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公开(公告)号:WO2004053905A3
公开(公告)日:2005-06-30
申请号:PCT/US0336319
申请日:2003-11-12
Applicant: GEN ELECTRIC
Inventor: SPIVACK JAMES L , GUI JOHN YUPENG , CORDERMAN REED ROEDER
IPC: H01G9/20 , H01L21/316
CPC classification number: H01G9/2031 , H01G9/2059 , H01L21/31683 , Y02E10/542
Abstract: A solar cell (24) (40) having foil electrodes (26) (42). Specifically, a metal foil is implemented to form electrodes providing a reduced electron path from a dye-sensitized semiconductor material (32) (48) to the electrodes. In one embodiment, nanowires (30) extending from the substrate (14) (44) on which the solar cell (24) (40) is formed are provided. In another embodiment, cavities (46) are formed in a sheet of conductive foil (42) by oxidation, thereby forming a semiconductive material. The semiconductor material is sensitized with a dye and an electrolyte solution (50) is disposed in the cavities (46), thereby forming an a array of dye-sensitized solar cells (42).
Abstract translation: 具有箔电极(26)(42)的太阳能电池(24)(40)。 具体地,实施金属箔以形成提供从染料敏化半导体材料(32)(48)到电极的电子路径减小的电极。 在一个实施例中,提供从其上形成有太阳能电池(24)(40)的衬底(44)延伸的纳米线(30)。 在另一个实施例中,通过氧化在一片导电箔(42)中形成空腔(46),从而形成半导体材料。 半导体材料用染料敏化,并且电解质溶液(50)设置在空腔(46)中,从而形成染料敏化太阳能电池阵列(42)。
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公开(公告)号:WO2005051842A2
公开(公告)日:2005-06-09
申请号:PCT/US2004038271
申请日:2004-11-16
Applicant: GEN ELECTRIC , TSAKALAKOS LOUCAS , LEE JI-UNG , HUBER WILLIAM HULLINGER , CORDERMAN REED ROEDER , MANI VANITA
Inventor: TSAKALAKOS LOUCAS , LEE JI-UNG , HUBER WILLIAM HULLINGER , CORDERMAN REED ROEDER , MANI VANITA
IPC: B01J23/52 , B01J23/75 , B01J23/755 , B01J27/22 , B01J37/02 , B01J37/08 , C01B31/30 , C23C16/02 , C23C16/04 , C30B11/00 , C30B11/12 , C30B29/36 , C30B29/60 , C30B29/62 , H01J9/02 , C01B31/00
CPC classification number: B82Y10/00 , B01J23/52 , B01J23/75 , B01J23/755 , B01J27/22 , B01J37/0215 , B01J37/0238 , B01J37/08 , C01B32/90 , C23C16/0281 , C23C16/04 , C30B11/12 , C30B29/36 , C30B29/60 , C30B29/62 , H01J9/025 , H01J2201/30469
Abstract: In a method of making an elongated carbide nanostructure, a plurality of spatially-separated catalyst particles is applied to a substrate. The spatially-separated catalyst particles and at least a portion of the substrate are exposed to a metal-containing vapor at a preselected temperature and for a period sufficient to cause an inorganic nanostructure to form between the substrate and at least one of the catalyst particles. The inorganic nano-structure is exposed to a carbon-containing vapor source at a preselected temperature and for a period sufficient to carburize the inorganic nanostructure.
Abstract translation: 在制造细长的碳化物纳米结构的方法中,将许多空间分离的催化剂颗粒施加到基底上。 将空间分离的催化剂颗粒和基材的至少一部分在预选温度下暴露于含金属的蒸汽,并持续足以使底物与至少一种催化剂颗粒之间形成无机纳米结构的时间。 将无机纳米结构在预选温度下暴露于含碳蒸汽源,并持续足以使无机纳米结构渗碳的时间。
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公开(公告)号:GB2428874B
公开(公告)日:2011-05-04
申请号:GB0613899
申请日:2006-07-13
Applicant: GEN ELECTRIC
Inventor: HUDSPETH HEATHER DIANE , LEE JI-UNG , CORDERMAN REED ROEDER , ZHANG ANPING , ROHLING RENEE BUSHEY , DENAULT LAURAINE , BALCH JOLEYN EILEEN
Abstract: The present invention relates to gated nanorod field emission devices, wherein such devices have relatively small emitter tip-to-gate distances, thereby providing a relatively high emitter tip density and low turn on voltage. Such methods employ a combination of traditional device processing techniques (lithography, etching, etc.) with electrochemical deposition of nanorods. These methods are relatively simple, cost-effective, and efficient; and they provide field emission devices that are suitable for use in x-ray imaging applications, lighting applications, flat panel field emission display (FED) applications, etc.
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公开(公告)号:FR2889840B1
公开(公告)日:2010-12-31
申请号:FR0606561
申请日:2006-07-19
Applicant: GEN ELECTRIC
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5.发明专利
公开(公告)号:MX2007008185A
公开(公告)日:2008-12-17
申请号:MX2007008185
申请日:2007-07-04
Applicant: GEN ELECTRIC
Inventor: SRINIVASAN DURAISWAMY , CORDERMAN REED ROEDER , KEIMEL CHRISTOPHER FRED , GUNASEKARAN SOMASUNDARAM , REDDY SUDHAKAR E , GOWDA ARUN VIRUPAKSHA , SUBRAMANIAN KANAKASABAPATHI
IPC: A61B5/24 , A61B20060101 , H01H85/06 , A61B5/00 , A61B5/22
Abstract: Se proporciona un dispositivo para controlar el flujo de corriente eléctrica; el dispositivo comprende un primer conductor; un segundo conductor acoplado de manera conmutable al primer conducto para alternarse entre un estado eléctricamente conectado con el primer conductor y un estado eléctricamente desconectado con el primer conductor; al menos un conductor además comprende un contacto eléctrico, el contacto eléctrico comprende una matriz sólida que comprende una pluralidad de poros; y un material de relleno colocado dentro de al menos una porción de la pluralidad de poros; el material de relleno tiene un punto de fusión de menos de alrededor de 575K; se proporciona un método para elaborar un contacto eléctrico; el método incluye los pasos de: proporcionar un substrato; proporcionar una pluralidad de poros en el substrato; y depositar un material de relleno dentro de al menos una porción de la pluralidad de poros; el material de relleno tiene un punto de fusión de menos de alrededor de 575K.
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Patent Agency Ranking
公开(公告)号:GB2425540B
公开(公告)日:2007-08-15
申请号:GB0609495
申请日:2004-11-16
Applicant: GEN ELECTRIC
Inventor: TSAKALAKOS LOUCAS , LEE JI-UNG , HUBER WILLIAM HULLINGER , CORDERMAN REED ROEDER , MANI VANITA
IPC: C01B31/00 , B01J23/52 , B01J23/75 , B01J23/755 , B01J27/22 , B01J37/02 , B01J37/08 , C01B31/30 , C23C16/02 , C23C16/04 , C30B11/00 , C30B11/12 , C30B29/36 , C30B29/60 , C30B29/62 , H01J9/02
Abstract: In a method of making an elongated carbide nanostructure, a plurality of spatially-separated catalyst particles is applied to a substrate. The spatially-separated catalyst particles and at least a portion of the substrate are exposed to a metal-containing vapor at a preselected temperature and for a period sufficient to cause an inorganic nano-structure to form between the substrate and at least one of the catalyst particles. The inorganic nano-structure is exposed to a carbon-containing vapor source at a preselected temperature and for a period sufficient to carburize the inorganic nano-structure.
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公开(公告)号:FR2891662A1
公开(公告)日:2007-04-06
申请号:FR0607919
申请日:2006-09-11
Applicant: GEN ELECTRIC
Inventor: ZHANG ANPING , BALCH JOLEYN EILEEN , TSAKALAKOS LOUCAS , HUDSPETH HEATHER DIANE , CORDERMAN REED ROEDER
Abstract: Dans un procédé de réalisation d'un émetteur de champ, au moins un montant (120) est formé sur un substrat semi-conducteur (110). Le montant (120) s'étend vers le haut à partir du substrat (110). Le montant (120) est monocristallin avec le substrat (110). Une couche diélectrique (130) est déposée sur le substrat (110). La couche diélectrique (130) définit un passage (132) à travers celle-ci autour du montant (120). Une couche de grille conductrice (140) est appliquée à la couche diélectrique (130), de telle sorte que la couche de grille conductrice (140) définisse une ouverture qui est juxtaposée au passage (132). On fait croître au moins une nanostructure (150) vers le haut à partir de la surface supérieure du montant (120).
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公开(公告)号:GB2436449A
公开(公告)日:2007-09-26
申请号:GB0705114
申请日:2004-11-16
Applicant: GEN ELECTRIC
Inventor: TSAKALOKOS LOUCAS , LEE JI-UNG , HUBER WILLIAM HULLINGER , CORDERMAN REED ROEDER , MANI VANITA
IPC: C01B31/00 , B01J23/52 , B01J23/75 , B01J23/755 , B01J27/22 , B01J37/02 , B01J37/08 , C01B31/30 , C23C16/02 , C23C16/04 , C30B11/00 , C30B11/12 , C30B29/36 , C30B29/60 , C30B29/62 , H01J9/02
Abstract: A method of making a field emission device comprising applying a dielectric layer to a substrate, applying a conductive layer to the dielectric layer and forming at least one cavity in the conductive layer and the dielectric layer thus exposing the substrate. Thereafter growing a nanorod in the cavity by applying at least one catalyst particle within the cavity and exposing the catalyst particle and a portion of the substrate to a metal vapour and an oxidising gas to form an oxide nanorod. The oxide nanorod is subsequently exposed to a carbon containing vapour to carburize the nanorod and the catalyst particle is removed by etching for example. The catalyst particle can be applied as a pattern.
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公开(公告)号:FR2889840A1
公开(公告)日:2007-02-23
申请号:FR0606561
申请日:2006-07-19
Applicant: GEN ELECTRIC
Inventor: HUDSPETH HEATHER DIANE , LEE JI UNG , CORDERMAN REED ROEDER , ZHANG ANPING , ROHLING RENEE BUSHEY , DENAULT LAURAINE , BALCH JOLEYN EILEEN
Abstract: La présente invention est relative à des dispositifs (2300, 3500, 3900, 5300 et 5400) d'émission par effet de champ en nanobaguettes à portes, ces dispositifs ayant des distances relativement courtes des pointes des émetteurs aux portes, ce qui assure donc une densité relativement élevée des pointes d'émetteurs et une faible tension de déblocage, et des procédés de fabrication de tels dispositifs. Ces procédés emploient une combinaison de techniques classiques (lithographie, gravure, etc.) de traitement de dispositifs avec un dépôt de nanobaguettes par voie électrochimique. Ces procédés sont relativement simples, rentables et efficaces et ils donnent des dispositifs d'émission par effet de champ qui se prêtent à une utilisation dans des applications telles que l'imagerie radiographique, l'éclairage, les afficheurs à émission par effet de champ (AEC) à écrans plats, etc.
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公开(公告)号:DE60209661T2
公开(公告)日:2006-12-14
申请号:DE60209661
申请日:2002-10-30
Applicant: GEN ELECTRIC
Inventor: PFAENDTNER JEFFREY ALLAN , RIGNEY JOSEPH DAVID , DAROLIA RAMGOPAL , CORDERMAN REED ROEDER , NARDI RICHARD ARTHUR
Abstract: A predominantly beta-phase NiAl overlay coating (24) for use as an environmental coating or a TBC bond coat for articles (10) used in hostile thermal environments, such as components of a gas turbine engine. The coating (24) contains up to about 4 atomic percent hafnium, such as in excess of 1.0 atomic percent hafnium. The coating may also contain about 2 to about 15 atomic percent chromium.
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