Patent Number |
Title Of Patent |
Date Issued |
8076043 |
Fuel cell |
December 13, 2011 |
A fuel cell body has an anode having an anode-side separator with projections and depressions formed on its surface, a cathode, and a membrane electrode assembly disposed between the anode and the cathode, and the fuel cell body is disposed in a container for storing liquid fuel so t |
7638938 |
Phosphor element and display device |
December 29, 2009 |
The phosphor element includes a pair of electrodes facing each other and a phosphor layer containing phosphor particles, the phosphor layer being supported between the pair of electrodes. The phosphor particles include a first semiconductor part and a second semiconductor part which cove |
7479342 |
Fuel cell |
January 20, 2009 |
A fuel cell body has an anode having an anode-side separator with projections and depressions formed on its surface, a cathode, and a membrane electrode assembly disposed between the anode and the cathode, and the fuel cell body is disposed in a container for storing liquid fuel so t |
7406013 |
Optical disc drive |
July 29, 2008 |
In a recordable data storage medium on which property data was recorded after having been modulated and on which data that is decodable by a cryptographic key to be generated from the property data was recorded, the property data was preferably modulated by a different method from th |
7381490 |
Power system for fuel cell, electronic equipment and electric power feeding method |
June 3, 2008 |
As disclosed, there is provided a small-size power system for fuel cell allowing efficient extraction of electric power-output from a fuel cell and a secondary cell, electronic equipment, and an electric power feeding method. The power system for fuel cell has a voltage conversion circui |
7118984 |
Method for fabricating semiconductor component |
October 10, 2006 |
Electrode layers (1, 2) are arranged on both sides of a dielectric layer (3) facing each other so as to configure a capacitor. Lead electrodes (4, 5) are formed in the electrode layers (1, 2). A penetrating electrode (6) that is insulated from the electrode layers (1, 2) is formed. An |
6942903 |
Thin film, method and apparatus for forming the same, and electronic component incorporating the |
September 13, 2005 |
A method for forming a thin film includes the steps of: supplying a deposition material in the form of a liquid onto a heated surface; heating and vaporizing the deposition material on the heated surface while the deposition material is undergoing movement; and depositing the deposition |
6879481 |
Layered product and capacitor |
April 12, 2005 |
A layered product comprising a plurality of deposition units, each comprising a thin resin layer and a thin metal layer wherein the surface roughness of the thin resin layer is 0.1 .mu.m or below, a protrusion forming component is not added to the thin resin layer or the surface roug |
6838153 |
Layered product, capacitor and a method for producing the layered product |
January 4, 2005 |
A method for producing a laminate having resin layers and thin metal layers by repeating a process unit comprising a step of laminating a resin layer by applying a resin material, a step of depositing a patterning material on the resin layer and a step of laminating a thin metal layer, |
6714401 |
Thin film, method and apparatus for forming the same, and electronic component incorporating the |
March 30, 2004 |
A method for forming a thin film includes the steps of: supplying a deposition material in the form of a liquid onto a heated surface; heating and vaporizing the deposition material on the heated surface while the deposition material is undergoing movement; and depositing the deposition |
6710997 |
Layered product and capacitor |
March 23, 2004 |
A layered product including a plurality of deposition units, each having a thin resin layer and a thin metal layer wherein the surface roughness of the thin resin layer is 0.1 .mu.m or below, a protrusion forming component is not added to the thin resin layer or the surface roughness of |
6704190 |
Layered product and capacitor |
March 9, 2004 |
A layered product comprising a plurality of deposition units, each comprising a thin resin layer and a thin metal layer wherein the surface roughness of the thin resin layer is 0.1 .mu.m or below, a protrusion forming component is not added to the thin resin layer or the surface roug |
6602559 |
Thin film, method and apparatus for forming the same, and electronic component incorporating the |
August 5, 2003 |
A method for forming a thin film includes the steps of: supplying a deposition material in the form of a liquid onto a heated surface; heating and vaporizing the deposition material on the heated surface while the deposition material is undergoing movement; and depositing the deposition |
6577493 |
Layered product and capacitor |
June 10, 2003 |
A layered product including a plurality of deposition units, each having a thin resin layer and a thin metal layer wherein the surface roughness of the thin resin layer is 0.1 .mu.m or below, a protrusion forming component is not added to the thin resin layer or the surface roughness of |
6488985 |
Thin film, method and apparatus for forming the same, and electronic component incorporating the |
December 3, 2002 |
A method for forming a thin film includes the steps of: supplying a deposition material in the form of a liquid onto a heated surface; heating and vaporizing the deposition material on the heated surface while the deposition material is undergoing movement; and depositing the deposition |
6413456 |
Method for manufacturing electronic parts |
July 2, 2002 |
In a method for manufacturing electronic parts by laminating metal thin films and insulating thin films on a support, a mold releasing agent is applied to the support before the start of lamination. Alternatively, the mold releasing agent is applied to the surface of the laminate during |
6270832 |
Method for manufacturing a layered product |
August 7, 2001 |
Before forming resin layers and metal thin film layers on a rotating supporting base, a belt-shaped object is run over the supporting base to remove foreign particles adhering to the supporting base. After a resin layer and a metal thin film layer are formed on the belt-shaped object and |
6195249 |
Electronic component having gaps between conductive thin films |
February 27, 2001 |
An electronic component provided with a dielectric thin film (4), normal electrodes (1a, 1b) formed on the thin film (4), dummy electrodes (2a,2b) formed on the dielectric thin film (4) with an insulating region (20) therebetween, and auxiliary electrodes (3) provided on both side faces |
6165832 |
Method for manufacturing a capacitor |
December 26, 2000 |
A method for manufacturing a capacitor includes the step of depositing metal thin film layers and resin layers alternating with each other, thereby forming a layered product. The thickness of the resin layer and the metal thin film or the width of margins are measured during the depo |
6153259 |
Thin film, method and apparatus for forming the same, and electronic component incorporating the |
November 28, 2000 |
A method for forming a thin film includes the steps of: supplying a deposition material in the form of a liquid onto a heated surface; heating and vaporizing the deposition material on the heated surface while the deposition material is undergoing movement; and depositing the deposition |
5798135 |
Method for producing a magnetic recording medium having a carbon protective layer |
August 25, 1998 |
A ferromagnetic metal thin film recording medium having a nonmagnetic substrate, a ferromagnetic metal thin film formed on the nonmagnetic substrate, a dry etched layer which is formed in a surface layer of the ferromagnetic metal thin film and contains oxygen atoms in a higher conce |
5776602 |
Magnetic recording medium having a carbon protective film containing nitrogen and oxygen and ove |
July 7, 1998 |
A magnetic recording medium of the present invention includes: a non-magnetic substrate; a ferromagnetic thin metal layer formed on the non-magnetic substrate; and a carbon layer and a lubricant layer in contact with the carbon layer, which is formed above the ferromagnetic thin meta |
5670107 |
Method for producing magnetic recording medium |
September 23, 1997 |
A magnetic recording medium produced by treating a magnetic recording medium which comprises a non-magnetic substrate and a magnetic layer formed on said substrate in an atmosphere kept at a temperature of at least 50.degree. C., with applying a tension of 1 gf. or less per 10 mm wid |
5637393 |
Magnetic recording medium and its manufacturing method |
June 10, 1997 |
A magnetic recording medium comprising a non-magnetic substrate, a ferromagnetic thin film on the non-magnetic substrate, a hard carbon film on the ferromagnetic thin film, a modified layer of which atomic ratio of nitrogen/carbon is 0.8% or more, and of which thickness is less than 3 nm |
5589263 |
Magnetic recording medium having a ferromagnetic metal thin film, a dry etched layer, a carbonac |
December 31, 1996 |
A ferromagnetic metal thin film recording medium having a nonmagnetic substrate, a ferromagnetic metal thin film formed on the nonmagnetic substrate, a dry etched layer which is formed in a surface layer of the ferromagnetic metal thin film and contains oxygen atoms in a higher conce |
5540957 |
Method of manufacturing a magnetic recording medium |
July 30, 1996 |
A magnetic recording media comprising a non-magnetic substrate, a ferromagnetic thin film on the non-magnetic substrate, a hard carbon film on the ferromagnetic thin film, a modified layer of which atomic ratio of nitrogen/carbon is 0.8% or more, and of which thickness is less than 3 nm |
5496595 |
Method for forming film by plasma CVD |
March 5, 1996 |
A magnetic recording medium comprising a back coating layer formed on a surface reverse to a magnetic layer and a carbonaceous film which is formed on the back coating layer and contains fluorine atoms and silicon atoms and/or nitrogen atoms and in which a concentration of fluorine atoms |
5494742 |
Magnetic recording medium having improved running time and corrosion resistance |
February 27, 1996 |
A magnetic recording medium comprising a non-magnetic substrate, a ferromagnetic metal film formed on said non-magnetic substrate, a carbon film which is formed on said ferromagnetic metal film and in which a concentration of at least one element selected from the group consisting of |
5451427 |
Magnetic recording medium and method of producing the same |
September 19, 1995 |
With the use of a novel method in which after a magnetic recording medium carrying a ferromagnetic metal thin film is heated, a protective layer is developed on the ferromagnetic metal thin film by a known plasma CVD technique while an out gas from the magnetic recording medium being |
5443888 |
Magnetic recording medium having a carbon protective layer and partially fluorinated alkyl carbo |
August 22, 1995 |
In making a magnetic recording medium, a diamond-like carbon film is formed stably with high product efficiency such as 200 .ANG./sec, without occurrence of irregular discharge, and improved still durability and reduced head contamination are achieved by utilizing a.c. plasma discharge |
5364690 |
Magnetic recording medium comprising a ferromagnetic metal film and two carbon protective layers |
November 15, 1994 |
A magnetic recording medium comprising: a non-magnetic substrate; a ferromagnetic metal thin film provided on the non-magnetic substrate; a filmlike first carbon layer provided on the ferromagnetic metal thin film; and a hard and amorphous second carbon layer provided on the first carbon |
5328737 |
Method of forming film by plasma CVD |
July 12, 1994 |
A method of forming a film on a substrate by plasma CVD, comprising the steps of: providing a discharge tube in a vacuum chamber; providing a partition wall around the discharge tube; evacuating space between the discharge tube and the partition wall to vacuum; providing the substrate |
5322716 |
Method for producing magnetic recording medium |
June 21, 1994 |
A method of producing a magnetic recording medium comprises the steps of heating in vacuum a magnetic recording medium produced by forming a ferromagnetic metal-film-type recording medium onto a non-magnetic substrate and of forming, immediately after heating, a protective layer on t |
5302424 |
Method for forming a film with plasma CVD process |
April 12, 1994 |
In plasma discharge to form a film on a magnetic tape of the like in a plasma CVD process, a hollow electrode 12 is arranged in a discharge tube 8 or arranged opposed to another electrode 34. A non-polymerizable gas is blown out from the inside of the hollow electrode 12 made from a sint |
5182132 |
Magnetic recording medium and method for making it |
January 26, 1993 |
In making a magnetic recording medium, a diamond-like carbon film is formed stably with high product efficiency such as 200 .ANG./sec, without occurrence of irregular discharge, and improved still durability and reduced head contamination are achieved by utilizing a.c. plasma discharge |
5110676 |
Magnetic recording medium incorporating metallic magnetic thin film |
May 5, 1992 |
A magnetic metallic thin film type of recording medium has particles of predetermined size uniformly distributed over a surface of a base layer, with a magnetic metallic thin film formed over these. A diamond-state carbon protective film, a carbon protective layer, e.g. of graphite, and |
5104685 |
Method of producing magnetic recording medium |
April 14, 1992 |
A method of producing a magnetic recording medium has the steps of forming a ferromagnetic metallic film layer on a non-magnetic substrate, forming, by a plasma CVD process, a protective layer on the ferromagnetic metallic film layer, and forming an oxidation layer on the protective laye |
4833031 |
Magnetic recording medium |
May 23, 1989 |
A magnetic recording medium is provided with a protective film made of a diamond like carbon film and an organic compound film on a ferromagnetic metal recording film; and it realizes excellent durability and small spacing loss or the like; and as a result high density magnetic recording |
4647507 |
Magnetic recording material |
March 3, 1987 |
A magnetic recording medium wherein a thin layer comprising an organic compound having at least one carboxyl or mercapto group, at least one fluoroalkyl group having 3 or more carbon atoms and at least one aliphatic alkyl group having 8 or more carbon atoms on its molecular terminals is |
4514451 |
Polyester substrate for magnetic recording medium having oligomer protrusions thereon |
April 30, 1985 |
A magnetic recording media comprises a polyester substrate having 1000/mm.sup.2 or more protrusions of polyester oligomer, and a ferromagnetic thin film of 400 .ANG. or larger thickness both formed on the surface of the polyester substrate; the recording media has substantially no sq |
4323629 |
Metallic thin film magnetic recording medium |
April 6, 1982 |
A magnetic thin film deposited on a non-magnetic substrate consists substantially of Ni, Co and oxygen, the content of Ni being between 10 and 55% by weight based on the weight of Ni and Co, the atomic percent ratio of oxygen to Ni and Co being between 3 and 45%. |
4239835 |
Magnetic recording medium |
December 16, 1980 |
A magnetic recording medium wherein a ferromagnetic substance consisting of Fe, Co, Ni or alloy thereof is vacuum evaporated and deposited on a substrate made of a plastic film or a sheet of non-magnetic metal. The thin ferromagnetic film has the columnar crystal structure, and the c |