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 |
20090123841 | SECONDARY BATTERY ELECTRODE INK, LITHIUM-ION BATTERY, AND ELECTRONIC DEVICE - A secondary battery electrode ink is adapted to be discharged from a droplet discharge device to make an electrode layer of a secondary battery. The secondary battery electrode ink includes an active substance including at least one of a positive electrode active substance and a negative electrode active substance, and a liquid medium. The liquid medium dissolves and/or disperses the active substance. The liquid medium has a characteristic in which, when a cured epoxy adhesive material is put into the liquid medium under a sealed condition at an atmospheric pressure and a temperature of approximately 50° C. and left for ten days, a weight increase rate of the cured epoxy adhesive material is 130% or less. | 05-14-2009 |
20090161218 | COLOR DEVELOPING STRUCTURE AND METHOD FOR MANUFACTURING COLOR DEVELOPING STRUCTURE - A method for manufacturing a color developing structure, includes: defining a first region and a second region adjacent to the first region on a base body; forming, onto the first region, a first transparent thin film having a first refractive index by a liquid droplet ejection method with a first liquid material; forming, onto the first transparent thin film, a second transparent thin film having a second refractive index by a liquid droplet ejection method with a second liquid material; 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 a first film body having the first color developing characteristics is formed onto the first region and the color developing structure is thereby obtained. | 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 |
20100214248 | DISPLAY APPARATUS WITH TOUCH SENSOR FUNCTION - A display apparatus with a touch sensor function includes: a first substrate having a common electrode; a second substrate arranged to face the first substrate; a display section disposed between the first substrate and the second substrate; and a touch sensor that detects a touch position on a touch surface disposed on the side of the first substrate or on the side of the second substrate, wherein the second substrate has a plurality of data lines arranged in a row direction, a plurality of gate lines arranged in a column direction substantially perpendicular to the data lines, a plurality of pixel electrodes each arranged in a pixel region surrounded by a pair of neighboring data lines and a pair of neighboring gate lines, and a plurality of thin film transistors each arranged in the plurality of pixel electrodes and electrically connected to the pixel electrode, the data line, and the gate line, and the touch sensor has a potential increase rate detection unit that detects a potential increase rate upon charging each of the pixel regions and detects a position of the pixel region whose potential increase rate detected by the potential increase rate detection unit falls outside a predetermined range as the touch position. | 08-26-2010 |
20100231551 | TOUCH SENSOR FUNCTION-EQUIPPED DISPLAY DEVICE - A touch sensor function-equipped display device includes: a first substrate that has a common electrode; a second substrate that is disposed to face the first substrate; a display unit that is disposed between the first substrate and the second substrate; and a touch sensor that detects a touch position on a touch surface disposed on the first substrate side or the second substrate side. The second substrate includes: a plurality of data lines that are aligned in a row direction; a plurality of gate lines that are aligned in a column direction approximately perpendicular to the data lines; a plurality of pixel electrodes that are disposed in each pixel area that is surrounded by a pair of adjacent data lines and a pair of adjacent gate lines; a plurality of capacitance lines that form capacitance with each of the pixel electrodes therebetween; and a plurality of thin film transistors that are disposed for each of the plurality of pixel electrodes and are electrically connected to the pixel electrodes, the data lines, and the gate lines. The touch sensor includes an electric-potential rise rate detecting unit that detects a rise rate of an electric potential of each pixel area at the time of charging by applying a charge signal to the capacitance line and detects a position of the pixel area in which the rise rate of the electric potential detected by the electric-potential rise rate detecting unit is out of a predetermined range as the touch position. | 09-16-2010 |
20100231552 | TOUCH SENSOR FUNCTION-EQUIPPED DISPLAY DEVICE - A touch sensor function-equipped display device includes: a first substrate that has a common electrode; a second substrate that is disposed to face the first substrate;
| 09-16-2010 |