Patents by Inventor Shingo Yagyu
Shingo Yagyu has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11462746Abstract: In a first aspect of a present inventive subject matter, a multilayer structure includes a base with a surface and an electrically-conductive metal oxide film that is positioned directly or via another layer on the base. At least a part of the surface of the base contains as a major component at least one selected from the group of copper, copper alloy, aluminum, aluminum alloy, magnesium, magnesium alloy, and stainless steel. The electrically-conductive metal oxide film is 30 nm or more in thickness. The multilayer structure is electrically-conductive and has a contact resistance that is 100 m?cm2 or less.Type: GrantFiled: March 30, 2018Date of Patent: October 4, 2022Assignee: FLOSFIA INC.Inventors: Shingo Yagyu, Takuto Igawa, Toshimi Hitora
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Patent number: 11189846Abstract: An electrically-conductive member having sufficient corrosion resistivity even when the electrically-conductive member is exposed to high potential environment and a method of manufacturing the electrically-conductive member are offered. An electrically-conductive member is obtained by a mist CVD method, by forming a metal oxide film on a base member of a separator, and the electrically-conductive member has an active potential range and a passive potential range in an anode polarization curve that is measured in a sulfuric acid aqueous solution having a sulfuric acid concentration that is 5.0×10?4 mol/dm3 at pH3 and having a temperature of 25° C., an anode current density that is 1×10?7 A/cm2 or less in the passive potential range, and the passive potential range reaching to an electric potential that is 1V.Type: GrantFiled: April 27, 2018Date of Patent: November 30, 2021Assignees: FLOSFIA INC., EYETEC CO., LTD., KYOTO UNIVERSITYInventors: Shizuo Fujita, Masafumi Ono, Takayuki Uchida, Kentaro Kaneko, Takashi Tanaka, Toshimi Hitora, Shingo Yagyu
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Patent number: 10989609Abstract: Under predetermined film depositing conditions, the raw material solution of the thermistor film is atomized or dropletized, the carrier gas is supplied to the obtained mist or droplet, the mist or droplet is conveyed to the substrate, and then the mist or droplet is thermally reacted on the substrate to deposit a film. A resultant thermistor thin film has a film thickness of 1 ?m or less, a film width of 5 mm or more, a thickness of 50 nm or more and 5 ?m or less, a thickness in the range of less than ±50 nm, a thickness of 5 mm or less, and/or a thickness of 50 nm or more and 5 ?m or less, and has a film surface roughness (Ra) of 0.1 ?m or less.Type: GrantFiled: April 27, 2018Date of Patent: April 27, 2021Assignee: FLOSFIA INC.Inventors: Shingo Yagyu, Takahiro Sasaki, Toshimi Hitora
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Patent number: 10927458Abstract: In a first aspect of a present inventive subject matter, a method of forming a film includes turning a raw material containing at least a first chemical element and a second chemical element into atomized droplets; carrying the atomized droplets containing at least the first chemical element and the second chemical element by use of a carrier gas onto an object; and causing a reaction of the atomized droplets to form a film containing at least the first chemical element and the second chemical element on the object. The first chemical element is selected from among elements of Group 14 and elements of Group 15 of the periodic table. The second chemical element is selected from among d-block elements, elements of Group 13 and elements of Group 14 of the periodic table and different from the first chemical element.Type: GrantFiled: October 4, 2018Date of Patent: February 23, 2021Assignee: FLOSFIA INC.Inventors: Shingo Yagyu, Takahiro Sasaki, Nobuaki Watanabe, Takashi Shinohe
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Patent number: 10770553Abstract: In a first aspect of a present inventive subject matter, a layered structure includes a first semiconductor layer containing as a major component an ?-phase oxide semiconductor crystal; and a second semiconductor layer positioned on the first semiconductor layer and containing as a major component an oxide semiconductor crystal with a tetragonal crystal structure.Type: GrantFiled: September 27, 2018Date of Patent: September 8, 2020Assignee: FLOSFIA INC.Inventors: Tokiyoshi Matsuda, Takashi Shinohe, Shingo Yagyu, Takuto Igawa
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Publication number: 20200166415Abstract: Under predetermined film depositing conditions, the raw material solution of the thermistor film is atomized or dropletized, the carrier gas is supplied to the obtained mist or droplet, the mist or droplet is conveyed to the substrate, and then the mist or droplet is thermally reacted on the substrate to deposit a film. A resultant thermistor thin film has a film thickness of 1 ?m or less, a film width of 5 mm or more, a thickness of 50 nm or more and 5 ?m or less, a thickness in the range of less than ±50 nm, a thickness of 5 mm or less, and/or a thickness of 50 nm or more and 5 ?m or less, and has a film surface roughness (Ra) of 0.1 ?m or less.Type: ApplicationFiled: April 27, 2018Publication date: May 28, 2020Inventors: Shingo YAGYU, Takahiro SASAKI, Toshimi HITORA
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Publication number: 20200127302Abstract: An electrically-conductive member having sufficient corrosion resistivity even when the electrically-conductive member is exposed to high potential environment and a method of manufacturing the electrically-conductive member are offered. An electrically-conductive member is obtained by a mist CVD method, by forming a metal oxide film on a base member of a separator, and the electrically-conductive member has an active potential range and a passive potential range in an anode polarization curve that is measured in a sulfuric acid aqueous solution having a sulfuric acid concentration that is 5.0×10?4 mol/dm3 at pH3 and having a temperature of 25° C., an anode current density that is 1×10?7 A/cm2 or less in the passive potential range, and the passive potential range reaching to an electric potential that is 1V.Type: ApplicationFiled: April 27, 2018Publication date: April 23, 2020Inventors: Shizuo FUJITA, Masafumi ONO, Takayuki UCHIDA, Kentaro KANEKO, Takashi TANAKA, Toshimi HITORA, Shingo YAGYU
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Patent number: 10627398Abstract: An analysis device optically scans a surface of a substrate to which particles are fixed, detects a pulse wave included in a detection signal obtained from an optical scanning unit when the optical scanning unit scans the substrate, and counts the particles based on pulse interval between two pulse waves each having pulse width less than first reference value determined depending on first pulse width when the optical scanning unit scans a plurality of particles adjacent to each other when the two pulse waves are detected consecutively.Type: GrantFiled: May 15, 2019Date of Patent: April 21, 2020Assignee: JVC KENWOOD CORPORATIONInventors: Masayuki Ono, Shingo Yagyu, Makoto Itonaga, Yuichi Hasegawa, Koji Tsujita
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Publication number: 20200088626Abstract: An analysis device optically scans a surface of a substrate to which analytes and particles for labeling the analytes are fixed, detects a pulse wave included in a detection signal obtained from an optical scanning unit when the optical scanning unit scans the substrate, and counts the analytes and determines that the analyte count is one when two pulse waves are detected consecutively each having pulse width less than first reference value determined depending on first pulse width in the detection signal when the optical scanning unit scans a plurality of particles adjacent to each other.Type: ApplicationFiled: November 25, 2019Publication date: March 19, 2020Inventors: Masayuki ONO, Shingo YAGYU, Makoto ITONAGA, Yuichi HASEGAWA, Koji TSUJITA
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Publication number: 20200052150Abstract: A processing system and a processing method are provided that allows for convenient and easy, roll-to-roll processing of both sides of a substrate at atmospheric pressure. A system of processing a substrate using mist or droplets containing a processing agent, wherein the mist or droplets is allowed to be retained and the substrate is processed by impregnating with the retained mist or droplets using a processing device including a retaining section that retains the mist or droplets and an impregnation section that impregnates the substrate with the mist or droplets.Type: ApplicationFiled: March 29, 2018Publication date: February 13, 2020Inventors: Shingo YAGYU, Toshimi HITORA
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Publication number: 20190265237Abstract: An analysis device optically scans a surface of a substrate to which particles are fixed, detects a pulse wave included in a detection signal obtained from an optical scanning unit when the optical scanning unit scans the substrate, and counts the particles based on pulse interval between two pulse waves each having pulse width less than first reference value determined depending on first pulse width when the optical scanning unit scans a plurality of particles adjacent to each other when the two pulse waves are detected consecutively.Type: ApplicationFiled: May 15, 2019Publication date: August 29, 2019Inventors: Masayuki ONO, Shingo YAGYU, Makoto ITONAGA, Yuichi HASEGAWA, Koji TSUJITA
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Publication number: 20190165383Abstract: In a first aspect of a present inventive subject matter, a layered structure includes a base including a first metal as a major component and a second metal that is different from the first metal, and a thermal oxide film of the base arranged on the base and containing an oxide of the first metal and an oxide of the second metal. The first metal contained in the base is more in atomic composition ratio than the second metal contained in the base. The first metal of the oxide contained in the thermal oxide film is less in atomic composition ratio than the first metal contained in the base. The second metal of the oxide contained in the thermal oxide film is equal to or more in atomic ratio than the first metal of the oxide contained in the thermal oxide film.Type: ApplicationFiled: November 21, 2018Publication date: May 30, 2019Inventors: Shizuo FUJITA, Masafumi ONO, Takayuki UCHIDA, Kentaro KANEKO, Takashi TANAKA, Shingo YAGYU, Takashi SHINOHE, Takuto IGAWA
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Publication number: 20190106785Abstract: In a first aspect of a present inventive subject matter, a method of forming a film includes turning a raw material containing at least a first chemical element and a second chemical element into atomized droplets; carrying the atomized droplets containing at least the first chemical element and the second chemical element by use of a carrier gas onto an object; and causing a reaction of the atomized droplets to form a film containing at least the first chemical element and the second chemical element on the object. The first chemical element is selected from among elements of Group 14 and elements of Group 15 of the periodic table. The second chemical element is selected from among d-block elements, elements of Group 13 and elements of Group 14 of the periodic table and different from the first chemical element.Type: ApplicationFiled: October 4, 2018Publication date: April 11, 2019Inventors: Shingo YAGYU, Takahiro SASAKI, Nobuaki WATANABE, Takashi SHINOHE
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Publication number: 20190103465Abstract: In a first aspect of a present inventive subject matter, a layered structure includes a first semiconductor layer containing as a major component an ?-phase oxide semiconductor crystal; and a second semiconductor layer positioned on the first semiconductor layer and containing as a major component an oxide semiconductor crystal with a tetragonal crystal structure.Type: ApplicationFiled: September 27, 2018Publication date: April 4, 2019Inventors: Tokiyoshi MATSUDA, Takashi SHINOHE, Shingo YAGYU, Takuto IGAWA
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Patent number: 10119962Abstract: A recessed portion and a protruding portion arranged periodically are formed on a base portion. In the recessed portion, an antibody that binds to an antigen existing on a surface of each exosome to be detected is immobilized and then caused to bind to the exosomes. The width of the protruding portion is smaller than the average particle diameter of the exosomes.Type: GrantFiled: October 5, 2015Date of Patent: November 6, 2018Assignee: JVC KENWOOD CORPORATIONInventors: Makoto Itonaga, Shingo Yagyu, Yuichi Hasegawa, Koji Tsujita, Masayuki Ono
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Publication number: 20180287169Abstract: In a first aspect of a present inventive subject matter, a multilayer structure includes a base with a surface and an electrically-conductive metal oxide film that is positioned directly or via another layer on the base. At least a part of the surface of the base contains as a major component at least one selected from the group of copper, copper alloy, aluminum, aluminum alloy, magnesium, magnesium alloy, and stainless steel. The electrically-conductive metal oxide film is 30 nm or more in thickness. The multilayer structure is electrically-conductive and has a contact resistance that is 100 m?cm2 or less.Type: ApplicationFiled: March 30, 2018Publication date: October 4, 2018Inventors: Shingo YAGYU, Takuto IGAWA, Toshimi HITORA
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Publication number: 20170184582Abstract: An analysis device includes an optical scanning unit and a pulse waveform analysis unit. The optical scanning unit optically scans a surface of a substrate to which analytes binding to particles are fixed, and obtains a detection signal from the substrate. The pulse waveform analysis unit includes an amplitude determination unit configured to determine whether a peak value of the pulse waveform is within a first range smaller than a first level and greater than a second level having a polarity identical to the first level; and a pulse width determination unit configured to determine whether a pulse width of the pulse waveform is within a second range.Type: ApplicationFiled: March 16, 2017Publication date: June 29, 2017Inventors: Masayuki ONO, Shingo YAGYU, Makoto ITONAGA, Yuichi HASEGAWA, Koji TSUJITA
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Publication number: 20170010260Abstract: An analysis device optically scans a surface of a substrate to which particles are fixed, detects a pulse wave included in a detection signal obtained from an optical scanning unit when the optical scanning unit scans the substrate, and counts the particles based on pulse interval between two pulse waves each having pulse width less than first reference value determined depending on first pulse width when the optical scanning unit scans a plurality of particles adjacent to each other when the two pulse waves are detected consecutively.Type: ApplicationFiled: September 21, 2016Publication date: January 12, 2017Inventors: Masayuki ONO, Shingo YAGYU, Makoto ITONAGA, Yuichi HASEGAWA, Koji TSUJITA
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Publication number: 20170003213Abstract: An analysis device optically scans a surface of a substrate to which analytes and particles for labeling the analytes are fixed, detects a pulse wave included in a detection signal obtained from an optical scanning unit when the optical scanning unit scans the substrate, and counts the analytes and determines that the analyte count is one when two pulse waves are detected consecutively each having pulse width less than first reference value determined depending on first pulse width in the detection signal when the optical scanning unit scans a plurality of particles adjacent to each other.Type: ApplicationFiled: September 19, 2016Publication date: January 5, 2017Inventors: Masayuki ONO, Shingo YAGYU, Makoto ITONAGA, Yuichi HASEGAWA, Koji TSUJITA
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Publication number: 20160033486Abstract: A recessed portion and a protruding portion arranged periodically are formed on a base portion. In the recessed portion, an antibody that binds to an antigen existing on a surface of each exosome to be detected is immobilized and then caused to bind to the exosomes. The width of the protruding portion is smaller than the average particle diameter of the exosomes.Type: ApplicationFiled: October 5, 2015Publication date: February 4, 2016Inventors: Makoto ITONAGA, Shingo YAGYU, Yuichi HASEGAWA, Koji TSUJITA, Masayuki ONO