Comprising Group Iii-v Or Ii-vi Compound, Or Of Se, Te, Or Oxide Semiconductor (epo) Patents (Class 257/E29.296)
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Solution composition for forming oxide thin film and electronic device including the oxide thin film
Publication number: 20100258793Abstract: A solution composition for forming an oxide thin film may include a first compound including zinc, a second compound including indium, and a third compound including magnesium or hafnium, and an electronic device may include an oxide semiconductor including zinc, indium, and magnesium. The zinc and hafnium may be included at an atomic ratio of about 1:0.01 to about 1:1.Type: ApplicationFiled: April 9, 2010Publication date: October 14, 2010Inventors: Jong-Baek Seon, Hyun-Jae Kim, Sang-Yoon Lee, Myung-Kwan Ryu, Hyun-Soo Shin, Kyung-Bae Park, Woong-Hee Jeong, Gun-Hee Kim, Byung-Du Ahn -
Patent number: 7812346Abstract: A fabrication method is used in conjunction with a semiconductor device having a metal oxide active layer less than 100 nm thick and the upper major surface and the lower major surface have material in abutting engagement to form underlying interfaces and overlying interfaces. The method of fabrication includes controlling interfacial interactions in the underlying interfaces and the overlying interfaces to adjust the carrier density in the adjacent metal oxide by selecting a metal oxide for the metal oxide active layer and by selecting a specific material for the material in abutting engagement. The method also includes one or both steps of controlling interactions in underlying interfaces by surface treatment of an underlying material forming a component of the underlying interface and controlling interactions in overlying interfaces by surface treatment of the metal oxide film performed prior to deposition of material on the metal oxide layer.Type: GrantFiled: July 16, 2008Date of Patent: October 12, 2010Assignee: Cbrite, Inc.Inventors: Chan-Long Shieh, Gang Yu
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Publication number: 20100252826Abstract: With an increase in the definition of a display device, the number of pixels is increased, and thus the numbers of gate lines and signal lines are increased. The increase in the numbers of gate lines and signal lines makes it difficult to mount an IC chip having a driver circuit for driving the gate line and the signal line by bonding or the like, which causes an increase in manufacturing costs. A pixel portion and a driver circuit driving the pixel portion are provided over the same substrate. The pixel portion and at least a part of the driver circuit are formed using thin film transistors in each of which an oxide semiconductor is used. Both the pixel portion and the driver circuit are provided over the same substrate, whereby manufacturing costs are reduced.Type: ApplicationFiled: September 30, 2009Publication date: October 7, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Shunpei YAMAZAKI, Kengo AKIMOTO, Atsushi UMEZAKI
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Publication number: 20100252827Abstract: An object is to provide a thin film transistor including an oxide semiconductor layer, in which the contact resistance between the oxide semiconductor layer and source and drain electrode layers is reduced and whose electric characteristics are stabilized. Another object is to provide a method for manufacturing the thin film transistor. The thin film transistor including an oxide semiconductor layer is formed in such a manner that buffer layers whose conductivity is higher than that of the oxide semiconductor layer are formed and the oxide semiconductor layer and the source and drain electrode layers are electrically connected to each other through the buffer layers. In addition, the buffer layers whose conductivity is higher than that of the oxide semiconductor layer are subjected to reverse sputtering treatment and heat treatment in a nitrogen atmosphere.Type: ApplicationFiled: March 29, 2010Publication date: October 7, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Yuji ASANO, Junichi KOEZUKA
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Publication number: 20100252832Abstract: An object is to provide a thin film transistor using an oxide semiconductor layer, in which contact resistance between the oxide semiconductor layer and source and drain electrode layers is reduced and electric characteristics are stabilized. The thin film transistor is formed in such a manner that a buffer layer including a high-resistance region and low-resistance regions is formed over an oxide semiconductor layer, and the oxide semiconductor layer and source and drain electrode layers are in contact with each other with the low-resistance region of the buffer layer interposed therebetween.Type: ApplicationFiled: March 29, 2010Publication date: October 7, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Yuji ASANO, Junichi KOEZUKA
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Publication number: 20100244022Abstract: A first gate electrode (2) is formed on a substrate (1); a first gate insulating layer (3) is formed so as to cover the first gate electrode (2); a semiconductor layer (4) including an oxide semiconductor is formed on the first gate insulating layer (3); a second gate insulating layer (7) is formed on the semiconductor layer (4); a second gate electrode (8) having a thickness equal to or larger than a thickness of the first gate electrode (2) is formed on the second gate insulating layer (7); and a drain electrode (6) and a source electrode (5) are formed so as to be connected to the semiconductor layer (4).Type: ApplicationFiled: January 20, 2009Publication date: September 30, 2010Applicant: CANON KABUSHIKI KAISHAInventors: Kenji Takahashi, Ryo Hayashi
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Publication number: 20100244020Abstract: An object of an embodiment of the present invention is to provide a semiconductor device provided with a thin film transistor which includes an oxide semiconductor layer and has high electric characteristics. The semiconductor device includes a gate electrode over an insulating surface, an oxide semiconductor layer including silicon oxide, an insulating layer between the gate electrode and the oxide semiconductor layer, and source and drain regions between the oxide semiconductor layer including silicon oxide and source and drain electrode layers. The source and drain regions are formed using a degenerate oxide semiconductor material or a degenerate oxynitride material.Type: ApplicationFiled: March 12, 2010Publication date: September 30, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Junichiro SAKATA, Hideyuki KISHIDA, Hiroki OHARA, Toshinari SASAKI, Shunpei YAMAZAKI
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Publication number: 20100244031Abstract: The drain voltage of a transistor is determined depending on the driving voltage of an element connected to the transistor. With downsizing of a transistor, intensity of the electric field concentrated in the drain region is increased, and hot carriers are easily generated. An object is to provide a transistor in which the electric field hardly concentrates in the drain region. Another object is to provide a display device including such a transistor. End portions of first and second wiring layers having high electrical conductivity do not overlap with a gate electrode layer, whereby concentration of an electric field in the vicinity of a first electrode layer and a second electrode layer is reduced; thus, generation of hot carriers is suppressed. In addition, one of the first and second electrode layers having higher resistivity than the first and second wiring layers is used as a drain electrode layer.Type: ApplicationFiled: March 17, 2010Publication date: September 30, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Kengo AKIMOTO, Hiromichi GODO, Akiharu MIYANAGA
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Publication number: 20100244021Abstract: To reduce adverse effects on actual operation and to reduce adverse effects of noise. A structure including an electrode, a wiring electrically connected to the electrode, an oxide semiconductor layer overlapping with the electrode in a plane view, an insulating layer provided between the electrode and the oxide semiconductor layer in a cross-sectional view, and a functional circuit to which a signal is inputted from the electrode through the wiring and in which operation is controlled in accordance with the signal inputted. A capacitor is formed using an oxide semiconductor layer, an insulating layer, and a wiring or an electrode.Type: ApplicationFiled: March 18, 2010Publication date: September 30, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Hideki Uochi, Daisuke Kawae
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Patent number: 7804088Abstract: A semiconductor device includes a substrate and a semiconductor layer having a channel region, the channel region is made from an oxide semiconductor which satisfies Vc/Va>4 where Vc is a volume ratio of a crystalline component and Va is a volume ratio of a non-crystalline component.Type: GrantFiled: April 6, 2009Date of Patent: September 28, 2010Assignee: FUJIFILM CorporationInventors: Atsushi Tanaka, Ken-ichi Umeda, Kohei Higashi, Maki Nangu
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Patent number: 7795613Abstract: A structure with a transistor is disclosed comprising a substrate, a gas barrier layer on the substrate, and a transistor on the gas barrier layer. The transistor can include an oxide semiconductor layer. The oxide semiconductor layers can comprise In—Ga—Zn—O. A display, such as a liquid crystal display, can have such a structure.Type: GrantFiled: April 17, 2007Date of Patent: September 14, 2010Assignee: Toppan Printing Co., Ltd.Inventors: Manabu Ito, Masato Kon, Mamoru Ishizaki, Norimasa Sekine
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Publication number: 20100224871Abstract: The present application provides a thin film transistor and a method of manufacturing same capable of suppressing diffusion of aluminum to oxide semiconductor and selectively etching oxide semiconductor and aluminum oxide. The thin film transistor includes: a gate electrode; a channel layer whose main component is oxide semiconductor; a gate insulating film provided between the gate electrode and the channel layer; a sealing layer provided on the side opposite to the gate electrode, of the channel layer; and a pair of electrodes which are in contact with the channel layer and serve as a source and a drain. The sealing layer includes at least a first insulating film made of a first insulating material, and a second insulating film made of a second insulting material having etching selectivity to each of the oxide semiconductor and the first insulating material and provided between the first insulating film and the channel layer.Type: ApplicationFiled: February 22, 2010Publication date: September 9, 2010Applicant: SONY CORPORATIONInventors: Norihiko Yamaguchi, Satoshi Taniguchi, Hiroko Miyashita, Yasuhiro Terai
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Publication number: 20100224873Abstract: It is an object to provide a highly reliable semiconductor device including a thin film transistor with stable electric characteristics. In a semiconductor device including an inverted staggered thin film transistor whose semiconductor layer is an oxide semiconductor layer, a buffer layer is provided over the oxide semiconductor layer. The buffer layer is in contact with a channel formation region of the semiconductor layer and source and drain electrode layers. A film of the buffer layer has resistance distribution. A region provided over the channel formation region of the semiconductor layer has lower electrical conductivity than the channel formation region of the semiconductor layer, and a region in contact with the source and drain electrode layers has higher electrical conductivity than the channel formation region of the semiconductor layer.Type: ApplicationFiled: March 4, 2010Publication date: September 9, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Junichiro SAKATA, Takuya HIROHASHI, Hideyuki KISHIDA
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Publication number: 20100224870Abstract: A field effect transistor includes at least a channel layer, a gate insulation layer, a source electrode, a drain electrode, and a gate electrode. The channel layer is formed from an amorphous oxide material that contains at least In and Mg, and an element ratio, expressed by Mg/(In+Mg), of the amorphous oxide material is 0.1 or higher and 0.48 or lower.Type: ApplicationFiled: December 2, 2008Publication date: September 9, 2010Applicant: CANON KABUSHIKI KAISHAInventors: Tatsuya Iwasaki, Naho Itagaki
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Publication number: 20100224878Abstract: A semiconductor device includes a semiconductor layer over a substrate; a gate insulating film covering the semiconductor layer; a gate wiring including a gate electrode, which is provided over the gate insulating film and is formed by stacking a first conductive layer and a second conductive layer; an insulating film covering the semiconductor layer and the gate wiring including the gate electrode; and a source wiring including a source electrode, which is provided over the insulating film, is electrically connected to the semiconductor layer, and is formed by stacking a third conductive layer and a fourth conductive layer. The gate electrode is formed using the first conductive layer. The gate wiring is formed using the first conductive layer and the second conductive layer. The source electrode is formed using the third conductive layer. The source wiring is formed using the third conductive layer and the fourth conductive layer.Type: ApplicationFiled: February 24, 2010Publication date: September 9, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventor: Hajime KIMURA
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Publication number: 20100219410Abstract: An object is to reduce to reduce variation in threshold voltage to stabilize electric characteristics of thin film transistors each using an oxide semiconductor layer. An object is to reduce an off current. The thin film transistor using an oxide semiconductor layer is formed by stacking an oxide semiconductor layer containing insulating oxide over the oxide semiconductor layer so that the oxide semiconductor layer and source and drain electrode layers are in contact with each other with the oxide semiconductor layer containing insulating oxide interposed therebetween; whereby, variation in threshold voltage of the thin film transistors can be reduced and thus the electric characteristics can be stabilized. Further, an off current can be reduced.Type: ApplicationFiled: February 17, 2010Publication date: September 2, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Hiromichi GODO, Kengo AKIMOTO, Shunpei YAMAZAKI
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Publication number: 20100213460Abstract: In a thin film transistor, an increase in off current or negative shift of the threshold voltage is prevented. In the thin film transistor, a buffer layer is provided between an oxide semiconductor layer and each of a source electrode layer and a drain electrode layer. The buffer layer includes a metal oxide layer which is an insulator or a semiconductor over a middle portion of the oxide semiconductor layer. The metal oxide layer functions as a protective layer for suppressing incorporation of impurities into the oxide semiconductor layer. Therefore, in the thin film transistor, an increase in off current or negative shift of the threshold voltage can be prevented.Type: ApplicationFiled: February 3, 2010Publication date: August 26, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Toshikazu Kondo, Hideyuki Kishida
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Publication number: 20100213459Abstract: A transistor is constituted of a gate electrode 2, a gate insulation layer 3, a semiconductor layer 4 formed of an amorphous oxide, a source electrode 5, a drain electrode 6 and a protective layer 7. The protective layer 7 is provided on the semiconductor layer 4 in contact with the semiconductor layer 4, and the semiconductor layer 4 includes a first layer at least functioning as a channel layer and a second layer having higher resistance than the first layer. The first layer is provided on the gate electrode 2 side of the semiconductor layer 4 and the second layer is provided on the protective layer 7 side of the semiconductor layer 4.Type: ApplicationFiled: September 18, 2008Publication date: August 26, 2010Applicant: Canon Kabushiki KaishaInventors: Mikio Shimada, Ryo Hayashi, Hideya Kumomi
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Publication number: 20100213461Abstract: A method for forming a thin film transistor includes steps of forming a first wiring layer over a first electrode layer and forming a second wiring layer over a second electrode layer, wherein the first electrode layer extends beyond an end portion of the first wiring layer, the second electrode layer extends beyond an end portion of the second wiring layer, and a semiconductor layer is formed so as to be electrically connected to a side face and a top face of the first electrode layer and a side face and a top face of the second electrode layer.Type: ApplicationFiled: February 5, 2010Publication date: August 26, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Kengo AKIMOTO, Masashi TSUBUKU
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Publication number: 20100207119Abstract: 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.Type: ApplicationFiled: February 4, 2010Publication date: August 19, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Junichiro SAKATA, Hiromichi GODO, Takashi SHIMAZU
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Publication number: 20100207118Abstract: 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.Type: ApplicationFiled: February 4, 2010Publication date: August 19, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Junichiro SAKATA, Hiromichi GODO, Takashi SHIMAZU
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Publication number: 20100207117Abstract: 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.Type: ApplicationFiled: February 4, 2010Publication date: August 19, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Junichiro SAKATA, Hiromichi GODO, Takashi SHIMAZU
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Publication number: 20100200851Abstract: An object is to provide a semiconductor device provided with a thin film transistor having excellent electric characteristics using an oxide semiconductor layer. An In—Sn—O-based oxide semiconductor layer including SiOX is used for a channel formation region. In order to reduce contact resistance between the In—Sn—O-based oxide semiconductor layer including SiOX and a wiring layer formed from a metal material having low electric resistance, a source region or drain region is formed between a source electrode layer or drain electrode layer and the In—Sn—O-based oxide semiconductor layer including SiOX. The source region or drain region and a pixel region are formed using an In—Sn—O-based oxide semiconductor layer which does not include SiOX.Type: ApplicationFiled: January 28, 2010Publication date: August 12, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Yoshiaki OIKAWA, Hotaka MARUYAMA, Hiromichi GODO, Daisuke KAWAE, Shunpei YAMAZAKI
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Publication number: 20100200849Abstract: A thin film transistor and a manufacturing method thereof are provided. In the manufacturing method of the thin film transistor a semiconductive active layer and a semiconductor passivation layer are sequentially formed such that the semiconductor passivation layer protectively covers the semiconductive active layer. Then the stacked combination of the semiconductive active layer and semiconductor passivation layer are patterned by using a same patterning mask so that formed islands of the semiconductive active layer continue to be protectively covered by formed islands of the semiconductor passivation layer. In one embodiment, the semiconductive active layer is formed of a semiconductive oxide.Type: ApplicationFiled: August 5, 2009Publication date: August 12, 2010Inventors: Seong-Kweon Heo, Min-Chul Shin, Chang-Mo Park
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Publication number: 20100200857Abstract: A transistor includes a gate electrode, a gate insulating layer, a semiconductor layer including an amorphous oxide, source-drain electrodes, and a protective layer on a substrate. The semiconductor layer includes a first region corresponding to a region in which the source-drain electrodes are formed, and a second region not corresponding to the region in which the source-drain electrodes are formed. At least the first region includes a crystalline component having a composition different from the composition of the amorphous oxide in the second region.Type: ApplicationFiled: November 27, 2008Publication date: August 12, 2010Applicant: Canon Kabushiki KaishaInventor: Mikio Shimada
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Publication number: 20100193783Abstract: In forming a thin film transistor, an oxide semiconductor layer is used and a cluster containing a titanium compound whose electrical conductance is higher than that of the oxide semiconductor layer is formed between the oxide semiconductor layer and a gate insulating layer.Type: ApplicationFiled: January 25, 2010Publication date: August 5, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Shunpei Yamazaki, Junichiro Sakata, Hideyuki Kishida
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Publication number: 20100193782Abstract: It is an object to reduce characteristic variation among transistors and reduce contact resistance between an oxide semiconductor layer and a source electrode layer and a drain electrode layer, in a transistor where the oxide semiconductor layer is used as a channel layer. In a transistor where an oxide semiconductor is used as a channel layer, at least an amorphous structure is included in a region of an oxide semiconductor layer between a source electrode layer and a drain electrode layer, where a channel is to be formed, and a crystal structure is included in a region of the oxide semiconductor layer which is electrically connected to an external portion such as the source electrode layer and the drain electrode layer.Type: ApplicationFiled: January 20, 2010Publication date: August 5, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventor: Junichiro SAKATA
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Publication number: 20100193785Abstract: It is an object to provide a semiconductor device which has a large size and operates at high speed. A top gate transistor which includes a semiconductor layer of single-crystal and a bottom gate transistor which includes a semiconductor layer of amorphous silicon (microcrystalline silicon) are formed over the same substrate. Then, gate electrodes of each transistor are formed with the same layer, and source and drain electrodes are also formed with the same layer. Thus, manufacturing steps are reduced. In other words, two types of transistors can be manufactured by adding only a few steps to the manufacturing process of a bottom gate transistor.Type: ApplicationFiled: April 6, 2010Publication date: August 5, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventor: Hajime KIMURA
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Publication number: 20100194450Abstract: In a light-emitting display apparatus including a plurality of pixels each including a light-emitting element and a driving circuit of the light-emitting element, and the driving circuit includes a plurality of thin-film transistors connected in parallel, a threshold voltage of the thin-film transistor reversibly changes according to a voltage applied between a gate and a source or between the gate and a drain of each of the thin-film transistors, by selecting and switching the plurality of thin-film transistors TFT11 to TFT13, the threshold voltage of the thin-film transistors for supplying a current to the light-emitting element is held within a predetermined range.Type: ApplicationFiled: November 11, 2008Publication date: August 5, 2010Applicant: CANON KABUSHIKI KAISHAInventors: Hisae Shimizu, Ryo Hayashi, Katsumi Abe
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Publication number: 20100193784Abstract: A thin-film transistor includes: a gate electrode formed on a substrate; an oxide semiconductor layer forming a channel region corresponding to the gate electrode; a first gate insulating film formed on the substrate and the gate electrode, and including a silicon nitride film; a second gate insulating film selectively formed to contact with the oxide semiconductor layer in a region, on the first gate insulating film, corresponding to the oxide semiconductor layer, and including one of a silicon oxide film and a silicon oxynitride film; a source/drain electrode; and a protecting film. An upper surface and a side surface of the oxide semiconductor layer and a side surface of the second gate insulating film are covered, on the first gate insulating film, by the source/drain electrode and the protecting film.Type: ApplicationFiled: January 27, 2010Publication date: August 5, 2010Applicant: SONY CORPORATIONInventors: Narihiro Morosawa, Takashige Fujimori
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Publication number: 20100187524Abstract: A manufacturing method of a semiconductor device of the present invention includes the steps of forming a stacked body in which a semiconductor film, a gate insulating film, and a first conductive film are sequentially stacked over a substrate; selectively removing the stacked body to form a plurality of island-shaped stacked bodies; forming an insulating film to cover the plurality of island-shaped stacked bodies; removing a part of the insulating film to expose a surface of the first conductive film, such that a surface of the first conductive film almost coextensive with a height of the insulating film; forming a second conductive film over the first conductive film and a left part of the insulating film; forming a resist over the second conductive film; selectively removing the first conductive film and the second conductive film using the resist as a mask.Type: ApplicationFiled: March 31, 2010Publication date: July 29, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Atsuo ISOBE, Tamae TAKANO, Yasuyuki ARAI, Fumiko TERASAWA
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Publication number: 20100191083Abstract: The conductive polymer films of this disclosure reversibly and selectively mediate ligand-receptor interactions. This electrochemical manipulation of biochemical interactions is accomplished by embedding or adsorbing receptors for ligands of interest in or onto a conductive polymer matrix. The matrix can also be doped, for example, with desired ions, polyions, or surfactants. Depending on the receptor properties and dopants utilized, ligand-receptor interactions at the polymer-electrolyte interface are manipulated by controlling the oxidation and reduction of the conductive polymer. The intrinsic charge transfer characteristics of conductive polymers are used to modulate ligand-receptor interactions.Type: ApplicationFiled: October 4, 2007Publication date: July 29, 2010Applicant: PRESIDENT AND FELLOWS OF HARVARD COLLEGEInventors: Kevin Kit Parker, Megan O'Grady
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Publication number: 20100181565Abstract: 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 SiO2, so that the semiconductor device in which the Si-element concentration in the thickness direction of the oxide semiconductor layer has a gradient which increases in accordance with an increase in a distance from a gate electrode is realized.Type: ApplicationFiled: January 7, 2010Publication date: July 22, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Junichiro SAKATA, Takashi SHIMAZU, Hiroki OHARA, Toshinari SASAKI, Shunpei YAMAZAKI
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Publication number: 20100175755Abstract: Methods for fabrication of copper delafossite materials include a low temperature sol-gel process for synthesizing CuBO2 powders, and a pulsed laser deposition (PLD) process for forming thin films of CuBO2, using targets made of the CuBO2 powders. The CuBO2 thin films are optically transparent p-type semiconductor oxide thin films. Devices with CuBO2 thin films include p-type transparent thin film transistors (TTFT) comprising thin film CuBO2 as a channel layer and thin film solar cells with CuBO2 p-layers. Solid state dye sensitized solar cells (SS-DSSC) comprising CuBO2 in various forms, including “core-shell” and “nano-couple” particles, and methods of manufacture, are also described.Type: ApplicationFiled: December 21, 2009Publication date: July 15, 2010Applicant: APPLIED MATERIALS, INC.Inventors: Kaushal K. SINGH, Omkaram NALAMASU, Nety M. KRISHNA, Michael SNURE, Ashutosh TIWARI
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Publication number: 20100176394Abstract: An oxide semiconductor thin film transistor and a flat panel display device incorporating the same oxide semiconductor thin film transistor. The thin film transistor includes a gate electrode formed on the substrate, a gate insulating layer formed on the substrate and covering the gate electrode, an oxide semiconductor layer formed on the gate insulating layer and covering the gate electrode, a titanium layer formed in a source region and a drain region of the oxide semiconductor layer, and source and drain electrodes respectively coupled to the source region and the drain region through the titanium layer and made of copper. The titanium layer reduces the contact resistance between the source and drain electrodes made of copper and the oxide semiconductor layer, forms a stable interface junction therebetween, and blocks a diffusion of copper.Type: ApplicationFiled: January 8, 2010Publication date: July 15, 2010Applicant: Samsung Mobile Display Co., Ltd.Inventors: Jin-Seong Park, Yeon-Gon Mo, Jae-Kyeong Jeong, Min-Kyu Kim, Hyun-Joong Chung, Tae-Kyung Ahn, Eun-Hyun Kim
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THIN FILM TRANSISTOR, METHOD OF MANUFACTURING THE SAME AND FLAT PANEL DISPLAY DEVICE HAVING THE SAME
Publication number: 20100176388Abstract: A thin film transistor which has a compound semiconductor including oxygen as an activation layer, a method of manufacturing the thin film transistor, and a flat panel display device having the thin film transistor, of which the thin film transistor comprises: a gate electrode formed on a substrate; an activation layer formed on the gate electrode, insulated from the gate electrode by a gate insulating film, and formed of a compound semiconductor including oxygen; a passivation layer formed on the activation layer; and source and drain electrodes formed to contact the activation layer, wherein the passivation layer includes titanium oxide (TiOx) or titanium oxynitride (TiOxNy).Type: ApplicationFiled: January 11, 2010Publication date: July 15, 2010Applicant: Samsung Mobile Display Co., Ltd.Inventors: Jae-Heung Ha, Jong-Hyuk Lee, Young-Woo Song, Chaungi Choi -
Publication number: 20100176392Abstract: A TFT includes a substrate, a source electrode and a drain electrode on the substrate, the source and drain electrodes separated from each other, an active layer on the substrate between the source electrode and the drain electrode, a cladding unit on side surfaces of the source electrode and the drain electrode, a gate insulating layer on the substrate, the gate insulating layer overlapping the active layer and the cladding unit, and a gate electrode on the gate insulating layer, the gate electrode overlapping the active layer.Type: ApplicationFiled: August 4, 2009Publication date: July 15, 2010Inventors: Ki-Nyeng Kang, Chul-Kyu Kang, Jong-Hyun Choi
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Publication number: 20100176393Abstract: Provided are an oxide semiconductor and a thin film transistor including the oxide semiconductor. The oxide semiconductor may be formed of indium (In) oxide and hafnium (Hf) and may be a channel material of the thin film transistor.Type: ApplicationFiled: December 17, 2009Publication date: July 15, 2010Inventors: Sang-wook Kim, Sung-ho Park, Chang-jung Kim, Sun-il Kim
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Publication number: 20100163868Abstract: A semiconductor device which includes a thin film transistor having an oxide semiconductor layer and excellent electrical characteristics is provided. Further, a method for manufacturing a semiconductor device in which plural kinds of thin film transistors of different structures are formed over one substrate to form plural kinds of circuits and in which the number of steps is not greatly increased is provided. After a metal thin film is formed over an insulating surface, an oxide semiconductor layer is formed thereover. Then, oxidation treatment such as heat treatment is performed to oxidize the metal thin film partly or entirely. Further, structures of thin film transistors are different between a circuit in which emphasis is placed on the speed of operation, such as a logic circuit, and a matrix circuit.Type: ApplicationFiled: December 23, 2009Publication date: July 1, 2010Applicant: Semiconductor Energy Laboratory Co., Ltd.Inventors: Shunpei YAMAZAKI, Junichiro SAKATA, Jun KOYAMA
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Publication number: 20100163865Abstract: A display device includes a first wiring functioning as a gate electrode formed over a substrate, a gate insulating film formed over the first wiring, a second wiring and an electrode layer provided over the gate insulating film, and a high-resistance oxide semiconductor layer formed between the second wiring and the electrode layer are included. In the structure, the second wiring is formed using a stack of a low-resistance oxide semiconductor layer and a conductive layer over the low-resistance oxide semiconductor layer, and the electrode layer is formed using a stack of the low-resistance oxide semiconductor layer and the conductive layer which is stacked so that a region functioning as a pixel electrode of the low-resistance oxide semiconductor layer is exposed.Type: ApplicationFiled: December 9, 2009Publication date: July 1, 2010Applicant: Semiconductor Energy Laboratory Co., LtdInventor: Yasuyuki Arai
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Publication number: 20100163863Abstract: A thin film field effect transistor includes at least: a substrate; and a gate electrode, a gate insulating layer, an active layer, a source electrode and a drain electrode, and a protective layer provided on the substrate in this order from the substrate side. The active layer is a layer containing an amorphous oxide containing at least one metal selected from the group consisting of In, Sn, Zn and Cd. The thin film field effect transistor further includes, between the active layer and at least one of the source electrode or the drain electrode, an electric resistance layer containing an oxide or nitride containing at least one metal selected from the group consisting of Ga, Al, Mg, Ca and Si.Type: ApplicationFiled: June 24, 2009Publication date: July 1, 2010Applicant: FUJIFILM CORPORATIONInventor: Hiroyuki YAEGASHI
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Publication number: 20100163867Abstract: In a thin film transistor including an oxide semiconductor, an oxide cluster having higher electrical conductance than the oxide semiconductor layer is formed between the oxide semiconductor layer and a gate insulating layer, whereby field effect mobility of the thin film transistor can be increased and increase of off current can be suppressed.Type: ApplicationFiled: December 22, 2009Publication date: July 1, 2010Inventors: Shunpei YAMAZAKI, Junichiro SAKATA
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Publication number: 20100163866Abstract: One of factors that increase the contact resistance at the interface between a first semiconductor layer where a channel is formed and source and drain electrode layers is a film with high electric resistance formed by dust or impurity contamination of a surface of a metal material serving as the source and drain electrode layers. As a solution, a first protective layer and a second protective layer including a second semiconductor having a conductivity that is less than or equal to that of the first semiconductor layer is stacked successively over source and drain electrode layers without exposed to air, the stack of films is used for the source and drain electrode layers.Type: ApplicationFiled: December 9, 2009Publication date: July 1, 2010Applicant: SEMICONDUCTOR ENERGY LABORATORY CO., LTD.Inventors: Kengo AKIMOTO, Masashi TSUBUKU
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Publication number: 20100155718Abstract: A method of manufacturing a thin film transistor capable of simplifying the steps is provided. The method of manufacturing a thin film transistor includes the steps of: forming a gate electrode and a gate insulating film sequentially on a substrate; forming an oxide semiconductor film in a shape including a planned channel formation region, a planned source electrode formation region, and a planned drain electrode formation region on the gate insulating film so that the whole oxide semiconductor film has the same carrier density as a carrier density of the planned channel formation region; forming a mask inhibiting heat transmission on the planned channel formation region; and heating the oxide semiconductor film in the air and thereby obtaining a higher carrier density of a region of the oxide semiconductor film not covered with the mask than the carrier density of the planned channel formation region.Type: ApplicationFiled: December 10, 2009Publication date: June 24, 2010Applicant: SONY CORPORATIONInventors: Shina Kirita, Toshitaka Kawashima
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Publication number: 20100155719Abstract: In a manufacturing process of a semiconductor device formed using a thin film transistor, an object is to provide a technique by which the number of photomasks can be reduced, manufacturing cost can be reduced, and improvement in productivity and reliability can be achieved. A main point is that a film forming a channel protective layer is formed over an oxide semiconductor layer having a light-transmitting property, a positive photoresist is formed over the film forming a channel protective layer, and a channel protective layer is selectively formed over a channel formation region in the oxide semiconductor layer by using a back surface light exposure method.Type: ApplicationFiled: December 16, 2009Publication date: June 24, 2010Inventors: Junichiro SAKATA, Tadashi SERIKAWA
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Publication number: 20100148155Abstract: A thin film transistor (TFT), a method of forming the same and a flat panel display device having the same are disclosed.Type: ApplicationFiled: February 19, 2009Publication date: June 17, 2010Applicant: Sungkyunkwan University Foundation for Corporate CollaborationInventors: Byoung deog CHOI, Jun sin Yi, Sung wook Jung, Kyung soo Jang, Jae hyun Cho
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Publication number: 20100148825Abstract: Provided are a semiconductor device and a method of fabricating the semiconductor device. The semiconductor device may be a complementary device including a p-type oxide TFT and an n-type oxide TFT. The semiconductor device may be a logic device such as an inverter, a NAND device, or a NOR device.Type: ApplicationFiled: November 30, 2009Publication date: June 17, 2010Inventors: Jae-chul Park, I-hun Song, Young-soo Park, Kee-won Kwon, Chang-jung Kim, Kyoung-kook Kim, Sung-ho Park, Sung-hoon Lee, Sang-wook Kim, Sun-il Kim
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Publication number: 20100148170Abstract: A field-effect transistor provided with at least a semiconductor layer and a gate electrode disposed over the above-described semiconductor layer with a gate insulating film therebetween, wherein the above-described semiconductor layer includes a first amorphous oxide semiconductor layer having at least one element selected from the group of Zn and In, and a second amorphous oxide semiconductor layer having at least one element selected from the group of Ge and Si and at least one element selected from the group of Zn and In. The composition of the above-described first amorphous oxide semiconductor layer is different from the composition of the above-described second amorphous oxide semiconductor layer.Type: ApplicationFiled: December 9, 2009Publication date: June 17, 2010Applicant: CANON KABUSHIKI KAISHAInventors: Miki Ueda, Tatsuya Iwasaki, Naho Itagaki, Amita Goyal
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Publication number: 20100148169Abstract: A thin-film transistor (TFT) substrate has improved electrical properties and reduced appearance defects and a method of fabricating the TFT substrate, are provided. The TFT substrate includes: gate wiring which is formed on a surface of an insulating substrate; oxide active layer patterns which are formed on the gate wiring and include an oxide of a first material; buffer layer patterns which are disposed on the oxide active layer patterns to directly contact the oxide active layer patterns and include a second material; and data wiring which is formed on the buffer layer patterns to insulatedly cross the gate wiring, wherein a Gibbs free energy of the oxide of the first material is lower than a Gibbs free energy of an oxide of the second material.Type: ApplicationFiled: July 7, 2009Publication date: June 17, 2010Applicant: SAMSUNG ELECTRONICS CO., LTD.Inventors: Do-Hyun KIM, Pil-Sang YUN, Ki-Won KIM, Dong-Hoon LEE, Chang-Oh JEONG
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Publication number: 20100140611Abstract: In a field effect transistor, a channel layer of the field effect transistor is composed of an amorphous oxide including In, Zn, N and O, an atomic composition ratio of N to N and O (N/(N+O)) in the amorphous oxide is equal to or larger than 0.01 atomic percent and equal to or smaller than 3 atomic percent, and the amorphous oxide does not include Ga, or, in a case where the amorphous oxide includes Ga, the number of Ga atoms contained in the amorphous oxide is smaller than the number of N atoms.Type: ApplicationFiled: May 22, 2008Publication date: June 10, 2010Applicant: CANON KABUSHIKI KAISHAInventors: Naho Itagaki, Tatsuya Iwasaki