Patent application number | Description | Published |
20080307991 | Method for producing metal thin film - A method for producing a metal thin film on a substrate includes: a step of applying an ink to a flat blanket; a first transfer step of bringing the first blanket and a letterpress having a predetermined pattern of projections into contact by a pressure compression while the flat blanked and the letterpress being disposed opposite each other, to selectively transfer a portion of the ink on the flat blanket corresponding to the projections to the letterpress; a second transfer step of bringing the flat blanket obtained after the first transfer step and the substrate into contact by pressure compression while the flat blanket and the substrate being disposed opposite each other, to transfer the ink remaining on the flat blanket to the substrate; and a step of subjecting the substrate obtained after the second transfer step to electroless plating to deposit a metal thin film on the substrate. | 12-18-2008 |
20090109355 | Polarizer, method of manufacturing polarizer and liquid crystal projector - A polarizer capable of being manufactured in simple steps, and a method of manufacturing the polarizer, as well as a liquid crystal projector are provided. The polarizer includes a substrate having light permeability, and a plurality of linear projections being arranged on the substrate and extending along one direction within a plane thereof. Each of the linear projections having a base layer and a plating layer in the named order from the substrate, the base layer containing a catalyst material for electroless plating process, and the plating layer being deposited by using the base layer as a catalyst. | 04-30-2009 |
20090274908 | PREPARATION PROCESS OF MICROBEADS, AND MICROBEADS - The present application provides a process for the preparation of microbeads, including the steps of: patterning a thin film, which has been formed on a substrate, into microbead regions of at least one predetermined shape by photolithography; immobilizing a predetermined substance on the thus-patterned microbead regions; and stripping off, from the substrate, the thus-patterned microbead regions with the substance immobilized thereon. | 11-05-2009 |
20090305061 | ELECTRODE AND METHOD FOR FORMING THE SAME AND SEMICONDUCTOR DEVICE - An electrode includes a substrate, a contact layer, and a metal layer. The substrate has activated Si on the surface thereof. The contact layer includes a thin film (organic molecular film) made of an organic molecule having a first end with one of a CH group, a CH | 12-10-2009 |
20100173553 | PRINTING METHOD AND DISPLAY APPARATUS MANUFACTURING METHOD - A printing method including the steps of, forming a transfer layer on a blanket, forming a groove portion on the transfer layer by pressing a protrusion portion of a mold member including the protrusion portion having a predetermined pattern against the transfer layer, the groove portion having the pattern corresponding to the protrusion portion, forming a print pattern layer on the blanket by causing the transfer layer on the blanket and a relief printing plate including a convex portion having a pattern corresponding to a reverse pattern of the protrusion portion to face each other and pressure-contacting them so that a portion on the transfer layer corresponding to the convex portion is selectively eliminated, and transferring the print pattern layer onto a substrate to be printed by causing the print pattern layer on the blanket and the substrate to be printed to face each other and pressure-contacting them. | 07-08-2010 |
20100220270 | METHOD FOR FORMING REFLECTION ELECTRODE, DRIVE SUBSTRATE, AND DISPLAY DEVICE - A method for forming a reflection electrode is provided which includes the steps of: forming a first catalytic layer in a first region of an electrode forming region of a substrate; forming a first plating layer on the first catalytic layer by performing a first electroless plating treatment; forming a second catalytic layer at least in a region (second region) of the electrode forming region other than the first region; and forming a second plating layer on the second catalytic layer by performing a second electroless plating treatment, so that the reflection electrode is formed to have a concave-convex surface. | 09-02-2010 |
20100237380 | Method of manufacturing electronic device and display - A method of manufacturing an electronic device includes the steps of: forming a sacrifice layer made of at least one of an alkali metal oxide and an alkali earth metal oxide in a part of a first substrate; forming a supporting layer covering the sacrifice layer; forming an electronic device on the sacrifice layer with the supporting layer in between; exposing at least a part of a side face of the sacrifice layer by removing a part of the supporting layer; forming a support body between the electronic device and the supporting layer, and a surface of the first substrate; removing the sacrifice layer; breaking the support body and transferring the electronic device onto a second substrate by bringing the electronic device into close contact with an adhesion layer provided on a surface of the second substrate; removing a fragment of the support body belonging to the electronic device; removing at least an exposed region in the adhesion layer not covered with the electronic device; and forming a fixing layer on a surface of the electronic device and the surface of the second substrate. | 09-23-2010 |
20100320453 | THIN-FILM TRANSISTOR AND METHOD FOR PRODUCING THE SAME - A thin-film transistor includes a gate electrode disposed on a substrate, a semiconductor layer formed of an organic semiconductor and constituting a channel region, a gate insulating film disposed between the gate electrode and the semiconductor layer, and a pair of source/drain electrodes electrically connected to the semiconductor layer. The semiconductor layer includes a protruding portion protruding toward the substrate from an inner region of a surface, opposite the substrate, of the semiconductor layer excluding a region near ends thereof. | 12-23-2010 |
20120000382 | METHOD FOR PRODUCING METAL THIN FILM - A method for producing a metal thin film on a substrate includes: a step of applying an ink to a flat blanket; a first transfer step of bringing the first blanket and a letterpress having a predetermined pattern of projections into contact by a pressure compression while the flat blanked and the letterpress being disposed opposite each other, to selectively transfer a portion of the ink on the flat blanket corresponding to the projections to the letterpress; a second transfer step of bringing the flat blanket obtained after the first transfer step and the substrate into contact by pressure compression while the flat blanket and the substrate being disposed opposite each other, to transfer the ink remaining on the flat blanket to the substrate; and a step of subjecting the substrate obtained after the second transfer step to electroless plating to deposit a metal thin film on the substrate. | 01-05-2012 |
20120103222 | METHOD FOR PRODUCING METAL THIN FILM - A method for producing a metal thin film on a substrate includes: a step of applying an ink to a flat blanket; a first transfer step of bringing the first blanket and a letterpress having a predetermined pattern of projections into contact by a pressure compression while the flat blanked and the letterpress being disposed opposite each other, to selectively transfer a portion of the ink on the flat blanket corresponding to the projections to the letterpress; a second transfer step of bringing the flat blanket obtained after the first transfer step and the substrate into contact by pressure compression while the flat blanket and the substrate being disposed opposite each other, to transfer the ink remaining on the flat blanket to the substrate; and a step of subjecting the substrate obtained after the second transfer step to electroless plating to deposit a metal thin film on the substrate. | 05-03-2012 |
20120244279 | POLARIZER, METHOD OF MANUFACTURING POLARIZER AND LIQUID CRYSTAL PROJECTOR - A polarizer capable of being manufactured in simple steps, and a method of manufacturing the polarizer, as well as a liquid crystal projector are provided. The polarizer includes a substrate having light permeability, and a plurality of linear projections being arranged on the substrate and extending along one direction within a plane thereof. Each of the linear projections having a base layer and a plating layer in the named order from the substrate, the base layer containing a catalyst material for electroless plating process, and the plating layer being deposited by using the base layer as a catalyst. | 09-27-2012 |
20120322334 | METHOD OF MANUFACTURING FILM AND METHOD OF MANUFACTURING DISPLAY - There are provided a method of manufacturing a film, suitable for forming a film having a plurality of minute through holes, and a method of manufacturing a display using the method of manufacturing a film. The method of manufacturing a film, includes: transferring a film of a first pattern onto a base material with use of an intaglio plate including the first pattern and a second pattern; and forming a film including through holes on the base material by transferring a film of the second pattern of the intaglio plate onto the film of the first pattern. | 12-20-2012 |
20130033520 | IMAGE GENERATING DEVICE, IMAGE GENERATING METHOD, AND NON-TRANSITORY INFORMATION STORAGE MEDIUM - Provided is an image generating device including: a section for acquiring an arrangement of elements constituting an object with respect to a frame to be processed; an arrangement correction section including a control section and plurality of partial correction sections, for correcting an arrangement of each of the elements; and an image rendering section for rendering an image based on the arrangement of the elements corrected by the arrangement correction step. The plurality of partial correction sections respectively correct the arrangement of at least one of the plurality of elements, and the control section provides control so that at least one of the plurality of partial correction section corrects the arrangement of the elements based on the control data, which associates a state of the object and at least two of the plurality of partial correction sections, and on the state of the object. | 02-07-2013 |
20130319272 | PRINTING METHOD AND PRINTING APPARATUS - A printing method includes: providing an elastic member at a first stage and providing ink between the elastic member and an opposing member, in which the first stage has a protrusion on a surface thereof; and causing contact between the elastic member and the opposing member with the ink interposed therebetween, by using the protrusion. | 12-05-2013 |
20130321543 | PRINTING METHOD AND PRINTING APPARATUS - A printing method includes: performing a first process that applies first processing to one or a plurality of flat-shaped blankets; and performing a second process that applies second processing to the one or the plurality of blankets to which the first processing has been applied. The second processing is applied in parallel with the first processing applied to another one or plurality of flat-shaped blankets in the first process. | 12-05-2013 |
20130328071 | MULTILAYER FILM SUBSTRATE, METHOD OF MANUFACTURING MULTILAYER FILM SUBSTRATE, METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE, METHOD OF MANUFACTURING DISPLAY UNIT, AND METHOD OF MANUFACTURING ELECTRONIC APPARATUS - A method of manufacturing a multilayer film substrate, the method includes: forming an adhesion control layer on a first substrate, the adhesion control layer including an adhesion section and a separation section; forming a to-be-peeled layer being fixed to the first substrate in the adhesion section and being inhibited from being adhered to the first substrate in the separation section; laminating a function layer on the to-be-peeled layer; peeling the function layer off from the first substrate together with the to-be-peeled layer; and providing the function layer on a second substrate. | 12-12-2013 |