Patent application number | Description | Published |
20080206959 | Peeling method - A peeling method is provided which does not cause damage to a layer to be peeled, and the method enables not only peeling of the layer to be peeled having a small area but also peeling of the entire layer to be peeled having a large area at a high yield. Further, there are provided a semiconductor device, which is reduced in weight through adhesion of the layer to be peeled to various base materials, and a manufacturing method thereof. In particular, there are provided a semiconductor device, which is reduced in weight through adhesion of various elements, typically a TFT, to a flexible film, and a manufacturing method thereof. A metal layer or nitride layer is provided on a substrate; an oxide layer is provided contacting with the metal layer or nitride layer; then, a base insulating film and a layer to be peeled containing hydrogen are formed; and heat treatment for diffusing hydrogen is performed thereto at 410° C. or more. As a result, complete peeling can be attained in the oxide layer or at an interface thereof by using physical means. | 08-28-2008 |
20080224940 | Semiconductor device and manufacturing method thereof - The present invention provides a semiconductor device which is not easily damaged by external local pressure. The present invention further provides a manufacturing method of a highly-reliable semiconductor device, which is not destroyed by external local pressure, with a high yield. A structure body, in which high-strength fiber of an organic compound or an inorganic compound is impregnated with an organic resin, is provided over an element substrate having a semiconductor element formed using a single crystal semiconductor region, and heating and pressure bonding are performed, whereby a semiconductor device is manufactured, to which the element substrate and the structure body in which the high-strength fiber of an organic compound or an inorganic compound is impregnated with the organic resin are fixed together. | 09-18-2008 |
20080224941 | Semiconductor device and manufacturing method thereof - The present invention provides a semiconductor device which is not easily damaged by external local pressure. The present invention further provides a method for manufacturing a highly-reliable semiconductor device, which is not destructed by external local pressure, with a high yield. A structure body, in which high-strength fiber of an organic compound or an inorganic compound is impregnated with an organic resin, is provided over an element layer having a semiconductor element formed using a non-single crystal semiconductor layer, and heating and pressure bonding are performed, whereby a semiconductor device is manufactured, to which the element layer and the structure body in which the high-strength fiber of an organic compound or an inorganic compound is impregnated with the organic resin are firmly fixed together. | 09-18-2008 |
20080242005 | Method for manufacturing semiconductor device - In the present application, is disclosed a method of manufacturing a flexible semiconductor device having an excellent reliability and tolerance to the loading of external pressure. The method includes the steps of: forming a separation layer over a substrate having an insulating surface; forming an element layer including a semiconductor element comprising a non-single crystal semiconductor layer, over the separation layer; forming an organic resin layer over the element layer; providing a fibrous body formed of an organic compound or an inorganic compound on the organic resin layer; heating the organic resin layer; and separating the element layer from the separation layer. This method allows the formation of a flexible semiconductor device having a sealing layer in which the fibrous body is impregnated with the organic resin. | 10-02-2008 |
20080311706 | Method for manufacturing semiconductor device - To provide a method for manufacturing a highly-reliable semiconductor device, which is not damaged by external local pressure, with a high yield, a semiconductor device is manufactured by forming an element substrate having a semiconductor element formed using a single-crystal semiconductor substrate or an SOI substrate, providing the element substrate with a fibrous body formed from an organic compound or an inorganic compound, applying a composition containing an organic resin to the element substrate and the fibrous body so that the fibrous body is impregnated with the organic resin, and heating to provide the element substrate with a sealing layer in which the fibrous body formed from an organic compound or an inorganic compound is contained. | 12-18-2008 |
20090050964 | METHOD FOR MANUFACTURING THIN FILM INTEGRATED CIRCUIT, AND ELEMENT SUBSTRATE - Application form of and demand for an IC chip formed with a silicon wafer are expected to increase, and further reduction in cost is required. An object of the invention is to provide a structure of an IC chip and a process capable of producing at a lower cost. A feature of the invention is to use a metal film and a reactant having the metal film as a separation layer. An etching rate of the metal film or the reactant having metal is high, and a physical means in addition to a chemical means of etching the metal film or the reactant having metal can be used in the invention. Thus, the IDF chip can be manufactured more simply and easily in a short time. | 02-26-2009 |
20090057680 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - To provide a thin film integrated circuit at low cost and with thin thickness, which is applicable to mass production unlike the conventional glass substrate or the single crystalline silicon substrate, and a structure and a process of a thin film integrated circuit device or an IC chip having the thin film integrated circuit. A manufacturing method of a semiconductor device includes the steps of forming a first insulating film over one surface of a silicon substrate, forming a layer having at least two thin film integrated circuits over the first insulating film, forming a resin layer so as to cover the layer having the thin film integrated circuit, forming a film so as to cover the resin layer, grinding a backside of one surface of the silicon substrate which is formed with the layer having the thin film integrated circuit, and polishing the ground surface of the silicon substrate. | 03-05-2009 |
20090057875 | Semiconductor device - A highly reliable semiconductor device which is not damaged by local pressing force from the outside and in which unevenness of a portion where an antenna and an element overlap with each other is reduced. The semiconductor device includes a chip and an antenna. The chip includes a semiconductor element layer including a thin film transistor; a conductive resin electrically connected to the semiconductor element layer; and a sealing layer. The sealing layer in which a fiber body is impregnated with an organic resin covers the semiconductor element layer and the conductive resin, and has a thickness of 10 to 100 μm. The antenna has a depressed portion and is electrically connected to the semiconductor element layer through the conductive resin. The chip is embedded inside the depressed portion. The thickness of the chip is equal to the depth of the depressed portion. | 03-05-2009 |
20090065590 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A separation layer and a semiconductor element layer including a thin film transistor are formed. A conductive resin electrically connected to the semiconductor element layer is formed. A first sealing layer including a fiber and an organic resin layer is formed over the semiconductor element layer and the conductive resin. A groove is formed in the first sealing layer, the semiconductor element layer, and the separation layer. A liquid is dropped into the groove to separate the separation layer and the semiconductor element layer. The first sealing layer over the conductive resin is removed to form an opening. A set of the first sealing layer and the semiconductor element layer is divided into a chip. The chip is bonded to an antenna formed over a base material. A second sealing layer including a fiber and an organic resin layer is formed so as to cover the antenna and the chip. | 03-12-2009 |
20090159998 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - It is an object of the present invention to provide a method for manufacturing a semiconductor device, which is flexible and superiority in physical strength. As a method for manufacturing a semiconductor device, an element layer including a plurality of integrated circuits is formed over one surface of a substrate; a hole having curvature is formed in part of one surface side of the substrate; the substrate is thinned (for example, the other surface of the substrate is ground and polished); and the substrate is cut off so that a cross section of the substrate has curvature corresponding to a portion where the hole is formed; whereby a laminated body including an integrated circuit is formed. Further, a thickness of the substrate, which is polished, is 2 μm or more and 50 μm or less. | 06-25-2009 |
20090166563 | Method for Manufacturing Evaporation Donor Substrate and Light-Emitting Device - An evaporation donor substrate which enables only a desired evaporation material to be evaporated at the time of deposition by an evaporation method, and capable of reduction in manufacturing cost by increase in use efficiency of the evaporation material and deposition with high uniformity. An evaporation donor substrate capable of controlling laser light so that a desired position of an evaporation donor substrate is irradiated with the laser light in accordance with the wavelength of the emitted laser light at the time of evaporation. Specifically, an evaporation donor substrate in which a region which reflects laser light and a region which absorbs laser light at the time of irradiation with laser light having a wavelength of greater than or equal to 400 nm and less than or equal to 600 nm at the time of evaporation are formed. | 07-02-2009 |
20090212297 | LAMINATING SYSTEM - It is an object of the invention to improve the production efficiency in sealing a thin film integrated circuit and to prevent the damage and break. Further, it is another object of the invention to prevent a thin film integrated circuit from being damaged in shipment and to make it easier to handle the thin film integrated circuit. The invention provides a laminating system in which rollers are used for supplying a substrate for sealing, receiving IC chips, separating, and sealing. The separation, sealing, and reception of a plurality of thin film integrated circuits can be carried out continuously by rotating the rollers; thus, the production efficiency can be extremely improved. Further, the thin film integrated circuits can be easily sealed since a pair of rollers opposite to each other is used. | 08-27-2009 |
20100015737 | SEMICONDUCTOR DEVICE, METHOD OF MANUFACTURING THEREOF, AND METHOD OF MANUFACTURING BASE MATERIAL - It is an object of the invention to provide a lightweight semiconductor device having a highly reliable sealing structure which can prevent ingress of impurities such as moisture that deteriorate element characteristics, and a method of manufacturing thereof. A protective film having superior gas barrier properties (which is a protective film that is likely to damage an element if the protective film is formed on the element directly) is previously formed on a heat-resistant substrate other than a substrate with the element formed thereon. The protective film is peeled off from the heat-resistant substrate, and transferred over the substrate with the element formed thereon so as to seal the element. | 01-21-2010 |
20100035407 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - It is an object of the invention to provide a peeling method which does not damage a peeling layer, and to perform peeling not only a peeling layer having a small-size area but also an entire peeling layer having a large-size area with a preferable yield. In the invention, after pasting a fixing substrate, a part of a glass substrate is removed by scribing or performing laser irradiation on the glass substrate which leads to providing a trigger. Then, peeling is performed with a preferable yield by performing peeling from the removed part. In addition, a crack is prevented by covering the entire face except for a connection portion of a terminal electrode (including a periphery region of the terminal electrode) with a resin. | 02-11-2010 |
20100062569 | LAYER HAVING FUNCTIONALITY, METHOD FOR FORMING FLEXIBLE SUBSTRATE HAVING THE SAME, AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - It is an object of the present invention to provide a method for forming a layer having functionality including a conductive layer and a colored layer and a flexible substrate having a layer having functionality with a high yield. Further, it is an object of the present invention to provide a method for manufacturing a semiconductor device that is small-sized, thin, and lightweight. After coating a substrate having heat resistance with a silane coupling agent, a layer having functionality is formed. Then, after attaching an adhesive to the layer having functionality, the layer having functionality is peeled from the substrate. Further, after coating a substrate having heat resistance with a silane coupling agent, a layer having functionality is formed. Then, an adhesive is attached to the layer having functionality. Thereafter, the layer having functionality is peeled from the substrate, and a flexible substrate is attached to the layer having functionality. | 03-11-2010 |
20100197113 | MANUFACTURING METHOD OF SEMICONDUCTOR DEVICE - To provide a thin semiconductor device having flexibility. A groove is formed in one surface of a substrate; an element layer including an element is formed, the element being disposed within the groove; the substrate is thinned from the other surface of the substrate until one surface of the element layer is exposed, to form a layer which is to be transposed, having the element; and the layer to be transposed is transposed onto the film. | 08-05-2010 |
20100200663 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - In the present application, is disclosed a method of manufacturing a flexible semiconductor device having an excellent reliability and tolerance to the loading of external pressure. The method includes the steps of: forming a separation layer over a substrate having an insulating surface; forming an element layer including a semiconductor element comprising a non-single crystal semiconductor layer, over the separation layer; forming an organic resin layer over the element layer; providing a fibrous body formed of an organic compound or an inorganic compound on the organic resin layer; heating the organic resin layer; and separating the element layer from the separation layer. This method allows the formation of a flexible semiconductor device having a sealing layer in which the fibrous body is impregnated with the organic resin. | 08-12-2010 |
20100317156 | METHOD FOR MANUFACTURING INTEGRATED CIRCUIT - A method for separating an integrated circuit formed by a thin film having a novel structure or a method for transferring the integrated circuit to another substrate, that is, so-called transposing method, has not been proposed. According to the present invention, in the case that an integrated circuit having a thin film having a novel structure formed over a substrate via a release layer is separated, the release layer is removed in the state that the thin film integrated circuit is fixated, the thin film integrated circuit is transposed to a supporting substrate having an adhesion surface, and the thin film integrated circuit is transposed to another substrate having an adhesion surface with higher strength of adhesion than that of the supporting substrate. | 12-16-2010 |
20110024853 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The present invention provides a semiconductor device which is not easily damaged by external local pressure. The present invention further provides a manufacturing method of a highly-reliable semiconductor device, which is not destroyed by external local pressure, with a high yield. A structure body, in which high-strength fiber of an organic compound or an inorganic compound is impregnated with an organic resin, is provided over an element substrate having a semiconductor element formed using a single crystal semiconductor region, and heating and pressure bonding are performed, whereby a semiconductor device is manufactured, to which the element substrate and the structure body in which the high-strength fiber of an organic compound or an inorganic compound is impregnated with the organic resin are fixed together. | 02-03-2011 |
20110033987 | METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - An object is to provide a method for manufacturing a semiconductor device which suppresses an influence on a semiconductor element due to entry of an impurity element, moisture, or the like from outside even in the case of thinning or removing a substrate after forming a semiconductor element over the substrate. A feature is to form an insulating film functioning as a protective film on at least one side of the substrate by performing surface treatment on the substrate, to form a semiconductor element such as a thin film transistor over the insulating film, and to thin the substrate. As the surface treatment, addition of an impurity element or plasma treatment is performed on the substrate. As a means for thinning the substrate, the substrate can be partially removed by performing grinding treatment, polishing treatment, or the like on the other side of the substrate. | 02-10-2011 |
20110084321 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - It is an object of the present invention to provide a semiconductor device where, even in a case of stacking a plurality of semiconductor elements provided over a substrate, the stacked semiconductor elements can be electrically connected through the substrate, and a manufacturing method thereof. According to one feature of the present invention, a method for manufacturing a semiconductor device includes the steps of selectively forming a depression in an upper surface of a substrate or forming an opening which penetrates the upper surface through a back surface; forming an element group having a transistor so as to cover the upper surface of the substrate and the depression, or the opening; and exposing the element group formed in the depression or the opening by thinning the substrate from the back surface. A means for thinning the substrate can be performed by partially removing the substrate by performing grinding treatment, polishing treatment, etching by chemical treatment, or the like from the back surface of the substrate. | 04-14-2011 |
20110207292 | METHOD FOR MANUFACTURING THIN FILM INTEGRATED CIRCUIT, AND ELEMENT SUBSTRATE - Application form of and demand for an IC chip formed with a silicon wafer are expected to increase, and further reduction in cost is required. An object of the invention is to provide a structure of an IC chip and a process capable of producing at a lower cost. A feature of the invention is to use a metal film and a reactant having the metal film as a separation layer. An etching rate of the metal film or the reactant having metal is high, and a physical means in addition to a chemical means of etching the metal film or the reactant having metal can be used in the invention. Thus, the IDF chip can be manufactured more simply and easily in a short time. | 08-25-2011 |
20110233556 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - The present invention provides a semiconductor device which is not easily damaged by external local pressure. The present invention further provides a method for manufacturing a highly-reliable semiconductor device, which is not destructed by external local pressure, with a high yield. A structure body, in which high-strength fiber of an organic compound or an inorganic compound is impregnated with an organic resin, is provided over an element layer having a semiconductor element formed using a non-single crystal semiconductor layer, and heating and pressure bonding are performed, whereby a semiconductor device is manufactured, to which the element layer and the structure body in which the high-strength fiber of an organic compound or an inorganic compound is impregnated with the organic resin are firmly fixed together. | 09-29-2011 |
20110244656 | INTEGRATED CIRCUIT DEVICE AND MANUFACTURING METHOD THEREOF - It is an object of the present invention to improve a factor which influences productivity such as variation caused by a characteristic defect of a circuit by thinning or production yield when an integrated circuit device in which a substrate is thinned is manufactured. A stopper layer is formed over one surface of a substrate, and an element is formed over the stopper layer, and then, the substrate is thinned from the other surface thereof. A method in which a substrate is ground or polished or a method in which the substrate is etched by chemical reaction is used as a method for thinning or removing the substrate. | 10-06-2011 |
20120001181 | LAYER HAVING FUNCTIONALITY, METHOD FOR FORMING FLEXIBLE SUBSTRATE HAVING THE SAME, AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - It is an object of the present invention to provide a method for forming a layer having functionality including a conductive layer and a colored layer and a flexible substrate having a layer having functionality with a high yield. Further, it is an object of the present invention to provide a method for manufacturing a semiconductor device that is small-sized, thin, and lightweight. After coating a substrate having heat resistance with a silane coupling agent, a layer having functionality is formed. Then, after attaching an adhesive to the layer having functionality, the layer having functionality is peeled from the substrate. Further, after coating a substrate having heat resistance with a silane coupling agent, a layer having functionality is formed. Then, an adhesive is attached to the layer having functionality. Thereafter, the layer having functionality is peeled from the substrate, and a flexible substrate is attached to the layer having functionality. | 01-05-2012 |
20120070919 | SEMICONDUCTOR DEVICE, METHOD OF MANUFACTURING THEREOF, AND METHOD OF MANUFACTURING BASE MATERIAL - It is an object of the invention to provide a lightweight semiconductor device having a highly reliable sealing structure which can prevent ingress of impurities such as moisture that deteriorate element characteristics, and a method of manufacturing thereof. A protective film having superior gas barrier properties (which is a protective film that is likely to damage an element if the protective film is formed on the element directly) is previously formed on a heat-resistant substrate other than a substrate with the element formed thereon. The protective film is peeled off from the heat-resistant substrate, and transferred over the substrate with the element formed thereon so as to seal the element. | 03-22-2012 |
20120088324 | Method for Manufacturing Evaporation Donor Substrate and Light-Emitting Device - An evaporation donor substrate which enables only a desired evaporation material to be evaporated at the time of deposition by an evaporation method, and capable of reduction in manufacturing cost by increase in use efficiency of the evaporation material and deposition with high uniformity. An evaporation donor substrate capable of controlling laser light so that a desired position of an evaporation donor substrate is irradiated with the laser light in accordance with the wavelength of the emitted laser light at the time of evaporation. Specifically, an evaporation donor substrate in which a region which reflects laser light and a region which absorbs laser light at the time of irradiation with laser light having a wavelength of greater than or equal to 400 nm and less than or equal to 600 nm at the time of evaporation are formed. | 04-12-2012 |
20130270720 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING THE SAME - A separation layer and a semiconductor element layer including a thin film transistor are formed. A conductive resin electrically connected to the semiconductor element layer is formed. A first sealing layer including a fiber and an organic resin layer is formed over the semiconductor element layer and the conductive resin. A groove is formed in the first sealing layer, the semiconductor element layer, and the separation layer. A liquid is dropped into the groove to separate the separation layer and the semiconductor element layer. The first sealing layer over the conductive resin is removed to form an opening. A set of the first sealing layer and the semiconductor element layer is divided into a chip. The chip is bonded to an antenna formed over a base material. A second sealing layer including a fiber and an organic resin layer is formed so as to cover the antenna and the chip. | 10-17-2013 |
20140038373 | SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD THEREOF - It is an object of the present invention to provide a semiconductor device where, even in a case of stacking a plurality of semiconductor elements provided over a substrate, the stacked semiconductor elements can be electrically connected through the substrate, and a manufacturing method thereof. According to one feature of the present invention, a method for manufacturing a semiconductor device includes the steps of selectively forming a depression in an upper surface of a substrate or forming an opening which penetrates the upper surface through a back surface; forming an element group having a transistor so as to cover the upper surface of the substrate and the depression, or the opening; and exposing the element group formed in the depression or the opening by thinning the substrate from the back surface. A means for thinning the substrate can be performed by partially removing the substrate by performing grinding treatment, polishing treatment, etching by chemical treatment, or the like from the back surface of the substrate. | 02-06-2014 |
20140220745 | LAMINATING SYSTEM - It is an object of the invention to improve the production efficiency in sealing a thin film integrated circuit and to prevent the damage and break. Further, it is another object of the invention to prevent a thin film integrated circuit from being damaged in shipment and to make it easier to handle the thin film integrated circuit. The invention provides a laminating system in which rollers are used for supplying a substrate for sealing, receiving IC chips, separating, and sealing. The separation, sealing, and reception of a plurality of thin film integrated circuits can be carried out continuously by rotating the rollers; thus, the production efficiency can be extremely improved. Further, the thin film integrated circuits can be easily sealed since a pair of rollers opposite to each other is used. | 08-07-2014 |