Entries |
Document | Title | Date |
20080199724 | METHOD FOR MANUFACTURING MULTILAYER CERAMIC ELECTRONIC COMPONENT AND MULTILAYER CERAMIC ELECTRONIC COMPONENT - A method for manufacturing a multilayer ceramic electronic component can prevent the occurrence of bubble trapping. In the method, when an external layer ceramic green sheet is pressure-bonded, for example, to a sheet made of a good quality paper having a rough surface, which is placed on a supporting member, followed by peeling off its carrier film, a first-layer ceramic green sheet is formed. The first-layer external layer ceramic green sheet uses a sterically hindered dispersing agent, such as an aryl ether polymer, as a dispersing agent. Since it is light in weight, the binder segregates at the upper side, and hence a C concentration changes in the thickness direction. More particularly, compared to a C concentration at a surface at a carrier film side supported by the carrier film, a C concentration at an open surface opposite to the surface at the carrier film side is about 1.5 to about 4.0 times. | 08-21-2008 |
20080226938 | Wear resistant ceramic coated aluminum alloy article and method for making same - A method for forming a wear resistant ceramic coating on an aluminum alloy article. The alloy preferably contains from about 85 to about 92 percent aluminum with a plurality of other oxidizable metals selected from copper, magnesium, zinc, and chromium. Less that about 2 percent total of other elements is usually present. In accordance with the invention, the alloy preferably contains less than 0.5 percent each of manganese, iron and silicon. An example of such an alloy is 7075 aluminum alloy. The method includes the steps of: a) immersing the article in an aqueous electrolyte containing from about 1.5 to about 2.5 grams per liter of alkali metal hydroxide and from about 6.5 to about 9.5 grams per liter of alkali metal silicate. In general no more than 1 g per liter of alkali metal pyrophosphate is present and no more than about 0.05 percent of hydrogen peroxide is present, and b) applying an alternating current through the electrolyte using the article as one electrode where a second electrode includes at least one of an electrically conductive container or an immersed separate electrode, where applied EMF is selected to provide a current density of from about 15 to about 25 A/dm | 09-18-2008 |
20080241585 | Voltage non-linear resistance ceramic composition and voltage non-linear resistance element - As for the voltage non-linear resistance element layer | 10-02-2008 |
20080248328 | Process for Preparing a Zeolite-Containing Film - The invention provides a preparation process of a zeolite-containing film which can raise a zeolite component therein, control the physical properties of the surface, and provide a highly smooth film. The process for preparing a zeolite-containing film has a step of forming a precursor film containing an amorphous silicon oxide portion and a zeolite-like recurring portion by using a material having an amorphous silicon oxide portion and a material having a zeolite-like recurring portion; and a dry gel conversion step of heating the precursor film in the presence of water vapor in order to grow the zeolite-like recurring portion. In this process, the material having an amorphous silicon oxide portion and/or the material having a zeolite-like recurring portion contain(s) a silicon atom bonded to the carbon atom of an organic group containing at least one carbon group. | 10-09-2008 |
20080254317 | GYPSUM WALLBOARD WITH IMPROVED NAIL PULL STRENGTH AND THE METHOD FOR MAKING SAME - Repulped fiber that has been treated with an aqueous solution of a caustic selected from sodium hydroxide, potassium hydroxide and sodium carbonate, is used to make wallboard paper that is used to make a gypsum wallboard having improved nail pulling strength compared to gypsum wallboard made with fiber wallboard paper that has not been treated with caustic. | 10-16-2008 |
20080280160 | Isolation and purification of single walled carbon nanotube structures - Disclosed are methods for isolating and purifying single wall carbon nanotubes from contaminant matrix material, methods for forming arrays of substantially aligned nanotubes, and products and apparatus comprising a plurality of nanotube structures. | 11-13-2008 |
20080305358 | METHOD OF COATING A METALLIC SUBSTRATE - The present invention relates to a method of coating a metallic substrate comprising the steps of: (a) applying a liquid coating composition which comprises a thermally curable organic binding agent to at least part of the metallic substrate, and (b) curing the applied coating composition by irradiation with laser infrared light to form a cured coating on the substrate; and to coated metallic article obtainable thereby. | 12-11-2008 |
20080311424 | CARBON NANO-TUBE (CNT) THIN FILM COMPRISING AN AMINE COMPOUND, AND A MANUFACTURING METHOD THEREOF - A carbon nano-tube CNT thin film and a manufacturing method thereof are provided. In detail, the CNT thin film comprises a plastic substrate; and a CNT composition being coated over the plastic substrate, in which the CNT composition includes a CNT; and an amine compound of boiling point lower than 150° C. used as a dispersion solvent. When the CNT composition is coated over the plastic substrate, an amine compound is contained in its dispersion liquid. This amine compound is then removed after the CNT composition is coated over the plastic substrate. | 12-18-2008 |
20090081479 | METHOD OF MAKING A COATED CUTTING TOOL AND THE RESULTING TOOL - The present invention relates to a method of making a coated cutting tool comprising providing a substrate, depositing on said substrate a cathodic arc evaporation PVD coating of nitrides, oxides, borides, carbides, carbonitrides, carbooxynitrides, or combinations thereof wherein the coating during deposition is subjected to more than one ion etching step. | 03-26-2009 |
20090142617 | COMPOSITION FOR FORMING SILICON-ALUMINUM FILM, SILICON-ALUMINUM FILM AND METHOD FOR FORMING THE SAME - A composition for forming a silicon.aluminum film, containing a silicon compound and an aluminum compound. The silicon.aluminum film is obtained by forming a coating film of the above composition and treating it with heat and/or light. | 06-04-2009 |
20090169919 | Device with graphene layers - A method includes an act of providing a crystalline substrate with a diamond-type lattice and an exposed substantially (111)-surface. The method also includes an act of forming a graphene layer or a graphene-like layer on the exposed substantially (111)-surface. | 07-02-2009 |
20090169920 | METHOD FOR PRODUCING LITHOGRAPHIC PRINTING PLATE - It is an object of the present invention to provide a method for producing a lithographic printing plate without any deterioration in plate making performance caused by deformation and breakage of fine particles. An inorganic compound dispersion as a coating liquid is applied onto a surface of a strip-shaped flexible support at a pressure P applied to the coating liquid of 1.5×105 Pa or less to form a coating layer. Also, an inorganic compound dispersion as a coating liquid is applied onto a surface of a strip-shaped flexible support at a shearing stress τ applied to the coating liquid of 1.5×105 Pa or less to form a coating layer. | 07-02-2009 |
20090311554 | CARBON NANOTUBE DISPERSING AGENT, CARBON NANOTUBE COMPOSITE, CARBON NANOTUBE FILM, AND METHOD FOR MANUFACTURING THE CARBON NANOTUBE FILM - Provided are a carbon nanotube dispersing agent, a carbon nanotube composite, a carbon nanotube film, and a method for manufacturing the carbon nanotube film. The carbon nanotube dispersing agent has at least one chromophore including at least one aromatic carbon ring, and has a plane structure. | 12-17-2009 |
20090317660 | Methods of Dispersing Carbon Nanotubes - A method is described for preparing carbon nanotube dispersions in organic solvents such as chloroform and methyl ethyl ketone. Structures resulting from organic dispersions are also disclosed. The dispersing agents used in this method comprise long chain hydrocarbons, halogen-substituted hydrocarbons, fluorocarbons, or a mixture of hydrocarbons, halogen-substituted hydrocarbons, and fluorocarbons; wherein the hydrocarbons, halogen-substituted hydrocarbons and fluorocarbons have from 6 to 40 carbons in a chain, at least one alkene or alkyne moiety, and at least one pendant carboxylic acid, phosphonic acid, and/or sulfonic acid group or an ester of these acids. | 12-24-2009 |
20100015470 | ELECTRIC DOUBLE LAYER CAPACITOR - A solution or dispersion of an ion-permeable compound, a carbon fine particle a, and a solvent is coated on a conductive sheet such as an aluminum foil, the coat is dried to form a film a, which allows to obtain a collector for an electric double layer capacitor. A solution or dispersion of a binder, a carbon fine particle b, an activated carbon b, and a solvent is coated on the film a, the coat is dried to form a film b, which results in obtaining an electrode for an electric double layer capacitor. The electrode is piled on a separator, and immersed in an electrolytic solution to obtain an electric double layer capacitor. | 01-21-2010 |
20100047620 | SOLAR REFLECTIVE COATINGS AND COATING SYSTEMS - Disclosed are infrared reflective coating compositions and cured coatings deposited on a substrate, as well as multi-component composite coating systems. The coating compositions include an infrared transparent pigment and an infrared reflective pigment. | 02-25-2010 |
20100068560 | PROCESS FOR THE PREPARATION OF A CROSS-LINKED RUBBER ARTICLE - Process for preparing a cross-linked rubber article comprising the steps of: a) applying a sulfur-containing composition to the surface of a pre-shaped peroxide-containing cross-linkable rubber article to provide a sulfur-coated article, and b) cross-linking the rubber by heating the sulfur-coated article, optionally in the presence of air, at a temperature in the range of 80 to 300° C. to obtain the cross-linked rubber article. | 03-18-2010 |
20100151274 | FLEXIBLE SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - A method of manufacturing a flexible substrate is provided. The method includes coating a precursor including an inorganic polymer on the flexible substrate, curing the precursor including the inorganic polymer, and oxidizing a surface of the cured precursor including the inorganic polymer to form an oxide layer. Accordingly, an organic/inorganic barrier layer may be formed by only one coating process of a thin film. In this case, oxygen plasma or infrared ray/ozone processing may be performed at atmospheric pressure, thereby reducing process costs and equipment costs by not using vacuum equipment. | 06-17-2010 |
20100190030 | JOINING METHOD AND COMPOSITE OF AT LEAST TWO JOINING PARTNERS - A method for joining at least one first ceramic joining partner with at least one second joining partner includes: depositing at least one preceramic polymer on the first and/or the second joining partner in a joining region, bringing together the joining partners in the joining region, and heating the joining region such that the preceramic polymer transforms into an amorphous and/or crystalline ceramic that connects the joining partners to each other. | 07-29-2010 |
20100215985 | TRANSPARENT CONDUCTIVE FILM AND METHOD FOR PRODUCING TRANSPARENT CONDUCTIVE FILM - Disclosed is a transparent conductive film containing a single-walled carbon nanotube and a fullerene. | 08-26-2010 |
20100215986 | FUNCTIONAL FILM AND METHOD FOR MANUFACTURING THE FUNCTIONAL FILM - A method for manufacturing a functional film includes steps of: feeding a support continuously from a first film roll, forming a coating film on the support, providing a laminate film on a surface of the coating film, and taking up the support to a second film roll; and loading the second film roll made by the aforementioned step in a vacuum film-forming apparatus, feeding the support provided with the laminate film continuously from the film roll, peeling off the laminate film, forming an inorganic film on the coating film on the support, and taking up the support to a third film roll. | 08-26-2010 |
20100255343 | COMPRESSOR - A compressor using a refrigerant containing a compound having a double bond characterized in that any one selected from a Fe—P-based electroplated film, a Fe—W-based electroplated film, a Fe—C-based electroplated film, a Fe—N-based electroplated film, a Co-based electroplated film, a Co—W-based electroplated film, a Cr-based electroplated film, a Cr—Mo-based electroplated film, a resin-coated film and a DLC-surface-treated film is employed as a coating layer for an internal structural member. The occurrence of an additional reaction of the refrigerant containing a compound having a double bond can be suppressed, and an excellent performance of the compressor can be exhibited for a long term. | 10-07-2010 |
20100297473 | FUNCTIONAL FILM, METHOD FOR MANUFACTURING FUNCTIONAL FILM, AND APPARATUS FOR MANUFACTURING FUNCTIONAL FILM - A method for manufacturing a functional film, includes the steps of: continuously feeding a support from a first film roll, forming, on the support, a coating film having a degree of hardness of 3B or more, and winding up the support into a second film roll at a tension of 30 N/m or more; and loading the second film roll which has been wound up in the prior step in a vacuum film forming apparatus, continuously feeding the support from the second film roll, forming an inorganic film on the coating film formed on the support, and winding up the support into a third film roll. | 11-25-2010 |
20110003174 | CARBON WIRE AND NANO STRUCTURE FORMED OF CARBON FILM AND METHOD OF PRODUCING THE SAME - There are provided a carbon wire using CNT or a similar carbon filament having a sufficiently low electrical resistance value, and a wire assembly employing that carbon wire. A carbon wire includes an assembly portion and a graphite layer. The assembly portion is configured of a plurality of carbon filaments implemented as carbon nanotubes in contact with one another. The graphite layer is provided at an outer circumference of the assembly portion. | 01-06-2011 |
20110039124 | CONDUCTIVE COMPOSITE AND METHOD FOR PRODUCING THE SAME - A method for producing a conductive composite includes coating a composition (B) containing a dispersing agent (A) having a hydroxyl group in the molecule and a conductive material on a substrate, and coating a liquid containing a compound (C) represented by the formula (I) below and/or a hydrolysate of the compound (C) on a surface coated with the composition (B): | 02-17-2011 |
20110091742 | FUNCTIONAL FILM AND METHOD FOR PRODUCING THE SAME - A method for producing a functional film, comprising the steps of:
| 04-21-2011 |
20110111256 | Optical Element, Method for Producing Optical Element, and Method for Manufacturing Electronic Device - Disclosed is an optical element to be subjected to a reflow process at high temperatures, wherein cracks or wrinkles can be prevented from occurring in an antireflection film. A method for producing the optical element, and a method for manufacturing an electronic device using the optical element are also disclosed. Specifically disclosed is a method for producing an optical element comprising a base, wherein at least one optical surface is composed of a resin material, and a coating formed on the optical surface of the base and composed of an inorganic material, the optical element being mounted on a substrate together with an electronic component by a reflow process at a temperature Ta. The method is characterized in that the coating is formed at a film-forming temperature Tb of not less than (Ta−60° C.), and a material having no glass transition temperature or a glass transition temperature of not less than (Tb−50° C.) is used as the resin material. | 05-12-2011 |
20110223444 | CRYSTALLINE SURFACE STRUCTURES AND METHODS FOR THEIR FABRICATION - A method for fabricating crystalline surface structures ( | 09-15-2011 |
20110262772 | Method for Producing Aligned Near Full Density Pure Carbon Nanotube Sheets, Ribbons, and Films From Aligned Arrays of as Grown Carbon Nanotube Carpets/Forests and Direct Transfer to Metal and Polymer Surfaces - Methods for preparing carbon nanotube layers are disclosed herein. Carbon nanotube layers may be films, ribbons, and sheets. The methods comprise preparing an aligned carbon nanotube array and compressing the array with a roller to create a carbon nanotube layer. Another method disclosed herein comprises preparing a carbon nanotube layer from an aligned carbon nanotube array grown on a grouping of lines of metallic catalyst. A composite material comprising at least one carbon nanotube layer and prepared by the process comprising a) compressing an aligned single-wall carbon nanotube array with a roller, and b) transferring the carbon nanotube layer to a polymer is also disclosed. | 10-27-2011 |
20120003500 | PROCESS FOR PRODUCING MULTILAYERED GAS-BARRIER FILM - Provided are a method for producing a film, which is satisfactory in productivity, exhibits high gas-barrier property immediately after production, and has excellent adhesive strength between constituent layers while maintaining the excellent gas-barrier property, and a gas-barrier film, which is obtained by the method. The method for producing a gas-barrier film includes the steps of; (1) forming an inorganic thin film by a vacuum deposition method on at least one surface of a base film; (2) forming a thin film by a plasma CVD method on the inorganic thin film formed in the step (1); and (3) forming an inorganic thin film by the vacuum deposition method on the thin film formed in the step (2), in which each of the steps (1) and (3), and the step (2) are sequentially carried out at a pressure of 1×10 | 01-05-2012 |
20120015213 | Fabrication Method Of Composite Components And Thus Obtained Components - During the cooking of a composite component ( | 01-19-2012 |
20120021249 | METHOD OF CONTROLLING NUMBER OF GRAPHENE LAYERS - A method of controlling the number of layers of graphene layers includes forming graphene on a first surface of a first substrate, and forming a second substrate on a second surface of the first substrate; and irradiating the graphene with light to cause constructive Fresnel interference, wherein a multilayer structure or non-uniform graphene structure formed on the a surface of the graphene is removed by the constructive Fresnel interference. | 01-26-2012 |
20120021250 | METHOD OF PREPARING CARBON THIN FILM, ELECTRONICS COMPRISING CARBON THIN FILM, AND ELECTROCHEMICAL DEVICE COMPRISING CARBON THIN FILM - A method of preparing a carbon thin film, and electronics including the carbon thin film. | 01-26-2012 |
20120058365 | Ceramic-Resin Composite Roll and Production Method of the Same - A ceramic-resin composite roll ( | 03-08-2012 |
20120070689 | Coatings and Hard Mask Compositions for Integrated Circuit Applications, Methods of Production and Uses Thereof - A coating material is described herein that includes at least one inorganic compound, and at least one densifying agent, wherein the densifying agent increases the density of the coating material as compared to the density of the at least one inorganic compound. A method of producing a coating material is described herein that includes: providing at least one inorganic compound, providing at least one densifying agent, combining the at least one inorganic compound with the at least one densifying agent to form the coating material, wherein the densifying agent increases the density of the coating material as compared to the density of the at least one inorganic compound. | 03-22-2012 |
20120088123 | GRAPHENE SHELL AND PROCESS OF PREPARING THE SAME - Provided are a process for economically preparing a graphene shell having a desired configuration which is applicable in various fields wherein in the process the thickness of the graphene she can be controlled, and a graphene shell prepared by the process. | 04-12-2012 |
20120100394 | COATING AGENT FOR CORROSION-STABLE PAINTS - Coating compositions comprising (a.1) at least one binder with functional groups (Gr); (a.2) at least one pigment; and (a.3) at least one corrosion-inhibiting component which comprises
| 04-26-2012 |
20120121932 | Molecular Layer Deposition Process For Making Organic Or Organic-Inorganic Polymers - Ultrathin layers of organic polymers or organic-inorganic hybrid polymers are deposited onto a substrate using molecular layer deposition methods. The process uses vapor phase materials which contain a first functional group and react only monofunctionally at the surface to add a unit to the polymer chain. The vapor phase reactant in addition has a second functional group, which is different from the first functional group, or a blocked, masked or protected functional group, or else has a precursor to such a functional group. | 05-17-2012 |
20120141830 | REINFORCED BOARD AND METHOD OF PRODUCING THEREOF - Reinforced boards and/or walls, and methods of producing thereof. In some non-limiting examples, there is provided a reinforced gypsum board and a process for the production thereof. In one example, the reinforced board may include one or more reinforcing elements, e.g., to enhance the rigidity of the board and/or to provide support for the board. | 06-07-2012 |
20120148873 | PLASTERBOARD PANELS AND METHODS OF MAKING THE SAME - The present invention relates to plasterboard panels comprising novel bonding agents and to methods of making the same. | 06-14-2012 |
20120156521 | PHOTOCHROMIC COMPOUNDS AND COMPOSITIONS - Described herein are compounds generally comprising an indeno[2′,3′:3,4]naptho[1,2-b]pyran structure. Such compounds may be useful for their photochromic properties, and be used in certain photochromic compositions. Such compositions may further comprise other photochromic compositions and/or materials. Additionally, such compounds and/or compositions may be suitable for preparing certain photochromic articles. Also described herein are methods for preparing certain photochromic compounds, compositions, and articles. | 06-21-2012 |
20120183808 | METHOD OF ROOM TEMPERATURE COVALENT BONDING - A method of bonding includes using a bonding layer having a fluorinated oxide. Fluorine may be introduced into the bonding layer by exposure to a fluorine-containing solution, vapor or gas or by implantation. The bonding layer may also be formed using a method where fluorine is introduced into the layer during its formation. The surface of the bonding layer is terminated with a desired species, preferably an NH | 07-19-2012 |
20120225319 | COATED INSULATING FILMS FOR ELECTRIC MACHINES AND MANUFACTURING PROCESS THEREFOR - A polymer film has a markedly improved resistance to erosion in the electrical field (so-called corona stability) when permanently subject to partial discharge. | 09-06-2012 |
20120282489 | DIRECT GRAPHENE GROWING METHOD - A method of preparing crystalline graphene includes performing a first thermal treatment including supplying heat to an inorganic substrate in a reactor, introducing a vapor carbon supply source into the reactor during the first thermal treatment to form activated carbon, and binding of the activated carbon on the inorganic substrate to grow the crystalline graphene. | 11-08-2012 |
20120328906 | METHOD FOR MANUFACTURING GRAPHENE, TRANSPARENT ELECTRODE AND ACTIVE LAYER COMPRISING THE SAME, AND DISPLAY, ELECTRONIC DEVICE, OPTOELECTRONIC DEVICE, BATTERY, SOLAR CELL, AND DYE-SENSITIZED SOLAR CELL INCLUDING THE ELECTRODE AND THE ACTIVE LAYER - Disclosed is a method of manufacturing graphene, a transparent electrode and an active layer including the graphene, and a display, an electronic device, an optoelectronic device, a solar cell, and a dye-sensitized solar cell including the transparent electrode and the active layer. The method of manufacturing graphene includes: (a) preparing a subject substrate; (b) forming a metal thin film on the subject substrate and heat-treating the metal thin film to increase the grain size of the metal thin film; (c) supplying a carbon source material on the metal thin film; (d) heating the supplied carbon source material, the subject substrate, and the metal thin film; (e) diffusing carbon atoms generated from the heated carbon source material due to thermal decomposition into the metal thin film; and (f) forming graphene on the subject substrate by the carbon atoms diffused through the metal thin film. | 12-27-2012 |
20130130060 | TRANSPARENT CONDUCTIVE FILMS AND METHODS FOR MANUFACTURING THE SAME - Disclosed is a transparent conductive film including a substrate, and a conductive composite on the substrate, wherein the conductive composite includes conductive carbon material and a non-carbon inorganic material having a surface modified by an electron-withdrawing group, and the non-carbon inorganic material contacts the conductive carbon material. Furthermore, the disclosed provides a method of manufacturing the transparent conductive film. | 05-23-2013 |
20130130061 | Heterocyclic Compound and Light-Emitting Element, Light-Emitting Device, Lighting Device, and Electronic Device Using the Same - To provide a novel heterocyclic compound having a bipolar property. To improve element characteristics of a light-emitting element by application of the novel heterocyclic compound to the light-emitting element. A heterocyclic compound represented by a general formula (G1) and a light-emitting element formed using the heterocyclic compound represented by the general formula (G1) are provided. When the heterocyclic compound represented by the general formula (G1) is used for the light-emitting element, the characteristics of the light-emitting element can be improved. | 05-23-2013 |
20130149554 | Graphene Composite and a Method of Manufacturing a Graphene Composite - A method including providing graphene on a growth substrate; providing a target substrate on the graphene to form a first composite including the target substrate and graphene; and removing at least a portion of the first composite from the growth substrate. | 06-13-2013 |
20130196175 | METHOD OF MAKING A SANDWICH PANEL - A method of making a composite sandwich panel comprises the steps of (i) making a core structure, (ii) making at least one facesheet, (iii) bonding at least one of the at least one facesheets to the core structure, wherein the growth of a carbon nanotube structure is achieved during at least one of steps (i) to (iii). | 08-01-2013 |
20130224518 | CARBON WIRE AND NANO STRUCTURE FORMED OF CARBON FILM AND METHOD OF PRODUCING THE SAME - There are provided a carbon wire using CNT or a similar carbon filament having a sufficiently low electrical resistance value, and a wire assembly employing that carbon wire. A carbon wire ( | 08-29-2013 |
20130295413 | METHOD OF MAKING CHARGE DISSIPATIVE SURFACES OF POLYMERIC MATERIALS WITH LOW TEMPERATURE DEPENDENCE OF SURFACE RESISTIVITY AND LOW RF LOSS - A method of making a charge dissipative surface of a dielectric polymeric material with tunable (selectable) surface resistivity, comprises the step of controllably carbonizing the surface of the polymeric material in a vacuum environment by bombarding the polymeric surface with an ion beam of rare gas ions, the energy level of the ion source being from 2.5 to 30 keV, in the fluence range 1E16-5E17 ion/cm | 11-07-2013 |
20140004381 | ENHANCED MATERIALS AND INTERFACIAL PERFORMANCE VIA INFILTRATION | 01-02-2014 |
20140120373 | METHOD OF NUCLEATING THE GROWTH A DIAMOND FILM AND A DIAMOND FILM NUCLEATED THEREOF - A method of nucleating the growth a diamond film comprises the following steps. First, a substrate is provided upon which the diamond film is to be nucleated. A diamondoid is then dissolved in an adhesive solvent to form a mixing solution. The substrate is inserted into the mixing solution to let the diamondoid attach to the substrate through the adhesive solvent. A diamond film nucleated by the abovementioned method is also disclosed in the present invention. | 05-01-2014 |
20150030884 | METHOD FOR EVALUATING DISPERSION OF MATERIAL FOR LIGHT TO HEAT CONVERSION IN THERMAL TRANSFER FILM AND THERMAL TRANSFER FILM USING THE SAME - A method for evaluating dispersion of a light-to-heat conversion material in a thermal transfer film includes calculating optical densities OD1 and OD2 of the thermal transfer film according to Equations 2 and 3, and calculating a dispersion evaluation value ΔOD according to Equation 1. The thermal transfer film has good dispersion of the light-to-heat conversion material when the dispersion evaluation value ΔOD is 0.1 or less, and the thermal transfer film has poor dispersion of the light-to-heat conversion material when the dispersion evaluation value ΔOD is greater than 0.1. | 01-29-2015 |
20150030885 | COATED ARTICLE AND CHEMICAL VAPOR DEPOSITION PROCESS - A chemical vapor deposition process and article formed by a chemical vapor deposition process are disclosed. The process includes pretreating a substrate by exposing the substrate to an oxidative environment for a period of time, decomposing a material to form a layer on the substrate, and functionalizing one or both of the layer and the substrate. The pretreating pre-oxidizes the substrate. | 01-29-2015 |
20150037611 | WIRING BOARD, MOUNTING STRUCTURE USING SAME, AND METHOD OF MANUFACTURING WIRING BOARD - A wiring board ( | 02-05-2015 |
20150064498 | METHOD OF ROOM TEMPERATURE COVALENT BONDING - A method of bonding includes using a bonding layer having a fluorinated oxide. Fluorine may be introduced into the bonding layer by exposure to a fluorine-containing solution, vapor or gas or by implantation. The bonding layer may also be formed using a method where fluorine is introduced into the layer during its formation. The surface of the bonding layer is terminated with a desired species, preferably an NH | 03-05-2015 |
20150376357 | LAMINATE FILM - The present invention is a laminate film comprising a plastic film, and an inorganic layer and an organic layer containing a 1,3,5-triazine derivative laid on at least one surface of the plastic film, wherein the 1,3,5-triazine derivative has a sulfur-containing group as a substituent on at least one of 2, 4 and 6 positions. | 12-31-2015 |
20160089863 | ELECTRICAL CURING OF COMPOSITE STRUCTURES - A composite structure cured by the process of: electrically coupling a first lead to a first portion of said composite structure; electrically coupling a second lead to a second portion of said composite structure; and using an electric power source to pass electric current through said composite structure from said first portion to said second portion, wherein passing said electric current through said composite structure causes the temperature of at least a portion of said composite structure increase to a predetermined temperature. | 03-31-2016 |