Patents by Inventor Toshikazu Nosaka
Toshikazu Nosaka 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: 9682862Abstract: An aggregate of carbon-based fine structures in which a plurality of carbon-based fine structures are collected, wherein respective carbon-based fine structures are oriented in the same direction. The above aggregate of carbon-based fine structures is an aggregate of a plurality of carbon-based fine structures in a state they are pulled by one another with strong interaction, and has such a length that allows the improvement of the handeability and workability thereof.Type: GrantFiled: May 31, 2013Date of Patent: June 20, 2017Assignee: Taiyo Nippon Sanso CorporationInventors: Yoshikazu Nakayama, Toshikazu Nosaka, Osamu Suekane, Takeshi Nagasaka, Toshiki Goto, Hiroyuki Tsuchiya, Keisuke Shiono
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Publication number: 20130266764Abstract: An aggregate of carbon-based fine structures in which a plurality of carbon-based fine structures are collected, wherein respective carbon-based fine structures are oriented in the same direction. The above aggregate of carbon-based fine structures is an aggregate of a plurality of carbon-based fine structures in a state they are pulled by one another with strong interaction, and has such a length that allows the improvement of the handeability and workability thereof.Type: ApplicationFiled: May 31, 2013Publication date: October 10, 2013Applicants: OTSUKA CHEMICAL CO., LTD., TAIYO NIPPON SANSO CORPORATIONInventors: Yoshikazu NAKAYAMA, Toshikazu NOSAKA, Osamu SUEKANE, Takeshi NAGASAKA, Toshiki GOTO, Hiroyuki TSUCHIYA, Keisuke SHIONO
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Patent number: 8505478Abstract: Developed is high-efficiency synthesis method and apparatus capable of promoting the initial growth of carbon nanostructure by eliminating the initial fluctuation time and rising time in raw gas flow quantity.-A high-efficiency synthesis method of carbon nanostructure according to the present invention is a high-efficiency synthesis method of carbon nanostructure, the method comprising: bringing raw material gas and a catalyst into contact with each other under reactive conditions so as to produce a carbon nanostructure, wherein: the initiation of contact of the raw material gas with the catalyst is carried out instantaneously. Reaction conditions such as temperature and raw material gas concentration are set so as to meet those for catalyst growth, and under the reaction conditions, the initiation of contact of raw material gas G with catalyst 6 is carried out instantaneously.Type: GrantFiled: August 4, 2010Date of Patent: August 13, 2013Assignee: Taiyo Nippon Sanso CorporationInventors: Osamu Suekane, Toshikazu Nosaka, Yoshikazu Nakayama, Lujun Pan, Takeshi Nagasaka, Toru Sakai, Hiroyuki Tsuchiya, Toshiki Goto, Xu Li
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Patent number: 8481158Abstract: An aggregate of carbon-based fine structures in which a plurality of carbon-based fine structures are collected, wherein respective carbon-based fine structures are oriented in the same direction. The above aggregate of carbon-based fine structures is an aggregate of a plurality of carbon-based fine structures in a state they are pulled by one another with strong interaction, and has such a length that allows the improvement of the handleability and workability thereof.Type: GrantFiled: April 19, 2005Date of Patent: July 9, 2013Assignees: Technology Research Institute of Osaka Prefecture, Taiyo Nippon Sanso Corporation, Otsuka Chemical Co., Ltd., Nissin Electric Co., Ltd., Public University Corporation, Osaka Prefecture UniversityInventors: Yoshikazu Nakayama, Toshikazu Nosaka, Osamu Suekane, Takeshi Nagasaka, Toshiki Goto, Hiroyuki Tsuchiya, Keisuke Shiono
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Method and apparatus for high-efficiency synthesis of carbon nanostructure, and carbon nanostructure
Publication number: 20100303675Abstract: Developed is high-efficiency synthesis method and apparatus capable of promoting the initial growth of carbon nanostructure by eliminating the initial fluctuation time and rising time in raw gas flow quantity. A high-efficiency synthesis method of carbon nanostructure according to the present invention is a high-efficiency synthesis method of carbon nanostructure, the method comprising: bringing raw material gas and a catalyst into contact with each other under reactive conditions so as to produce a carbon nanostructure, wherein: the initiation of contact of the raw material gas with the catalyst is carried out instantaneously. Reaction conditions such as temperature and raw material gas concentration are set so as to meet those for catalyst growth, and under the reaction conditions, the initiation of contact of raw material gas G with catalyst 6 is carried out instantaneously.Type: ApplicationFiled: August 4, 2010Publication date: December 2, 2010Inventors: Osamu Suekane, Toshikazu Nosaka, Yoshikazu Nakayama, Lujun Pan, Takeshi Nagasaka, Toru Sakai, Hiroyuki Tsuchiya, Toshiki Goto, Xu Li -
Patent number: 7829494Abstract: A method for synthesizing carbon nanocoils with high efficiency, by determining the structure of carbon nuclei that have been attached to the ends of carbon nanocoils and thus specifying a true catalyst for synthesizing carbon nanocoils is implemented. The catalyst for synthesizing carbon nanocoils according to the present invention is a carbide catalyst that contains at least elements (a transition metal element, In, C) or (a transition metal element, Sn, C), and in particular, it is preferable for the transition metal element to be Fe, Co or Ni. In addition to this carbide catalyst, a metal catalyst of (Fe, Al, Sn) and (Fe, Cr, Sn) are effective. From among these, catalysts such as Fe3InC0.5, Fe3InC0.5Snw and Fe3SnC are particularly preferable. The wire diameter and the coil diameter can be controlled by using a catalyst where any of these catalysts is carried by a porous carrier.Type: GrantFiled: May 28, 2004Date of Patent: November 9, 2010Assignees: Japan Science and Technology Agency, Public University Corporation, Osaka Prefecture University, Otsuka Chemical Co., Ltd., Nissin Electric Co., Ltd.Inventors: Yoshikazu Nakayama, Lujun Pan, Toshikazu Nosaka, Osamu Suekane, Nobuharu Okazaki, Takeshi Nagasaka, Toshiki Goto, Hiroyuki Tsuchiya, Takashi Okawa, Keisuke Shiono
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Patent number: 7790228Abstract: Developed is high-efficiency synthesis method and apparatus capable of promoting the initial growth of carbon nanostructure by eliminating the initial fluctuation time and rising time in raw gas flow quantity. A high-efficiency synthesis method of carbon nanostructure according to the present invention is a high-efficiency synthesis method of carbon nanostructure, the method comprising: bringing raw material gas and a catalyst into contact with each other under reactive conditions so as to produce a carbon nanostructure, wherein: the initiation of contact of the raw material gas with the catalyst is carried out instantaneously. Reaction conditions such as temperature and raw material gas concentration are set so as to meet those for catalyst growth, and under the reaction conditions, the initiation of contact of raw material gas G with catalyst 6 is carried out instantaneously.Type: GrantFiled: March 23, 2004Date of Patent: September 7, 2010Assignees: Japan Science and Technology Agency, Osaka Prefecture, Taiyo Nippon Sanso Corporation, Nissin Electric Co., Ltd., Otsuka Chemical Co., Ltd.Inventors: Osamu Suekane, Toshikazu Nosaka, Yoshikazu Nakayama, Lujun Pan, Takeshi Nagasaka, Toru Sakai, Hiroyuki Tsuchiya, Toshiki Goto, Xu Li
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Publication number: 20090326140Abstract: An object is to provide a resin material having high strength and high vibration-damping property. A resin material includes a matrix resin and carbon nanocoils contained therein. The carbon nanocoils have electrical conductivity, so that the matrix resin containing them can easily convert a vibration energy generated in the resin material into heat and thereby damp the vibration energy in a short time. In addition, since the carbon nanocoil is in a coiled form, vibration-damping property can be enhanced in comparison with that of conductive materials such as carbon nanotube and graphite.Type: ApplicationFiled: June 25, 2007Publication date: December 31, 2009Inventors: Yasuhito Shimada, Yasuo Kita, Toshikazu Nosaka, Yoshikazu Nakayama, Toshiyuki Okuda
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Publication number: 20080095694Abstract: An aggregate of carbon-based fine structures in which a plurality of carbon-based fine structures are collected, wherein respective carbon-based fine structures are oriented in the same direction. The above aggregate of carbon-based fine structures is an aggregate of a plurality of carbon-based fine structures in a state they are pulled by one another with strong interaction, and has such a length that allows the improvement of the handleability and workability thereof.Type: ApplicationFiled: April 19, 2005Publication date: April 24, 2008Applicant: JAPAN SCIENCE AND TECHNOLOGY AGENCYInventors: Yoshikazu Nakayama, Toshikazu Nosaka, Osamu Suekane, Takeshi Nagasaka, Toshiki Goto, Hiroyuki Tsuchiya, Keisuke Shiono
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Publication number: 20070253890Abstract: Developed are a synthesizing method for carbon nanostructures where the generation of tar-like byproducts is reduced and carbon nanostructures are generated highly efficiently, and a unit therefor. A highly efficient material spraying type carbon nanostructure synthesizing apparatus according to the present invention is formed of a catalyst body that is placed inside a reaction tube, a heating unit that is provided in order to heat the vicinity of this catalyst body to the temperature range where carbon nanostructures are generated, a material gas supplying pipe for introducing a material gas into reaction tube which is provided in such a manner that an end of this supplying pipe is placed in proximity to catalyst body, and a preheating unit for preheating the material gas supplying pipe to a temperature range where no tar-like products are generated from a material gas.Type: ApplicationFiled: June 4, 2004Publication date: November 1, 2007Inventors: Yoshikazu Nakayama, Takeshi Nagasaka, Toru Sakai, Takeshi Hayashi, Hiroyuki Tsuchiya, Xu Li, Toshikazu Nosaka
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Publication number: 20070098622Abstract: A method for synthesizing carbon nanocoils with high efficiency, by determining the structure of carbon nuclei that have been attached to the ends of carbon nanocoils and thus specifying a true catalyst for synthesizing carbon nanocoils is implemented. The catalyst for synthesizing carbon nanocoils according to the present invention is a carbide catalyst that contains at least elements (a transition metal element, In, C) or (a transition metal element, Sn, C), and in particular, it is preferable for the transition metal element to be Fe, Co or Ni. In addition to this carbide catalyst, a metal catalyst of (Fe, Al, Sn) and (Fe, Cr, Sn) are effective. From among these, catalysts such as Fe3InC0.5, Fe3InC0.5Snw and Fe3SnC are particularly preferable. The wire diameter and the coil diameter can be controlled by using a catalyst where any of these catalysts is carried by a porous carrier.Type: ApplicationFiled: May 28, 2004Publication date: May 3, 2007Applicants: Japan Science and Technology Agency, Public University Corporation, Osaka Prefecture University, Taiyo Nippon Sanso Corporation, Otsuka Chemical Co., Ltd., Nissin Electric Co., Ltd.Inventors: Yoshikazu Nakayama, Lujun Pan, Toshikazu Nosaka, Osamu Suekane, Nobuharu Okazaki, Takeshi Nagasaka, Toshiki Goto, Hiroyuki Tsuchiya, Takashi Okawa, Keisuke Shiono
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Method and apparatus for high-efficiency synthesis of carbon nanostructure, and carbon nanostructure
Publication number: 20070037370Abstract: Developed is high-efficiency synthesis method and apparatus capable of promoting the initial growth of carbon nanostructure by eliminating the initial fluctuation time and rising time in raw gas flow quantity. A high-efficiency synthesis method of carbon nanostructure according to the present invention is a high-efficiency synthesis method of carbon nanostructure, the method comprising: bringing raw material gas and a catalyst into contact with each other under reactive conditions so as to produce a carbon nanostructure, wherein: the initiation of contact of the raw material gas with the catalyst is carried out instantaneously. Reaction conditions such as temperature and raw material gas concentration are set so as to meet those for catalyst growth, and under the reaction conditions, the initiation of contact of raw material gas G with catalyst 6 is carried out instantaneously.Type: ApplicationFiled: March 23, 2004Publication date: February 15, 2007Inventors: Osamu Suekane, Toshikazu Nosaka, Yoshikazu Nakayama, Lujun Pan, Takeshi Nagasaka, Toru Sakai, Hiroyuki Tsuchiya, Toshiki Goto, Xu Li -
Patent number: 6636050Abstract: A four-terminal measuring device, which uses nanotube terminals and measures low resistance values and low impedance values of extremely small objects under test with good precision, including two current terminals which cause a constant current to flow from a constant-current power supply to an object under test and two voltage terminals which measure the voltage across both ends of the object under test; and in this four-terminal measuring device, a nanotube terminal is formed by fastening the base end portion of a nanotube to a holder so that the tip end portion of the nanotube protrudes from the holder, and such a nanotube terminal is connected to desired terminals among the four terminals.Type: GrantFiled: July 13, 2001Date of Patent: October 21, 2003Assignees: Daiken Chemical Co., Ltd.Inventors: Yoshikazu Nakayama, Akio Harada, Takashi Okawa, Toshikazu Nosaka
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Publication number: 20020084790Abstract: A four-terminal measuring device, which uses nanotube terminals and measures low resistance values and low impedance values of extremely small objects of measurement with good precision, comprising two current terminals which cause a constant current to flow from a constant-current power supply to an object of measurement and two voltage terminals which measure the voltage across both ends of the object of measurement; and in this four-terminal measuring device, a nanotube terminal is formed by fastening the base end portion of a nanotube to a holder so that the tip end portion of the nanotube protrudes from the holder, and such a nanotube terminal is connected to desired terminals among the four terminals.Type: ApplicationFiled: July 13, 2001Publication date: July 4, 2002Inventors: Yoshikazu Nakayama, Akio Harada, Takashi Okawa, Toshikazu Nosaka
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Patent number: 6105417Abstract: Gas sensor materials composed of carbon mixture or metal-containing carbon mixture obtained as evaporated matter by arc discharge which occurs by passing an alternating current or a direct current with electric current density of 0.8 to 3.5 A/mm.sup.2 on discharge surfaces of carbon electrodes or metal-containing carbon electrodes in an inert gas under a pressure of 0.1 to 600 torr.Type: GrantFiled: April 15, 1999Date of Patent: August 22, 2000Assignees: Osaka Prefecture, Daido Hoxan Inc.Inventors: Toshikazu Nosaka, Yoshiaki Sakurai, Kazuki Natsukawa, Tsutomu Yotsuya, Shunsaku Kawabata, Katsumi Nishida, Kazuhiro Nishikawa, Kiyohiro Mori, Hiromi Kiyama, Yoshinori Omori
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Patent number: 5919726Abstract: A primary object of the present invention is to easily and securely fix a photocatalyst to a substrate. According to the invention, there is provided a process for preparing a photocatalyst material, the process comprising a first step of forming an undercoating containing silica gel on a substrate, a second step of bringing titanium tetrachloride into contact with the undercoating and a third step of heat-treating the coated substrate.Type: GrantFiled: April 7, 1998Date of Patent: July 6, 1999Assignees: Osaka Prefectural Government, Masahiko TakadaInventors: Yasuhiro Hatano, Hiroki Miyamoto, Kei Miyamoto, Atsushi Kakitsuji, Toshikazu Nosaka, Akira Aoki, Tadashi Takatuka, Takeshi Ohara, Toshiaki Oura