphorus and a porous conductive carbon material are provided. The solid-state red phosphorus and the porous conductive carbon material are spaced disposed in a vessel and the vessel is sealed. The solid-state red phosphorus is sublimed by heating the vessel to make the sublimed red phosphorus diffused in the porous conductive carbon material. The sublimed red phosphorus is condensed. The condensed red phosphorus adsorbs in the porous conductive carbon material to form the phosphorus composite material. | 08-29-2013 |
| 20160078988 | MAGNET PLATE ASSEMBLY, DEPOSITION APPARATUS INCLUDING THE SAME, AND DEPOSITION METHOD USING THE SAME - A magnet plate assembly includes: a magnetic body; a magnet support which supports the magnetic body and has a first protrusion; a guide part which supports the magnet support and has a first opening through which the first protrusion passes; a first frame formed extending in a width direction of the magnet support, to accommodate the first protrusion; a first mother block which is disposed adjacent to one end side of the guide part, is contactable with one end of the guide part, and moves the guide part in a length direction; and a second mother block which is disposed adjacent to another end side of the guide part, is contactable with the other end of the guide part, and moves or fixes the guide part, wherein the first protrusion is formed slidable in the width direction on the first frame. | 03-17-2016 |
| 427070000 | Nonmetallic coating formed by vapor deposition | 3 |
| 20080268137 | Film Formation Method and Method for Manufacturing Light-Emitting Device - A binder material layer including an evaporation material is formed over a main surface of an evaporation source substrate, a substrate on which a film is formed is placed so that the binder material layer and a main surface thereof face each other, and heat treatment is performed on a rear surface of the evaporation source substrate so that the evaporation material in the binder material layer is heated to be subjected to sublimation or the like, whereby a layer of the evaporation material is formed on the substrate on which a film is formed. When a low molecular material is used for the evaporation material and a high molecular material is used for the binder material, the viscosity can be easily adjusted, and thus, film formation is possible with higher throughput than conventional film formation. | 10-30-2008 |
| 20080299296 | SUCCESSIVE VAPOUR DEPOSITION SYSTEM, VAPOUR DEPOSITION SYSTEM, AND VAPOUR DEPOSITION PROCESS - A successive vapor deposition system in which a vapor deposition material is heated, vaporized in a vacuum, and deposited onto a vapor deposition area of a substrate, includes a conveyer which conveys the substrate in a conveying direction parallel to a plane on which the substrate lies, wherein the vapor deposition area faces downward and is exposed through the underside of the conveyer; a plurality of vapor deposition chambers aligned in the conveying direction, each the vapor deposition chamber including a space through which the substrate is conveyed; at least one container positioned in each of the plurality of vapor deposition chambers below the plane on which the substrate lies, and containing the vapor deposition material, wherein a width of the container covers the vapor deposition area in a direction perpendicular to the conveying direction; and a heating medium provided for the container. | 12-04-2008 |
| 20090074952 | Fabrication System and a Fabrication Method of a Light Emitting Device - An evaporation apparatus with high utilization efficiency for EL materials and excellent film uniformity is provided. The invention is an evaporation apparatus having a movable evaporation source and a substrate rotating unit, in which the space between an evaporation source holder and a workpiece (substrate) is narrowed to 30 cm or below, preferably 20 cm, more preferably 5 to 15 cm, to improve the utilization efficiency for EL materials. In evaporation, the evaporation source holder is moved in the X-direction or the Y-direction, and the workpiece (substrate) is rotated for deposition. Therefore, film uniformity is improved. | 03-19-2009 |
