Patent application number | Description | Published |
20080220570 | Semiconductor device and manufacturing method thereof - A semiconductor device having a highly responsive thin film transistor (TFT) with low subthreshold swing and suppressed decrease in the on-state current and a manufacturing method thereof are demonstrated. The THF of the present invention is characterized by its semiconductor layer where the thickness of the source region or the drain region is larger than that of the channel formation region. Manufacture of the TFT is readily achieved by the formation of an amorphous semiconductor layer on a projection portion and a depression portion, which is followed by subjecting the melting process of the semiconductor layer, resulting in the formation of a crystalline semiconductor layer having different thicknesses. Selective addition of impurity to the thick portion of the semiconductor layer provides a semiconductor layer in which the channel formation region is thinner than the source or drain region. | 09-11-2008 |
20090004822 | Semiconductor substrate, manufacturing method of semiconductor substrate, and semiconductor device and electronic device using the same - A method of manufacturing a semiconductor substrate is demonstrated, which enables the formation of a single crystal semiconductor layer on a substrate having an insulating surface. The manufacturing method includes the steps of: ion irradiation of a surface of a single-crystal semiconductor substrate to form a damaged region; laser light irradiation of the single-crystal semiconductor substrate; formation of an insulating layer on the surface of the single-crystal semiconductor substrate; bonding the insulating layer with a substrate having an insulating surface; separation of the single-crystal semiconductor substrate at the damaged region, resulting in a thin single-crystal semiconductor layer on the surface of the substrate having the insulating surface; and laser light irradiation of the surface of the single-crystal semiconductor layer which is formed on the substrate having the insulating surface. This method allows the production of a thin layer of a single-crystal semiconductor with uniformed characteristics on an insulating surface. | 01-01-2009 |
20090020815 | Semiconductor device and manufacturing method of the same - An object of the present invention is to provide a semiconductor device having a structure which can realize not only suppressing a punch-through current but also reusing a silicon wafer which is used for bonding, in manufacturing a semiconductor device using an SOI technique, and a manufacturing method thereof. The semiconductor device can suppress the punch-through current by forming a semiconductor film in which an impurity imparting a conductivity type opposite to that of a source region and a drain region is implanted over a substrate having an insulating surface, and forming a channel formation region using a semiconductor film of stacked layers obtained by bonding a single crystal semiconductor film to the semiconductor film by an SOI technique. | 01-22-2009 |
20090078970 | SEMICONDUCTOR DEVICE - A semiconductor device is demonstrated in which a plurality of field-effect transistors is stacked with an interlayer insulating layer interposed therebetween over a substrate having an insulating surface. Each of the plurality of filed-effect transistors has a semiconductor layer which is prepared by a process including separation of the semiconductor layer from a semiconductor substrate followed by bonding thereof over the substrate. Each of the plurality of field-effect transistors is covered with an insulating film which provides distortion of the semiconductor layer. Furthermore, the crystal axis of the semiconductor layer, which is parallel to the crystal plane thereof, is set to a channel length direction of the semiconductor layer, which enables production of the semiconductor device with high performance and low power consumption having an SOI structure. | 03-26-2009 |
20090079000 | SEMICONDUCTOR DEVICE - An object is to realize high performance and low power consumption in a semiconductor device having an SOI structure. In addition, another object is to provide a semiconductor device having a high performance semiconductor element which is more highly integrated. A semiconductor device is such that a plurality of n-channel field-effect transistors and p-channel field-effect transistors are stacked with an interlayer insulating layer interposed therebetween over a substrate having an insulating surface. By controlling a distortion caused to a semiconductor layer due to an insulating film having a stress, a plane orientation of the semiconductor layer, and a crystal axis in a channel length direction, difference in mobility between the n-channel field-effect transistor and the p-channel field-effect transistor can be reduced, whereby current driving capabilities and response speeds of the n-channel field-effect transistor and the p-channel field-effect can be comparable. | 03-26-2009 |
20090114917 | THIN FILM TRANSISTOR AND DISPLAY DEVICE HAVING THE THIN FILM TRANSISTOR - A thin film transistor includes a gate electrode, a gate insulating layer covering the gate electrode, a microcrystalline semiconductor layer over the gate insulating layer, an amorphous semiconductor layer over the microcrystalline semiconductor layer, source and drain regions over the amorphous semiconductor layer, source and drain electrodes in contact with and over the source and drain regions, and a part of the amorphous semiconductor layer overlapping with the source and drain regions is thicker than a part of the amorphous semiconductor layer overlapping with a channel formation region. The side face of the source and drain regions and the side face of the amorphous semiconductor form a tapered shape together with an outmost surface of the amorphous semiconductor layer. The taper angle of the tapered shape is such an angle that decrease electric field concentration around a junction portion between the source and drain regions and the amorphous semiconductor layer. | 05-07-2009 |
20090137178 | Display Device and Method of Manufacturing Thereof - A novel display device with higher reliability having a structure of blocking moisture and oxygen, which deteriorate the characteristics of the display device, from penetrating through a sealing region and a method of manufacturing thereof is provided. According to the present invention, a display device and a method of manufacturing the same comprising: a display portion formed by aligning a light-emitting element using an organic light-emitting material between a pair of substrate, wherein the display portion is formed on an insulating layer formed on any one of the substrates, the pair of substrates is bonded to each other with a sealing material formed over the insulating layer while surrounding a periphery of the display portion, at least one layer of the insulating layer is made of an organic resin material, the periphery has a first region and a second region, the insulating layer in the first region has an opening covered with a protective film, the sealing material is formed in contact with the opening and the protective film, an outer edge portion of the insulating layer in the second region is covered with the protective film or the sealing material. | 05-28-2009 |
20090140256 | THIN FILM TRANSISTOR AND SEMICONDUCTOR DEVICE - An impurity element imparting one conductivity type is included in a layer close to a gate insulating film of layers with high crystallinity, so that a channel formation region is formed not in a layer with low crystallinity which is formed at the beginning of film formation but in a layer with high crystallinity which is formed later in a microcrystalline semiconductor film. Further, the layer including an impurity element is used as a channel formation region. Furthermore, a layer which does not include an impurity element imparting one conductivity type or a layer which has an impurity element imparting one conductivity type at an extremely lower concentration than other layers, is provided between a pair of semiconductor films including an impurity element functioning as a source region and a drain region and the layer including an impurity element functioning as a channel formation region. | 06-04-2009 |
20090162992 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - There are provided a semiconductor device having a structure which can realize not only suppression of a punch-through current but also reuse of a silicon wafer used for bonding, in manufacturing a semiconductor device using an SOI technique, and a manufacturing method thereof. A semiconductor film into which an impurity imparting a conductivity type opposite to that of a source region and a drain region is implanted is formed over a substrate, and a single crystal semiconductor film is bonded to the semiconductor film by an SOI technique to form a stacked semiconductor film. A channel formation region is formed using the stacked semiconductor film, thereby suppressing a punch-through current in a semiconductor device. | 06-25-2009 |
20090194803 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - The present invention provides a semiconductor device capable of being mass-produced and a manufacturing method of the semiconductor device. The present invention also provides a semiconductor device using an extreme thin integrated circuit and a manufacturing method of the semiconductor device. Further, the present invention provides a low power consumption semiconductor device and a manufacturing method of the semiconductor device. According to one aspect of the present invention, a semiconductor device that has a semiconductor nonvolatile memory element transistor over an insulating surface in which a floating gate electrode of the memory transistor is formed by a plurality of conductive particles or semiconductor particles is provided. | 08-06-2009 |
20090218568 | THIN FILM TRANSISOTR AND DISPLAY DEVICE - To improve problems with on-state current and off-state current of thin film transistors, a thin film transistor includes a pair of impurity semiconductor layers to which an impurity element imparting one conductivity type is added, provided with a space therebetween; a conductive layer which is overlapped, over the gate insulating layer, with the gate electrode and one of the pair of impurity semiconductor layers to which an impurity element imparting one conductivity type is added; and an amorphous semiconductor layer which is provided successively between the pair of impurity semiconductor layers to which an impurity element imparting one conductivity type is added in such a manner that the amorphous semiconductor layer extends over the gate insulating layer from the conductive layer and is in contact with both of the pair of impurity semiconductor layers to which an impurity element imparting one conductivity type is added. | 09-03-2009 |
20090218572 | THIN-FILM TRANSISTOR AND DISPLAY DEVICE - A thin-film transistor in which problems with ON-state current and OFF-state current are solved, and a thin-film transistor capable of high-speed operation. The thin-film transistor includes a pair of impurity semiconductor layers in which an impurity element imparting one conductivity type is added to form a source and drain regions, provided with a space therebetween so as to be overlapped with a gate electrode with a gate insulating layer interposed between the gate electrode and the impurity semiconductor layers; a pair of semiconductor layers in which an impurity element which serves as an acceptor is added, overlapped over the gate insulating layers with the gate electrode and the impurity semiconductor layers, and disposed with a space therebetween in a channel length direction; and an amorphous semiconductor layer being in contact with the gate insulating layer and the pair of semiconductor layers and extended between the pair of semiconductor layers. | 09-03-2009 |
20090278203 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - It is an object to reduce the effect of a characteristic of the edge portion of a channel forming region in a semiconductor film, on a transistor characteristic. An island-like semiconductor film is formed over a substrate, and a conductive film forming a gate electrode provided over the island-like semiconductor film with a gate insulating film interposed therebetween, is formed over the semiconductor film. In the semiconductor film, a channel forming region, a first impurity region forming a source or drain region, and a second impurity region are provided. The channel forming region is provided in a region which overlaps with the gate electrode crossing the island-like semiconductor film, the first impurity region is provided so as to be adjacent to the channel forming region, and the second impurity region is provided so as to be adjacent to the channel forming region and the first impurity region. The first impurity region and the second impurity region are provided so as to have different conductivity, and the second impurity region and the channel forming region are made to have different conductivity or to have different concentration of an impurity element contained in the second impurity region and the channel forming region in a case of having the same conductivity. | 11-12-2009 |
20100093138 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - It is an object of the present invention to obtain a transistor with a high ON current including a silicide layer without increasing the number of steps. A semiconductor device comprising the transistor includes a first region in which a thickness is increased from an edge on a channel formation region side and a second region in which a thickness is more uniform than that of the first region. The first and second region are separated by a line which is perpendicular to a horizontal line and passes through a point where a line, which passes through the edge of the silicide layer and forms an angle θ (0°<θ<45°) with the horizontal line, intersects with an interface between the silicide layer and an impurity region, and the thickness of the second region to a thickness of a silicon film is 0.6 or more. | 04-15-2010 |
20100237418 | SEMICONDUCTOR DEVICE AND METHOD FOR FABRICATING THE SAME - It is an object of the present invention to manufacture a thin film transistor having a required property without complicating steps and devices. It is another object of the present invention to provide a technique for manufacturing a semiconductor device having high reliability and better electrical characteristics with a higher yield at lower cost. In the present invention, a lightly doped impurity region is formed in a source region side or a drain region side of a semiconductor layer covered with a gate electrode layer in a thin film transistor. The semiconductor layer is doped diagonally to the surface thereof using the gate electrode layer as a mask to form the lightly doped impurity region. Therefore, the properties of the thin film transistor can be minutely controlled. | 09-23-2010 |
20110053343 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - There are provided a semiconductor device having a structure which can realize not only suppression of a punch-through current but also reuse of a silicon wafer used for bonding, in manufacturing a semiconductor device using an SOI technique, and a manufacturing method thereof. A semiconductor film into which an impurity imparting a conductivity type opposite to that of a source region and a drain region is implanted is formed over a substrate, and a single crystal semiconductor film is bonded to the semiconductor film by an SOI technique to form a stacked semiconductor film. A channel formation region is formed using the stacked semiconductor film, thereby suppressing a punch-through current in a semiconductor device. | 03-03-2011 |
20110163316 | THIN FILM TRANSISTOR AND SEMICONDUCTOR DEVICE - An impurity element imparting one conductivity type is included in a layer close to a gate insulating film of layers with high crystallinity, so that a channel formation region is formed not in a layer with low crystallinity which is formed at the beginning of film formation but in a layer with high crystallinity which is formed later in a microcrystalline semiconductor film. Further, the layer including an impurity element is used as a channel formation region. Furthermore, a layer which does not include an impurity element imparting one conductivity type or a layer which has an impurity element imparting one conductivity type at an extremely lower concentration than other layers, is provided between a pair of semiconductor films including an impurity element functioning as a source region and a drain region and the layer including an impurity element functioning as a channel formation region. | 07-07-2011 |
20110248268 | THIN FILM TRANSISTOR AND DISPLAY DEVICE - To improve problems with on-state current and off-state current of thin film transistors, a thin film transistor includes a pair of impurity semiconductor layers to which an impurity element imparting one conductivity type is added, provided with a space therebetween; a conductive layer which is overlapped, over the gate insulating layer, with the gate electrode and one of the pair of impurity semiconductor layers to which an impurity element imparting one conductivity type is added; and an amorphous semiconductor layer which is provided successively between the pair of impurity semiconductor layers to which an impurity element imparting one conductivity type is added in such a manner that the amorphous semiconductor layer extends over the gate insulating layer from the conductive layer and is in contact with both of the pair of impurity semiconductor layers to which an impurity element imparting one conductivity type is added. | 10-13-2011 |
20120032236 | SEMICONDUCTOR DEVICE - An object is to realize high performance and low power consumption in a semiconductor device having an SOI structure. In addition, another object is to provide a semiconductor device having a high performance semiconductor element which is more highly integrated. A semiconductor device is such that a plurality of n-channel field-effect transistors and p-channel field-effect transistors are stacked with an interlayer insulating layer interposed therebetween over a substrate having an insulating surface. By controlling a distortion caused to a semiconductor layer due to an insulating film having a stress, a plane orientation of the semiconductor layer, and a crystal axis in a channel length direction, difference in mobility between the n-channel field-effect transistor and the p-channel field-effect transistor can be reduced, whereby current driving capabilities and response speeds of the n-channel field-effect transistor and the p-channel field-effect can be comparable. | 02-09-2012 |
20120146144 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A semiconductor device having a highly responsive thin film transistor (TFT) with low subthreshold swing and suppressed decrease in the on-state current and a manufacturing method thereof are demonstrated. The TFT of the present invention is characterized by its semiconductor layer where the thickness of the source region or the drain region is larger than that of the channel formation region. Manufacture of the TFT is readily achieved by the formation of an amorphous semiconductor layer on a projection portion and a depression portion, which is followed by subjecting the melting process of the semiconductor layer, resulting in the formation of a crystalline semiconductor layer having different thicknesses. Selective addition of impurity to the thick portion of the semiconductor layer provides a semiconductor layer in which the channel formation region is thinner than the source or drain region. | 06-14-2012 |
20130032866 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - A transistor includes an island-like semiconductor film over a substrate, and a conductive film forming a gate electrode over the island-like semiconductor film with a gate insulating film interposed therebetween. The semiconductor film includes a channel forming region, a first impurity region forming a source or drain region, and a second impurity region. The channel forming region is overlapped with the gate electrode crossing the island-like semiconductor film. The first impurity region is adjacent to the channel forming region. The second impurity region is adjacent to the channel forming region and the first impurity region. The first impurity region and the second impurity region have different conductivity. The second impurity region and the channel forming region have different conductivity or have different concentration of an impurity element contained in the second impurity region and the channel forming region in a case of having the same conductivity. | 02-07-2013 |
20130175710 | Display Device and Method of Manufacturing Thereof - A novel display device with higher reliability having a structure of blocking moisture and oxygen, which deteriorate the characteristics of the display device, from penetrating through a sealing region and a method of manufacturing thereof is provided. According to the present invention, a display device and a method of manufacturing the same comprising: a display portion formed by aligning a light-emitting element using an organic light-emitting material between a pair of substrate, wherein the display portion is formed on an insulating layer formed on any one of the substrates, the pair of substrates is bonded to each other with a sealing material formed over the insulating layer while surrounding a periphery of the display portion, at least one layer of the insulating layer is made of an organic resin material, the periphery has a first region and a second region, the insulating layer in the first region has an opening covered with a protective film, the sealing material is formed in contact with the opening and the protective film, an outer edge portion of the insulating layer in the second region is covered with the protective film or the sealing material. | 07-11-2013 |