| Patent application number | Description | Published |
|---|
| 20080296724 | Semiconductor substrate and manufacturing method of semiconductor device - To provide a semiconductor substrate including a crystalline semiconductor layer which is suitable for practical use, even if a material different from that of the semiconductor layer is used for a supporting substrate, and a semiconductor device using the semiconductor substrate. The semiconductor substrate includes a bonding layer which forms a bonding plane, a barrier layer formed of an insulating material containing nitrogen, a relief layer which is formed of an insulating material that includes nitrogen at less than 20 at. % and hydrogen at 1 at. % to 20 at. %, and an insulating layer containing a halogen, between a supporting substrate and a single-crystal semiconductor layer. The semiconductor device includes the above-described structure at least partially, and a gate insulating layer formed by a microwave plasma CVD method using SiH | 12-04-2008 |
| 20080308807 | Display device and manufacturing method thereof - It is an object to provide a manufacturing method by which display devices can be manufactured in quantity without degrading the characteristics of thin film transistors. In a display device including a thin film transistor in which a microcrystalline semiconductor film, a gate insulating film in contact with the microcrystalline semiconductor film, and a gate electrode overlap with each other, an antioxidant film is formed on a surface of the microcrystalline semiconductor film. The antioxidant film on the surface of the microcrystalline semiconductor film can prevent a surface of a microcrystal grain from being oxidized, thereby preventing the mobility of the thin film transistor from decreasing. | 12-18-2008 |
| 20090011611 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - It is an object to provide a method for manufacturing a semiconductor device that has a semiconductor element including a film in which mixing impurities is suppressed. It is another object to provide a method for manufacturing a semiconductor device with high yield. In a method for manufacturing a semiconductor device in which an insulating film is formed in contact with a semiconductor layer provided over a substrate having an insulating surface with use of a plasma CVD apparatus, after an inner wall of a reaction chamber of the plasma CVD apparatus is coated with a film that does not include an impurity to the insulating film, a substrate is introduced in the reaction chamber, and the insulating film is deposited over the substrate. As a result, an insulating film in which the amount of impurities is reduced can be formed. | 01-08-2009 |
| 20090203174 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing an insulating film, which is used as an insulating film used for a semiconductor integrated circuit, whose reliability can be ensured even though it has small thickness, is provided. In particular, a method for manufacturing a high-quality insulating film over a substrate having an insulating surface, which can be enlarged, at low substrate temperature, is provided. A monosilane gas (SiH | 08-13-2009 |
| 20110003429 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - Disclosed is a method to manufacture a thin film transistor having an oxide semiconductor as a channel formation region. The method includes; forming an oxide semiconductor layer over a gate insulating layer; forming a source and drain electrode layers over and in contact with the oxide semiconductor layer so that at least portion of the oxide semiconductor layer is exposed; and forming an oxide insulating film over and in contact with the oxide semiconductor layer. The exposed portion of the oxide semiconductor may be exposed to a gas containing oxygen in the presence of plasma before the formation of the oxide insulating film. The method allows oxygen to be diffused into the oxide semiconductor layer, which contributes to the excellent characteristics of the thin film transistor. | 01-06-2011 |
| 20110031493 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object is to improve reliability of a semiconductor device. A semiconductor device including a driver circuit portion and a display portion (also referred to as a pixel portion) over the same substrate is provided. The driver circuit portion and the display portion include thin film transistors in which a semiconductor layer includes an oxide semiconductor; a first wiring; and a second wiring. The thin film transistors each include a source electrode layer and a drain electrode layer which each have a shape whose end portions are located on an inner side than end portions of the semiconductor layer. In the thin film transistor in the driver circuit portion, the semiconductor layer is provided between a gate electrode layer and a conductive layer. The first wiring and the second wiring are electrically connected in an opening provided in a gate insulating layer through an oxide conductive layer. | 02-10-2011 |
| 20110032444 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object is to improve reliability of a semiconductor device. A semiconductor device including a driver circuit portion and a display portion (also referred to as a pixel portion) over the same substrate is provided. The driver circuit portion and the display portion include thin film transistors in which a semiconductor layer includes an oxide semiconductor; a first wiring; and a second wiring. The thin film transistors each include a source electrode layer and a drain electrode layer. In the thin film transistor in the driver circuit portion, the semiconductor layer is sandwiched between a gate electrode layer and a conductive layer. The first wiring and the second wiring are electrically connected to each other in an opening provided in a gate insulating film through an oxide conductive layer. | 02-10-2011 |
| 20110062432 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - An object is to realize low power consumption while manufacturing a semiconductor device including a thin film transistor whose parasitic capacitance is reduced. Part of an insulating layer covering the periphery of a gate electrode layer is formed to be thick. Specifically, a stack including a spacer insulating layer and a gate insulating layer is formed. The thick part of the insulating layer covering the periphery of the gate electrode layer reduces parasitic capacitance formed between the gate electrode layer of the thin film transistor and another electrode layer (another wiring layer) overlapping with the gate electrode layer. | 03-17-2011 |
| 20110062434 | LIGHT-EMITTING DEVICE AND MANUFACTURING METHOD THEREOF - An object of the invention is to improve the reliability of a light-emitting device. Another object of the invention is to provide flexibility to a light-emitting device having a thin film transistor using an oxide semiconductor film. A light-emitting device has, over one flexible substrate, a driving circuit portion including a thin film transistor for a driving circuit and a pixel portion including a thin film transistor for a pixel. The thin film transistor for a driving circuit and the thin film transistor for a pixel are inverted staggered thin film transistors including an oxide semiconductor layer which is in contact with a part of an oxide insulating layer. | 03-17-2011 |
| 20110062992 | LOGIC CIRCUIT, LIGHT EMITTING DEVICE, SEMICONDUCTOR DEVICE, AND ELECTRONIC DEVICE - An object is to obtain a desired threshold voltage of a thin film transistor using an oxide semiconductor. Another object is to suppress a change of the threshold voltage over time. Specifically, an object is to apply the thin film transistor to a logic circuit formed using a transistor having a desired threshold voltage. In order to achieve the above object, thin film transistors including oxide semiconductor layers with different thicknesses may be formed over the same substrate, and the thin film transistors whose threshold voltages are controlled by the thicknesses of the oxide semiconductor layers may be used to form a logic circuit. In addition, by using an oxide semiconductor film in contact with an oxide insulating film formed after dehydration or dehydrogenation treatment, a change in threshold voltage over time is suppressed and the reliability of a logic circuit can be improved. | 03-17-2011 |
| 20110089425 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing an insulating film, which is used as an insulating film used for a semiconductor integrated circuit, whose reliability can be ensured even though it has small thickness, is provided. In particular, a method for manufacturing a high-quality insulating film over a substrate having an insulating surface, which can be enlarged, at low substrate temperature, is provided. A monosilane gas (SiH | 04-21-2011 |
| 20110111557 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - It is an object to drive a semiconductor device at high speed or to improve the reliability of the semiconductor device. In a method for manufacturing the semiconductor device, in which a gate electrode is formed over a substrate with an insulating property, a gate insulating film is formed over the gate electrode, and an oxide semiconductor film is formed over the gate insulating film, the gate insulating film is formed by deposition treatment using high-density plasma. Accordingly, dangling bonds in the gate insulating film are reduced and the quality of the interface between the gate insulating film and the oxide semiconductor is improved. | 05-12-2011 |
