Patent application number | Description | Published |
20090246934 | METHOD FOR MANUFACTURING SOI SUBSTRATE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing an SOI substrate in which crystal defects of a single crystal semiconductor layer are reduced is provided. An oxide film containing halogen is formed on each of surfaces of a single crystal semiconductor substrate and of a semiconductor substrate provided with a single crystal semiconductor layer separated from the single crystal semiconductor substrate, whereby impurities that exist on the surfaces of and inside the substrates are decreased. In addition, the single crystal semiconductor layer provided over the semiconductor substrate is irradiated with a laser beam, whereby crystallinity of the single crystal semiconductor layer is improved and planarity is improved. | 10-01-2009 |
20090246936 | METHOD FOR MANUFACTURING SOI SUBSTRATE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A method for manufacturing an SOI substrate in which crystal defects of a single crystal semiconductor layer are reduced even if a single crystal semiconductor substrate including crystal defects is used. A first oxide film is formed on a single crystal semiconductor substrate; the first oxide film is removed; a surface of the single crystal semiconductor substrate from which the first oxide film is removed is irradiated with laser light; a second oxide film is formed on the single crystal semiconductor substrate; an embrittled region is formed in the single crystal semiconductor substrate by irradiating the single crystal semiconductor substrate with ions through the second oxide film; bonding the second oxide film and the semiconductor substrate so as to face each other; and the single crystal semiconductor substrate is separated at the embrittled region by heat treatment to obtain a single crystal semiconductor layer bonded to the semiconductor substrate. | 10-01-2009 |
20090261449 | METHOD FOR MANUFACTURING SOI SUBSTRATE AND SEMICONDUCTOR DEVICE - An object is to provide an SOI substrate with excellent characteristics even in the case where a single crystal semiconductor substrate having crystal defects is used. Another object is to provide a semiconductor device using such an SOI substrate. A single crystal semiconductor layer is formed by an epitaxial growth method over a surface of a single crystal semiconductor substrate. The single crystal semiconductor layer is subjected to first thermal oxidation treatment to form a first oxide film. A surface of the first oxide film is irradiated with ions, whereby the ions are introduced to the single crystal semiconductor layer. The single crystal semiconductor layer and a base substrate are bonded with the first oxide film interposed therebetween. The single crystal semiconductor layer is divided at a region where the ions are introduced by performing thermal treatment, so that the single crystal semiconductor layer is partly left over the base substrate. The single crystal semiconductor layer left over the base substrate is irradiated with laser light. The single crystal semiconductor layer left over the base substrate is subjected to second thermal oxidation treatment to form a second oxide film. Then, the second oxide film is removed. | 10-22-2009 |
20100181565 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device including a thin film transistor which includes an oxide semiconductor layer and has high electric characteristics and reliability. Film deposition is performed using an oxide semiconductor target containing an insulator (an insulating oxide, an insulating nitride, silicon oxynitride, aluminum oxynitride, or the like), typically SiO | 07-22-2010 |
20100187523 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - An object is to provide a semiconductor device including a thin film transistor which includes an oxide semiconductor layer and has high electric characteristics. An oxide semiconductor layer including SiO | 07-29-2010 |
20100207117 | TRANSISTOR, SEMICONDUCTOR DEVICE INCLUDING THE TRANSISTOR, AND MANUFACTURING METHOD OF THE TRANSISTOR AND THE SEMICONDUCTOR DEVICE - An object is to suppress deterioration in electric characteristics in a transistor including an oxide semiconductor layer or a semiconductor device including the transistor. In a transistor in which a channel layer is formed using an oxide semiconductor, a silicon layer is provided in contact with a surface of the oxide semiconductor layer, an impurity semiconductor layer is provided over the silicon layer, and a source electrode layer and a drain electrode layer are provided to be electrically connected to the impurity semiconductor layer. | 08-19-2010 |
20100207118 | TRANSISTOR, SEMICONDUCTOR DEVICE INCLUDING THE TRANSISTOR, AND MANUFACTURING METHOD OF THE TRANSISTOR AND THE SEMICONDUCTOR DEVICE - To suppress deterioration in electrical characteristics in a transistor including an oxide semiconductor layer or a semiconductor device including the transistor. In a transistor in which a channel layer is formed using an oxide semiconductor, a silicon layer is provided in contact with a surface of the oxide semiconductor layer. Further, the silicon layer is provided in contact with at least a region of the oxide semiconductor layer, in which a channel is formed, and a source electrode layer and a drain electrode layer are provided in contact with regions of the oxide semiconductor layer, over which the silicon layer is not provided. | 08-19-2010 |
20100207119 | SEMICONDUCTOR DEVICE INCLUDING A TRANSISTOR, AND MANUFACTURING METHOD OF THE SEMICONDUCTOR DEVICE - The object is to suppress deterioration in electrical characteristics in a semiconductor device comprising a transistor including an oxide semiconductor layer. In a transistor in which a channel layer is formed using an oxide semiconductor, a p-type silicon layer is provided in contact with a surface of the oxide semiconductor layer. Further, the p-type silicon layer is provided in contact with at least a region of the oxide semiconductor layer, in which a channel is formed, and a source electrode layer and a drain electrode layer are provided in contact with regions of the oxide semiconductor layer, over which the p-type silicon layer is not provided. | 08-19-2010 |
20110084264 | OXIDE SEMICONDUCTOR LAYER AND SEMICONDUCTOR DEVICE - An object is to provide an oxide semiconductor layer having a novel structure which is preferably used for a semiconductor device. Alternatively, another object is to provide a semiconductor device using an oxide semiconductor layer having the novel structure. An oxide semiconductor layer includes an amorphous region which is mainly amorphous and a crystal region containing crystal grains of In | 04-14-2011 |
20110156026 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A larger substrate can be used, and a transistor having a desirably high field-effect mobility can be manufactured through formation of an oxide semiconductor layer having a high degree of crystallinity, whereby a large-sized display device, a high-performance semiconductor device, or the like can be put into practical use. A first multi-component oxide semiconductor layer is formed over a substrate and a single-component oxide semiconductor layer is formed thereover; then, crystal growth is carried out from a surface to an inside by performing heat treatment at 500° C. to 1000° C. inclusive, preferably 550° C. to 750° C. inclusive so that a first multi-component oxide semiconductor layer including single crystal regions and a single-component oxide semiconductor layer including single crystal regions are formed; and a second multi-component oxide semiconductor layer including single crystal regions is stacked over the single-component oxide semiconductor layer including single crystal regions. | 06-30-2011 |
20120305913 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A larger substrate can be used, and a transistor having a desirably high field-effect mobility can be manufactured through formation of an oxide semiconductor layer having a high degree of crystallinity, whereby a large-sized display device, a high-performance semiconductor device, or the like can be put into practical use. A first multi-component oxide semiconductor layer is formed over a substrate and a single-component oxide semiconductor layer is formed thereover; then, crystal growth is carried out from a surface to an inside by performing heat treatment at 500° C. to 1000° C. inclusive, preferably 550° C. to 750° C. inclusive so that a first multi-component oxide semiconductor layer including single crystal regions and a single-component oxide semiconductor layer including single crystal regions are formed; and a second multi-component oxide semiconductor layer including single crystal regions is stacked over the single-component oxide semiconductor layer including single crystal regions. | 12-06-2012 |
20120319108 | TRANSISTOR, SEMICONDUCTOR DEVICE INCLUDING THE TRANSISTOR, AND MANUFACTURING METHOD OF THE TRANSISTOR AND THE SEMICONDUCTOR DEVICE - To suppress deterioration in electrical characteristics in a transistor including an oxide semiconductor layer or a semiconductor device including the transistor. In a transistor in which a channel layer is formed using an oxide semiconductor, a silicon layer is provided in contact with a surface of the oxide semiconductor layer. Further, the silicon layer is provided in contact with at least a region of the oxide semiconductor layer, in which a channel is formed, and a source electrode layer and a drain electrode layer are provided in contact with regions of the oxide semiconductor layer, over which the silicon layer is not provided. | 12-20-2012 |
20130011962 | SPUTTERING TARGET, METHOD FOR MANUFACTURING SPUTTERING TARGET, AND METHOD FOR FORMING THIN FILM - There have been cases where transistors formed using oxide semiconductors are inferior in reliability to transistors formed using amorphous silicon. Thus, in the present invention, a semiconductor device including a highly reliable transistor formed using an oxide semiconductor is manufactured. An oxide semiconductor film is deposited by a sputtering method, using a sputtering target including an oxide semiconductor having crystallinity, and in which the direction of the c-axis of a crystal is parallel to a normal vector of the top surface of the oxide semiconductor. The target is formed by mixing raw materials so that its composition ratio can obtain a crystal structure. | 01-10-2013 |
20130285052 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - An object is to provide a semiconductor device including a thin film transistor which includes an oxide semiconductor layer and has high electric characteristics. An oxide semiconductor layer including SiO | 10-31-2013 |
20140113687 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device including a thin film transistor which includes an oxide semiconductor layer and has high electric characteristics and reliability. Film deposition is performed using an oxide semiconductor target containing an insulator (an insulating oxide, an insulating nitride, silicon oxynitride, aluminum oxynitride, or the like), typically SiO | 04-24-2014 |
20140193946 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A larger substrate can be used, and a transistor having a desirably high field-effect mobility can be manufactured through formation of an oxide semiconductor layer having a high degree of crystallinity, whereby a large-sized display device, a high-performance semiconductor device, or the like can be put into practical use. A first multi-component oxide semiconductor layer is formed over a substrate and a single-component oxide semiconductor layer is formed thereover; then, crystal growth is carried out from a surface to an inside by performing heat treatment at 500° C. to 1000° C. inclusive, preferably 550° C. to 750° C. inclusive so that a first multi-component oxide semiconductor layer including single crystal regions and a single-component oxide semiconductor layer including single crystal regions are formed; and a second multi-component oxide semiconductor layer including single crystal regions is stacked over the single-component oxide semiconductor layer including single crystal regions. | 07-10-2014 |
20140319520 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - An object is to provide a semiconductor device including a thin film transistor which includes an oxide semiconductor layer and has high electric characteristics. An oxide semiconductor layer including SiO | 10-30-2014 |