Patent application number | Description | Published |
20090148971 | FORMING METHOD OF CONTACT HOLE AND MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, LIQUID CRYSTAL DISPLAY DEVICE AND EL DISPLAY DEVICE - When forming a contact hole by a conventional manufacturing step of a semiconductor device, a resist is required to be formed on almost entire surface of a substrate so as to be applied on a film other than an area in which a contact hole is to be formed, leading to drastically reduced throughput. According to a forming method of a contact hole and a manufacturing method of a semiconductor device, an EL display device and a liquid crystal display device of the invention, an island shape organic film is selectively formed over a semiconductor layer, a conductive layer or an insulating layer, and an insulating film is formed around the island shape organic film to form a contact hole. Therefore, a conventional patterning using a resist is not required, and high throughput and low cost can be achieved. | 06-11-2009 |
20090195154 | DISPLAY DEVICE AND MANUFACTURING METHOD OF DISPLAY DEVICE - It is an object of the present invention to provide a reliable display device and a method for manufacturing the display device reducing the number of manufacturing steps, and with higher yield. A display device according to the invention includes a plurality of display elements each having a first electrode, a layer containing an organic compound, and a second electrode. The display device further includes a heat-resistant planarizing film over a substrate having an insulating surface, a first electrode over the heat-resistant planarizing film, a wiring covering an end portion of the first electrode, a partition wall covering the end portion of first electrode and the wiring, a layer containing an organic compound, and a second electrode over the layer containing an organic compound. | 08-06-2009 |
20090291552 | SUBSTRATE HAVING FILM PATTERN AND MANUFACTURING METHOD OF THE SAME, MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, LIQUID CRYSTAL TELEVISION, AND EL TELEVISION - The invention provides a manufacturing method of a substrate having a film pattern including an insulating film, a semiconductor film, a conductive film and the like by simple steps, and also a manufacturing method of a semiconductor device which is low in cost with high throughput and yield. According to the invention, after forming a first protective film which has low wettability on a substrate, a material which has high wettability is applied or discharged on an outer edge of a first mask pattern, thereby a film pattern and a substrate having the film pattern are formed. | 11-26-2009 |
20100051943 | METHOD FOR FORMING PATTERN, THIN FILM TRANSISTOR, DISPLAY DEVICE, METHOD FOR MANUFACTURING THEREOF, AND TELEVISION APPARATUS - To provide a display device which can be manufactured with higher efficiency in the use of material through a simplified manufacturing process, and a method for manufacturing the display device. Another object is to provide a technique by which patterns of a wiring the like which constitutes the display device can be formed to a desired shape with good control. In a method for forming a pattern according to the present invention, a mask is formed over a light-transmitting substrate; a first region including a photocatalyst is formed over the substrate and the mask; the photocatalyst is irradiated with light through the substrate to modify a part of the first region; a second region is formed; and a composition containing a pattern forming material is discharged to the second region, thus, a pattern is formed. The mask does not transmit light. | 03-04-2010 |
20110165741 | DISPLAY DEVICE, METHOD FOR MANUFACTURING THEREOF, AND TELEVISION DEVICE - The invention provides a display device and a method for manufacturing thereof by increasing a material efficiently as well as simplifying steps. Also, the invention provides a technique for forming a pattern such as a wiring, that is used for forming a display device, to have a predetermined shape with an excellent controllability. The method for manufacturing a display device includes the steps of: forming a lyophobic region; selectively irradiating laser beam in the lyophobic region to form a lyophilic region; selectively discharging a composition, that contains a conductive material, in the lyophilic region to form a gate electrode layer; forming a gate insulating layer and a semiconductor layer over the gate electrode layer; discharging a composition containing a conductive material over the semiconductor layer to form a source electrode layer and a drain electrode layer; and forming a pixel electrode layer on the source or drain electrode layer. | 07-07-2011 |
20120032159 | DISPLAY DEVICE AND MANUFACTURING METHOD OF DISPLAY DEVICE - It is an object of the present invention to provide a reliable display device and a method for manufacturing the display device reducing the number of manufacturing steps, and with higher yield. A display device according to the invention includes a plurality of display elements each having a first electrode, a layer containing an organic compound, and a second electrode. The display device further includes a heat-resistant planarizing film over a substrate having an insulating surface, a first electrode over the heat-resistant, planarizing film, a wiring covering an end portion of the first electrode, a partition wall covering the end portion of first electrode and the wiring, a layer containing an organic compound, and a second electrode over the layer containing an organic compound. | 02-09-2012 |
20130001560 | SUBSTRATE HAVING FILM PATTERN AND MANUFACTURING METHOD OF THE SAME, MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE, LIQUID CRYSTAL TELEVISION, AND EL TELEVISION - The invention provides a manufacturing method of a substrate having a film pattern including an insulating film, a semiconductor film, a conductive film and the like by simple steps, and also a manufacturing method of a semiconductor device which is low in cost with high throughput and yield. According to the invention, after forming a first protective film which has low wettability on a substrate, a material which has high wettability is applied or discharged on an outer edge of a first mask pattern, thereby a film pattern and a substrate having the film pattern are formed. | 01-03-2013 |
Patent application number | Description | Published |
20080316410 | DISPLAY DEVICE - To provide display devices with improved image quality and reliability or display devices with a large screen at low cost with high productivity, an electrode layer containing a conductive polymer is used as an electrode layer for a display element, and the concentration of ionic impurities contained in the electrode layer containing a conductive polymer is reduced (preferably to 100 ppm or less). Ionic impurities are ionized, and easily become mobile ions, and they deteriorate a liquid crystal layer or an electroluminescent layer, which is used for a display element. Therefore, an electrode layer containing a conductive polymer, in which such ionic impurities are reduced is provided; thus, reliability of the display device can be improved. | 12-25-2008 |
20090002615 | DISPLAY DEVICE - To manufacture display devices with improved image quality and reliability or display devices with a large screen at low cost with high productivity. An electrode layer containing a conductive polymer is used as an electrode layer of a display element in a display device and an inorganic insulating film serving as a passivation film is provided between the electrode layer and a display layer. Ionic impurities in the electrode layer are easily ionized and become mobile ions and thereby deteriorating a liquid crystal material or the like which is included in a display layer in a display element. Ionic impurities in the electrode layer are prevented from moving into a display layer by the inorganic insulating film. Thus, the reliability of the display device can be improved. | 01-01-2009 |
20090008667 | METHOD FOR FORMING PATTERN, METHOD FOR MANUFACTURING LIGHT EMITTING DEVICE, AND LIGHT EMITTING DEVICE - Oxidation treatment is performed to the surface of a substrate provided with a photocatalytic conductive film and an insulating film; treatment with a silane coupling agent is performed, so that a silane coupling agent film is formed and the surface of the substrate is modified to be liquid-repellent; and the surface of the substrate is irradiated with light of a wavelength (less than to equal to 390 nm) which has energy of greater than or equal to a band gap of a material for forming the photocatalytic conductive film, so that only the silane coupling agent film over the surface of the photocatalytic conductive film is decomposed and the surface of the photocatalytic conductive film can be modified to be lyophilic. | 01-08-2009 |
20090096364 | Display Device and Method for Manufacturing Display Device - To provide a display device with higher image quality and reliability or a large-sized display device with a large screen at low cost with high productivity. A function layer (such as a coloring layer or a pixel electrode layer) used in the display device is formed by discharging a liquid function-layer-forming material to an opening formed with a layer including a first organic compound which has a C—N bond or a C—O bond in the main chain as a base and a layer including a second organic compound as a partition. The fluorine density exhibiting liquid repellency to the liquid function-layer-forming material, which is attached to a surface of the layers including organic compounds, is controlled, whereby a liquid repellent region and a lyophilic region can be selectively formed. | 04-16-2009 |
20090109388 | LIQUID CRYSTAL DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - To control the positioning of a spacer more accurately in a liquid crystal display device to prevent display defects due to incorrect positioning in a display region. To provide a liquid crystal display device with higher image quality and reliability, and to provide a method for manufacturing the liquid crystal display device with high yield. In a liquid crystal display device, a region onto which a spherical spacer is discharged is subjected to liquid-repellent treatment in order to reduce the wettability with respect to a liquid in which the spherical spacer is dispersed. The liquid (the droplet) does not spread over the liquid-repellent region and is dried while moving the spherical spacer toward the center of the liquid. Thus, incorrect positioning shortly after discharging, which has been caused by the loss of control in the liquid, can be corrected by moving the spherical spacer while drying the liquid. | 04-30-2009 |
20110303911 | METHOD FOR FORMING PATTERN, METHOD FOR MANUFACTURING LIGHT EMITTING DEVICE, AND LIGHT EMITTING DEVICE - Oxidation treatment is performed to the surface of a substrate provided with a photocatalytic conductive film and an insulating film; treatment with a silane coupling agent is performed, so that a silane coupling agent film is formed and the surface of the substrate is modified to be liquid-repellent; and the surface of the substrate is irradiated with light of a wavelength (less than to equal to 390 nm) which has energy of greater than or equal to a band gap of a material for forming the photocatalytic conductive film, so that only the silane coupling agent film over the surface of the photocatalytic conductive film is decomposed and the surface of the photocatalytic conductive film can be modified to be lyophilic. | 12-15-2011 |
20120091444 | Display Device and Method for Manufacturing Display Device - To provide a display device with higher image quality and reliability or a large-sized display device with a large screen at low cost with high productivity. A function layer (such as a coloring layer or a pixel electrode layer) used in the display device is formed by discharging a liquid function-layer-forming material to an opening formed with a layer including a first organic compound which has a C—N bond or a C—O bond in the main chain as a base and a layer including a second organic compound as a partition. The fluorine density exhibiting liquid repellency to the liquid function-layer-forming material, which is attached to a surface of the layers including organic compounds, is controlled, whereby a liquid repellent region and a lyophilic region can be selectively formed. | 04-19-2012 |