1
Fujii Satoru, Takagi Takeshi, Muraoka Shunsaku, Osano Koichi, Shimakawa Kazuhiko: Nonvolatile memory element, nonvolatile memory device, nonvolatile semiconductor device, and method for manufacturing nonvolatile memory element. Panasonic Corporation, Fujii Satoru, Takagi Takeshi, Muraoka Shunsaku, Osano Koichi, Shimakawa Kazuhiko, SUMIDA Yoshihiro, May 22, 2008: WO/2008/059701 (37 worldwide citation)

This invention provides a nonvolatile memory element comprising a first electrode (103), a second electrode (105), and a resistance change layer (104), provided between the first and second electrodes (103, 105), for undergoing a reversible change in resistance value based on an electrical signal ap ...


2
Okuda Mitsuhiro, Yoshimura Hideyuki, Yamashita Ichiro: (Ja) ナノ粒子の製造方法及び該製造方法によって製造されたナノ粒子, (En) Method for preparing nano-particle and nano-particle prepared by said preparation method. Matsushita Electric Industrial, Okuda Mitsuhiro, Yoshimura Hideyuki, Yamashita Ichiro, SUMIDA Yoshihiro, April 22, 2004: WO/2004/033366 (16 worldwide citation)

(EN) A method for preparing nano-particles which comprises a step of, in a solution containing a protein having a cave-like portion, a metal ion, and a carbonate ion and/or a hydrogencarbonate ion, forming nano-particles comprising a compound of said metal ion in the cave-like portion of said protei ...


3
MIYANAGA Masaaki: [ja] コアカッター, [fr] CAROTTEUSE, [en] CORE CUTTER. MIYANAGA Masaaki, KABUSHIKI KAISHA MIYANAGA, SUMIDA Yoshihiro, December 16, 2004: WO/2004/108333 (10 worldwide citation)

[en] A core cutter allowing the free setting of the thickness of a base body and the easy formation of garrets, wherein each of the blade parts (2) of the core cutter is formed of a chip body and a first cutting blade (2a) disposed on the inner diameter side, a third cutting blade (2c) disposed on t ...


4
Kusakabe Hiroki, Hatoh Kazuhito, Matsumoto Toshihiro, Kawabata Norihiko, Matsuoka Hiroaki, Kijima Tomohiro: (Ja) mea、meaの製造方法及び高分子電解質形燃料電池, (En) Mea, mea manufacturing method, and high polymer electrolyte fuel cell. Matsushita Electric Industrial, Kusakabe Hiroki, Hatoh Kazuhito, Matsumoto Toshihiro, Kawabata Norihiko, Matsuoka Hiroaki, Kijima Tomohiro, SUMIDA Yoshihiro, October 12, 2006: WO/2006/106908 (9 worldwide citation)

(EN) An MEA, an MEA manufacturing method, and a high polymer electrolyte fuel cell. The MEA comprises an MEA body part (5C), a frame body (6) formed of a plate-like thermoplastic resin, and gaskets (7) formed on both faces of the frame body (6) so as to hold the frame body (6). Each of the gaskets ( ...


5
TANI Yasuhiro, TOKUNAGA Yukinobu, TSUCHIHASHI Kazumasa: [ja] 固定砥粒ワイヤ, [fr] FIL A ABRASIFS FIXES, [en] FIXED ABRASIVE WIRE. TANI Yasuhiro, TOKUNAGA Yukinobu, TSUCHIHASHI Kazumasa, JAPAN FINE STEEL, SUMIDA Yoshihiro, April 12, 2007: WO/2007/039934 (9 worldwide citation)

[en] This invention provides a fixed abrasive wire comprising abrasives (36) fixed to a wire (35), which fixed abrasive wire has high fixing strength. The abrasives are fixed to the wire by subjecting the wire to an electroplating process. A plating solution used in the electroplating process compri ...


6
Kobayashi Susumu, Seki Yasuhiro: (Ja) mea-ガスケット接合体及びそれを用いた高分子電解質形燃料電池, (En) Mea-gasket assembly and polymer electrolytic fuel cell employing same. Matsushita Electric Industrial, Kobayashi Susumu, Seki Yasuhiro, SUMIDA Yoshihiro, April 20, 2006: WO/2006/040994 (7 worldwide citation)

(EN) An MEA-gasket assembly (1) comprising an MEA (5) including a polymer electrolyte membrane (5A), a catalyst layer and a gas diffusion layer (5C), a plate-like frame (6), which is so bonded to the polymer electrolyte membrane (5A) at the circumferential edge of the MEA (5) as to surround the MEA ...


7
Wei Zhiqiang, Mikawa Takumi, Takagi Takeshi, Kawashima Yoshio: (Ja) 抵抗変化型素子、半導体装置、およびその製造方法, (En) Resistance-varying type element, semiconductor device, and method for manufacturing the element. Matsushita Electric Industrial, Wei Zhiqiang, Mikawa Takumi, Takagi Takeshi, Kawashima Yoshio, SUMIDA Yoshihiro, September 13, 2007: WO/2007/102341 (7 worldwide citation)

(EN) Provided is a method for manufacturing a resistance-varying type element, which comprises the step of depositing a resistance-varying material (106) in such a manner in a contact hole formed in an inter-layer insulating layer (104) and having a lower electrode (103) on the bottom, that the uppe ...


8
TAMURA Yoshio, NAKAMURA Akinari, OHARA Hideo, OZEKI Masataka: [ja] 水素生成装置、水素生成装置の運転方法、及び燃料電池システム, [fr] GÉNÉRATEUR DHYDROGÈNE, PROCÉDÉ DE FONCTIONNEMENT DUN GÉNÉRATEUR DHYDROGÈNE ET SYSTÈME DE PILE À COMBUSTIBLE, [en] HYDROGEN GENERATOR, METHOD OF OPERATING HYDROGEN GENERATOR, AND FUEL CELL SYSTEM. PANASONIC CORPORATION, TAMURA Yoshio, NAKAMURA Akinari, OHARA Hideo, OZEKI Masataka, SUMIDA Yoshihiro, March 27, 2008: WO/2008/035776 (6 worldwide citation)

[en] A hydrogen generator equipped with a controller (20) which during a stop period, performs a pressure maintenance processing in which the controller (20) controls a feed gas feeder (10) to supply a feed gas to a gas channel located between the feed gas feeder (10) and a valve (16) and keep the p ...


9
Komaki Osamu, Hirashima Toshiyuki, Murata Takayuki, Marutani Takeo: (Ja) レーザ溶接方法、レーザ溶接継手、外板パネルおよび鉄道車両用構体, (En) Laser welding method, laser welded joint, outer panel, and structure for rolling stock. Kawasaki Jukogyo Kabushiki Kaisha, Komaki Osamu, Hirashima Toshiyuki, Murata Takayuki, Marutani Takeo, SUMIDA Yoshihiro, November 24, 2005: WO/2005/110663 (6 worldwide citation)

(EN) A laser welding method, a laser welded joint, an outer panel, and a structure for a rolling stock. In the laser welding method, a plurality of plate-like members (1) and (2) are overlapped with each other and a laser beam is continuously radiated thereto from the surface outside direction of th ...


10
Kani Yukimune, Ukai Kunihiro, Wakita Hidenobu, Taguchi Kiyoshi, Fujihara Seiji: (Ja) 水素生成装置及びそれを用いた燃料電池システム, (En) Hydrogen production apparatus and fuel cell system using the same. Matsushita Electric Industrial, Kani Yukimune, Ukai Kunihiro, Wakita Hidenobu, Taguchi Kiyoshi, Fujihara Seiji, SUMIDA Yoshihiro, December 8, 2005: WO/2005/115912 (6 worldwide citation)

(EN) A hydrogen production apparatus comprising a reformer (5) for producing a hydrogen-containing reformed gas by a reforming reaction using at least a mixed gas comprising a hydrocarbon starting material and water, a reforming catalyst bed (103) for allowing the mixed gas to pass therethrough in t ...