Patent application number | Description | Published |
20090029514 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing a semiconductor device, by which a bottom gate thin film transistor that has an improved S value and a channel forming region with a smaller thickness than that of a source region and a drain region can be manufactured in a simple process. An island-like conductive film is formed over a surface of an insulating substrate in a portion corresponding to a channel forming region, and is covered with an insulating film to form a projection portion. After an amorphous semiconductor film is deposited to cover the projection portion, the amorphous semiconductor film is irradiated with laser light so as to be melted and crystallized. Part of the melted semiconductor over the projection portion flows into regions adjacent to both sides of the projection portion, which results in reduction in thickness of the semiconductor film over the projection portion (channel forming region). | 01-29-2009 |
20090111248 | MANUFACTURING METHOD OF SOI SUBSTRATE - A damaged region is formed by generation of plasma by excitation of a source gas, and by addition of ion species contained in the plasma from one of surfaces of a single crystal semiconductor substrate; an insulating layer is formed over the other surface of the single crystal semiconductor substrate; a supporting substrate is firmly attached to the single crystal semiconductor substrate so as to face the single crystal semiconductor substrate with the insulating layer interposed therebetween; separation is performed at the damaged region into the supporting substrate to which a single crystal semiconductor layer is attached and part of the single crystal semiconductor substrate by heating of the single crystal semiconductor substrate; dry etching is performed on a surface of the single crystal semiconductor layer attached to the supporting substrate; the single crystal semiconductor layer is recrystallized by irradiation of the single crystal semiconductor layer with a laser beam to melt at least part of the single crystal semiconductor layer. | 04-30-2009 |
20090239354 | METHOD FOR MANUFACTURING SOI SUBSTRATE - Forming an insulating film on a surface of the single crystal semiconductor substrate, forming a fragile region in the single crystal semiconductor substrate by irradiating the single crystal semiconductor substrate with an ion beam through the insulating film, forming a bonding layer over the insulating film, bonding a supporting substrate to the single crystal semiconductor substrate by interposing the bonding layer between the supporting substrate and the single crystal semiconductor substrate, dividing the single crystal semiconductor substrate at the fragile region to separate the single crystal semiconductor substrate into a single crystal semiconductor layer attached to the supporting substrate, performing first dry etching treatment on a part of the fragile region remaining on the single crystal semiconductor layer, performing second dry etching treatment on a surface of the single crystal semiconductor layer subjected to the first etching treatment, and irradiating the single crystal semiconductor layer with laser light. | 09-24-2009 |
20090325364 | METHOD FOR MANUFACTURING SOI SUBSTRATE - To provide a technical means which is capable of increasing crystallinity and planarity of a single crystal semiconductor layer, crystal defects are reduced in such a manner that a single crystal semiconductor substrate, in which an insulating film is formed on its surface and an embrittlement region is formed in a region at a predetermined depth from the surface, and a supporting substrate are attached to each other with the insulating film interposed therebetween; the single crystal semiconductor substrate is separated in the embrittlement region by a heat treatment; a single crystal semiconductor layer is irradiated with laser light over the supporting substrate with the insulating film interposed therebetween; a surface of the single crystal semiconductor layer is etched; and a plasma treatment is performed on the surface of the single crystal semiconductor layer. | 12-31-2009 |
20100047997 | METHOD FOR MANUFACTURING SOI SUBSTRATE - It is an object of the preset invention to increase adhesiveness of a semiconductor layer and a base substrate and to reduce defective bonding. An oxide film is formed on a semiconductor substrate and the semiconductor substrate is irradiated with accelerated ions through the oxide film, whereby an embrittled region is formed at a predetermined depth from a surface of the semiconductor substrate. Plasma treatment is performed on the oxide film on the semiconductor substrate and the base substrate by applying a bias voltage, the surface of the semiconductor substrate and a surface of the base substrate are disposed opposite to each other, a surface of the oxide film is bonded to the surface of the base substrate, heat treatment is performed after the surface of the oxide film is bonded to the surface of the base substrate, and separation is caused along the embrittled region, whereby a semiconductor layer is formed over the base substrate with the oxide film interposed therebetween. | 02-25-2010 |
20100081253 | METHOD FOR MANUFACTURING SEMICONDUCTOR SUBSTRATE - A step of forming an insulating film over a semiconductor substrate and forming an embrittled region in the semiconductor substrate by irradiating the semiconductor substrate with accelerated ions through the insulating film; a step of disposing a surface of the semiconductor substrate and a surface of a base substrate opposite to each other and bonding the surface of the insulating film to the surface of the base substrate; a step of forming a semiconductor layer over the base substrate with the insulating film interposed therebetween by causing separation along the embrittled region by performing heat treatment after the surface of the insulating film and the surface of the base substrate are bonded to each other; a step of performing etching treatment on the semiconductor layer; a step of irradiating the semiconductor layer subjected to the etching treatment with a laser beam; and a step of irradiating the semiconductor layer irradiated with the laser beam with plasma. | 04-01-2010 |
20100099226 | MANUFACTURING METHOD OF THIN FILM TRANSISTOR - Decrease of the off-state current, increase of the on-state current, and reduction of variations of electrical characteristics. A method for manufacturing a channel-etched inversed staggered thin film transistor includes the following steps: removing, by first dry-etching, a part of a semiconductor layer including an impurity element which imparts one conductivity type, which is exposed from the source and drain electrodes, and partially a part of an amorphous semiconductor layer just below and in contact with the part of the semiconductor layer; removing, by second dry-etching, partially the part of the amorphous semiconductor layer which is exposed by the first dry-etching; and performing plasma treatment on the surface of the part of the amorphous semiconductor layer which is exposed by the second dry-etching so that an altered layer is formed. | 04-22-2010 |
20100283105 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A technique of manufacturing a semiconductor device in which etching in formation of a contact hole can be easily controlled is proposed. A semiconductor device includes at least a semiconductor layer formed over an insulating surface; a first insulating layer formed over the semiconductor layer; a gate electrode formed over the first insulating layer; a second insulating layer formed over the gate electrode; and a conductive layer formed over the second insulating layer connected to the semiconductor layer via an opening which is formed at least in the semiconductor layer and the second insulating layer and partially exposes the insulating surface. The conductive layer is electrically connected to the semiconductor layer at the side surface of the opening which is formed in the semiconductor layer. | 11-11-2010 |
20110287605 | METHOD FOR MANUFACTURING SOI SUBSTRATE - Forming an insulating film on a surface of the single crystal semiconductor substrate, forming a fragile region in the single crystal semiconductor substrate by irradiating the single crystal semiconductor substrate with an ion beam through the insulating film, forming a bonding layer over the insulating film, bonding a supporting substrate to the single crystal semiconductor substrate by interposing the bonding layer between the supporting substrate and the single crystal semiconductor substrate, dividing the single crystal semiconductor substrate at the fragile region to separate the single crystal semiconductor substrate into a single crystal semiconductor layer attached to the supporting substrate, performing first dry etching treatment on a part of the fragile region remaining on the single crystal semiconductor layer, performing second dry etching treatment on a surface of the single crystal semiconductor layer subjected to the first etching treatment, and irradiating the single crystal semiconductor layer with laser light. | 11-24-2011 |
20120248470 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a method for manufacturing a highly reliable display device at a low cost with high yield. According to the present invention, a step due to an opening in a contact is covered with an insulating layer to reduce the step, and is processed into a gentle shape. A wiring or the like is formed to be in contact with the insulating layer and thus the coverage of the wiring or the like is enhanced. In addition, deterioration of a light-emitting element due to contaminants such as water can be prevented by sealing a layer including an organic material that has water permeability in a display device with a sealing material. Since the sealing material is formed in a portion of a driver circuit region in the display device, the frame margin of the display device can be narrowed. | 10-04-2012 |
20130001571 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a method for manufacturing a highly reliable display device at a low cost with high yield. According to the present invention, a step due to an opening in a contact is covered with an insulating layer to reduce the step, and is processed into a gentle shape. A wiring or the like is formed to be in contact with the insulating layer and thus the coverage of the wiring or the like is enhanced. In addition, deterioration of a light-emitting element due to contaminants such as water can be prevented by sealing a layer including an organic material that has water permeability in a display device with a sealing material. Since the sealing material is formed in a portion of a driver circuit region in the display device, the frame margin of the display device can be narrowed. | 01-03-2013 |
20140332819 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a method for manufacturing a highly reliable display device at a low cost with high yield. According to the present invention, a step due to an opening in a contact is covered with an insulating layer to reduce the step, and is processed into a gentle shape. A wiring or the like is formed to be in contact with the insulating layer and thus the coverage of the wiring or the like is enhanced. In addition, deterioration of a light-emitting element due to contaminants such as water can be prevented by sealing a layer including an organic material that has water permeability in a display device with a sealing material. Since the sealing material is formed in a portion of a driver circuit region in the display device, the frame margin of the display device can be narrowed. | 11-13-2014 |