Patent application number | Description | Published |
20080311285 | CONTACT HOLE FORMING METHOD, CONDUCTING POST FORMING METHOD, WIRING PATTERN FORMING METHOD, MULTILAYERED WIRING SUBSTRATE PRODUCING METHOD, ELECTRO-OPTICAL DEVICE PRODUCING METHOD, AND ELECTRONIC APPARATUS PRODUCING METHOD - A method for forming a contact hole includes forming a lyophobic area by applying a liquid droplet of a lyophobic material on a region for forming a contact hole on a wiring, the lyophobic material being lyophobic to a liquid that contains an insulating layer forming material; and forming an insulating layer by applying a droplet of the liquid containing the insulating layer forming material so as to cover the wiring except for the lyophobic area, wherein the contact hole formed penetrates through the insulating layer to be connected to the wiring covered by the insulating layer. | 12-18-2008 |
20080317943 | METHOD FOR FORMING PATTERN, METHOD FOR MANUFACTURING ELECTRO-OPTICAL DEVICE, AND METHOD FOR MANUFACTURING ELECTRONIC DEVICE - A method for forming a pattern includes: a) applying a droplet containing a lyophobic material to a substrate having a lyophilic part that is lyophillic with respect to a functional liquid so as to form a lyophobic part that is lyophobic with respect to the functional liquid and including a plurality of lyophobic parts; and b) applying the functional liquid to the lyophilic part positioned between the lyophobic parts. In the method, the lyophobic material includes at least one of a silane compound, a compound including a fluoroalkyl group, and a resin containing fluorine. | 12-25-2008 |
20090071706 | METHOD FOR PRODUCING MULTILAYERED WIRING SUBSTRATE, MULTILAYERED WIRING SUBSTRATE, AND ELECTRONIC APPARATUS - A method for producing a multilayered wiring substrate includes forming a lyophobic area on a first conductive layer, forming an insulating layer with an opening portion on the first conductive layer by applying a functional liquid containing an insulating layer forming material on a periphery of the lyophobic area, laminating the first conductive layer and a second conductive layer via the insulating layer, and electrically connecting the first and the second conductive layers to each other via the opening portion formed in the insulating layer. In the method, when forming the insulating layer, the functional liquid is applied such that an angle of a portion of the functional liquid in contact with the lyophobic area becomes larger than a forward contact angle of the functional liquid, thereby allowing a position of the portion of the functional liquid in contact with the lyophobic area to move inside the lyophobic area to form the opening portion having an opening size smaller than a size of the lyophobic area. | 03-19-2009 |
20090077798 | METHOD FOR FORMING CONDUCTIVE POST, METHOD FOR MANUFACTURING MULTILAYERED WIRING SUBSTRATE, AND METHOD FOR MANUFACTURING ELECTRONIC APPARATUS - A method for forming a conductive post include: a) forming a liquid repellent portion having a thickness of 100 nm or less by disposing a liquid repellent material in a conductive post forming region on a conductive layer; b) forming an insulation layer having an opening in a region overlapping with the conductive post forming region by disposing a liquid including an insulation layer forming material on the conductive layer having the liquid repellent portion formed thereon and polymerizing the insulation layer forming material; c) disposing metal particulates in the opening; and d) heating the metal particulates at a fusing temperature of the metal particulates or higher so as to fusion bond the metal particulates to each other in order to form the conductive post, and to fusion bond the metal particulates and the conductive layer in order to couple the conductive post with the conductive layer. | 03-26-2009 |
20090162536 | METHOD FOR FORMING FILM PATTERN, METHOD FOR FORMING CONTACT HOLE, METHOD FOR FORMING BUMP, AND METHOD FOR MANUFACTURING LIGHT EMITTING DEVICE - A method for forming a film pattern disposed adjacent to a pattern non-forming region by coating a pattern forming region with a functional liquid, includes (a) forming a liquid repellent film by coating the pattern non-forming region with a droplet containing a liquid repellent material having repellency to the functional liquid, and (b) forming the film pattern by coating the pattern forming region adjacent to the liquid repellent film with the functional liquid. The step (a) of forming of the liquid repellent film and the step (b) of forming of the film pattern are alternately repeated at least two times, respectively. | 06-25-2009 |
20090162627 | COLOR DEVELOPING STRUCTURE AND METHOD FOR MANUFACTURING COLOR DEVELOPING STRUCTURE - A method for manufacturing a color developing structure, includes: forming a first transparent thin film having a first refractive index with a first liquid material so that the first transparent thin film has a thickness determined based on predetermined color developing characteristics; forming a second transparent thin film having a second refractive index with a second liquid material so that the second transparent thin film has a thickness determined based on the predetermined color developing characteristics; and stacking the first transparent thin films and the second transparent thin films in layers by alternately repeating the forming of the first transparent thin film and the forming of the second transparent thin film multiple times so that the color developing structure having the predetermined color developing characteristics is obtained. | 06-25-2009 |
20090176009 | COLORING STRUCTURE MANUFACTURING APPARATUS AND METHOD FOR MANUFACTURING COLORING STRUCTURE - A coloring structure manufacturing apparatus for manufacturing a coloring structure having a prescribed coloring characteristic, includes a film forming device which forms a transparent thin film with a thickness determined according to the coloring characteristic by coating a substrate with a liquid material, and a reflectance measuring device which measures a reflectance by irradiating the transparent thin film with detection light. The transparent thin film is formed such that two or more kinds of liquid materials having different refraction indexes are alternately applied to be laminated. | 07-09-2009 |
20100028780 | BATTERY ELECTRODE AND METHOD FOR MANUFACTURING THE SAME, AND BATTERY - A battery electrode includes a current collector and an active material layer formed on a surface of the current collector. The active material layer includes an active material and a conductive material including a metal material. | 02-04-2010 |
20100055559 | BATTERY AND METHOD FOR PRODUCING SAME - A battery includes a base member and a plurality of films arranged adjacent to each other on a same surface of the base member, at least a part of one of the films being overlapped with an adjacent one of the films. | 03-04-2010 |
20100316851 | PROCESS FOR PRODUCING PATTERNED FILM-FORMED MEMBER, PATTERNED FILM-FORMED MEMBER, ELECTROOPTICAL DEVICE, AND ELECTRONIC APPARATUS - A process for producing a patterned film-formed member, includes: a surface treating step of subjecting a surface of a glassy material layer within a base material having a conductive film formed on a portion of the glassy material layer to a water repellent treatment and also subjecting a surface of the conductive film to a lower degree of water repellent treatment than that for the glassy material layer; an applying step of applying a functional liquid containing an aqueous dispersion medium and metal particles which are a constituent material of a metal film and are dispersed in the aqueous dispersion medium onto the conductive film; and a solidifying step of solidifying the applied functional liquid thereby forming the metal film on the conductive film. | 12-16-2010 |
20110063782 | CONDUCTIVE FILM STACKED MEMBER, ELECTRO-OPTICAL DEVICE, AND ELECTRONIC APPARATUS - A conductive film stacked member includes: a first conductive film formed on a substrate; and a second conductive film formed on the first conductive film, wherein the width of the second conductive film is narrower than the width of the first conductive film, and the second conductive film has a surface convexly curved in the direction away from the first conductive film in a cross-sectional view. | 03-17-2011 |
20110215506 | MOLDING METHOD AND MOLDING APPARATUS - A molding method includes: drawing cross-section elements of a three-dimensional object as a molding target on a drawing surface of a drawing stand with a liquid whose curing is precipitated by receiving activation energy as cross-section patterns; applying the activation energy to the liquid configuring the cross-section patterns in a state in which the cross-section patterns is pinched between the drawing stand and a molding stand; and detaching the cross-section patterns after being applied with the activation energy from the drawing stand and transferring the cross-section patterns to the molding stand side, wherein the drawing surface has a liquid repellent area that is an area representing liquid repellency for the liquid and a lyophilic area that is independently formed in an island shape within the liquid repellent area and is an area representing lyophillicity stronger than that of the liquid repellent area for the liquid. | 09-08-2011 |
20110291326 | SHAPING SLURRY AND SHAPING METHOD - A shaping slurry that forms a shaped product with a granule includes: a water-based solvent; a hydrophobic granule that forms the shaped product; and an amphiphatic solid polymer that forms the shaped product, and is dissolved in the water-based solvent. | 12-01-2011 |
20130217823 | SHAPING SLURRY AND SHAPING METHOD - A shaping slurry that forms a shaped product with a granule includes: a water-based solvent; a hydrophobic granule that forms the shaped product; and an amphiphatic solid polymer that forms the shaped product, and is dissolved in the water-based solvent. | 08-22-2013 |
20140167325 | MOLDING METHOD AND MOLDING APPARATUS - A molding method includes drawing cross-section elements of a three-dimensional object as a molding target on a drawing surface of a drawing stand with a liquid whose curing is precipitated by receiving activation energy as cross-section patterns; applying the activation energy to the liquid configuring the cross-section patterns in a state in which the cross-section patterns is pinched between the drawing stand and a molding stand; and detaching the cross-section patterns after being applied with the activation energy from the drawing stand and transferring the cross-section patterns to the molding stand side, wherein the drawing surface has a liquid repellent area that is an area representing liquid repellency for the liquid and a lyophilic area that is independently formed in an island shape within the liquid repellent area and is an area representing lyophillicity stronger than that of the liquid repellent area for the liquid. | 06-19-2014 |
20140178116 | RECORDING DEVICE, TAKE-UP DEVICE, AND METHOD FOR TAKING UP RECORDING MEDIUM - A conveyance mechanism by which a recording medium can be conveyed intermittently; a recording mechanism for recording by reciprocatingly scanning a recording head in a direction that intersects with a direction of conveyance of the recording medium by the conveyance mechanism; a turret to which a plurality of take-up spindles for taking up the recording medium are provided; rotational mechanisms of the take-up spindles; a rotational mechanism of the turret; and a control unit for controlling the rotational mechanisms of the take-up spindles and the rotational mechanism of the turret so as to cause the take-up spindles and/or the turret to be rotated intermittently so as to correspond to the intermittent conveyance by the conveyance mechanism. | 06-26-2014 |
20140247314 | RECORDING APPARATUS - There is provided an adhesive belt configured to support and transport a recording medium, a recording head configured to record by discharging ink onto the recording medium which is supported on the adhesive belt, and a guiding section arranged at an upstream side relative to the recording head in a transport direction of the recording medium and configured to guide fluff on an end section, in an intersecting direction that intersects with the transport direction, of the recording medium in a direction to an outside of the recording medium in the intersecting direction. | 09-04-2014 |