| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 427343000 | Inorganic coating | 22 |
| 20080292798 | BORON NITRIDE AND BORON NITRIDE-DERIVED MATERIALS DEPOSITION METHOD - Methods for forming boron-containing films are provided. The methods include introducing a boron-containing precursor and a nitrogen or oxygen-containing precursor into a chamber and forming a boron nitride or boron oxide film on a substrate in the chamber. In one aspect, the method includes depositing a boron-containing film and then exposing the boron-containing film to the nitrogen-containing or oxygen-containing precursor to incorporate nitrogen or oxygen into the film. The deposition of the boron-containing film and exposure of the film to the precursor may be performed for multiple cycles to obtain a desired thickness of the film. In another aspect, the method includes reacting the boron-containing precursor and the nitrogen-containing or oxygen-containing precursor to chemically vapor deposit the boron nitride or boron oxide film. | 11-27-2008 |
| 20090130315 | Method for Continuously Operating Acid or Alkaline Zinc or Zinc Alloy Baths - The invention provides a process for depositing metallic layers from acidic or alkaline zinc or zinc alloy baths containing organic additives selected from brighteners, surfactants and complexing agents, a soluble zinc salt and optionally further metal salts selected from Fe, Ni, Co, Sn salts, wherein the bath can be purified continuously so that the process can be operated without interruption, as well as apparatus for carrying out this process. | 05-21-2009 |
| 20090258148 | METHOD OF PRODUCING CERAMIC SPRAY-COATED MEMBER, PROGRAM FOR CONDUCTING THE METHOD, STORAGE MEDIUM AND CERAMIC SPRAY-COATED MEMBER - A ceramic spray-coated member capable of surely controlling adhesion and detachment of water is produced by spraying a given ceramic onto a surface of a base material, in which an organic matter adsorbed on a surface of the ceramic spray-coated member is removed and the surface of the ceramic spray-coated member is stabilized by chemically bonding to water. | 10-15-2009 |
| 20100062164 | Methods and Solutions for Preventing the Formation of Metal Particulate Defect Matter Upon a Substrate After a Plating Process - Methods and solutions for preventing the formation of metal particulate defect matter upon a substrate after plating processes are provided. In particular, solutions are provided which are free of oxidizing agents and include a non-metal pH adjusting agent in sufficient concentration such that the solution has a pH between approximately 7.5 and approximately 12.0. In some cases, a solution may include a chelating agent. In addition or alternatively, a solution may include at least two different types of complexing agents each offering a single point of attachment for binding metal ions via respectively different functional groups. In any case, at least one of the complexing agents or the chelating agent includes a non-amine or non-imine functional group. An embodiment of a method for processing a substrate includes plating a metal layer upon the substrate and subsequently exposing the substrate to a solution comprising the aforementioned make-up. | 03-11-2010 |
| 20100068395 | METHOD OF PRODUCING CERAMIC SPRAY-COATED MEMBER, PROGRAM FOR CONDUCTING THE METHOD, STORAGE MEDIUM AND CERAMIC SPRAY-COATED MEMBER - A ceramic spray-coated member capable of surely controlling adhesion and detachment of water is produced by spraying a given ceramic onto a surface of a base material, in which an organic matter adsorbed on a surface of the ceramic spray-coated member is removed and the surface of the ceramic spray-coated member is stabilized by chemically bonding to water. | 03-18-2010 |
| 20100285224 | Agent and method for curing pervious concrete - The use of pervious concrete has been rapidly growing as a means to meet burgeoning stormwater regulations. A difficulty in placement of pervious concrete has been the need to rapidly cover the material after placement and leave it covered for seven days to ensure moisture is not lost and the cement paste fully cures. Surface unraveling is a common cause of failure of pervious concrete installations due to rapid moisture loss from the cement paste of the freshly placed pervious concrete mixture. | 11-11-2010 |
| 20100291302 | ARTICLE PROTECTED BY A THERMAL BARRIER COATING HAVING A GROUP 2 OR 3/GROUP 5 STABILIZATION-COMPOSITION-ENRICHED SURFACE - A protected article is prepared by providing the article, depositing a bond coat onto an exposed surface of the article, and producing a thermal barrier coating on an exposed surface of the bond coat. The step of producing the thermal barrier coating includes the steps of depositing a primary ceramic coating onto an exposed surface of the bond coat, and depositing a stabilization composition onto an exposed surface of the primary ceramic coating. The stabilization composition includes a first element selected from Group 2 or Group 3 of the periodic table, and a second element selected from Group 5 of the periodic table. The atomic ratio of the amount of the first element to the amount of the second element is at least 1.3, more preferably at least 1:1. | 11-18-2010 |
| 20100291303 | ANTI-TARNISH COATINGS - A method is disclosed for enhancing the corrosion resistance of a surface of a copper or copper alloy substrate. The method comprises depositing a metallic surface layer comprising a precious metal on a surface of the copper or copper alloy substrate by immersion displacement plating and exposing the electronic device to an aqueous composition comprising a first organic molecule comprising at least one functional group that interacts with and protects precious metal surfaces and a second organic molecule comprising at least one functional group that interacts with and protects copper surfaces. | 11-18-2010 |
| 20120040099 | SOL AND METHOD FOR PRODUCING A DELAFOSSITE MIXED OXIDE LAYER STRUCTURE ON A SUBSTRATE AND ALSO A SUBSTRATE COATED WITH A MIXED OXIDE - The present invention relates to a sedimentation-stable sol which, in addition to a copper(II) salt, also comprises at least one further metallic salt, an additive which is contained ensuring that the metallic salts contained in the sol remain dissolved or in dispersion. Furthermore, the sol is suitable in the method according to the invention for producing a metallic mixed oxide layer on a substrate, the metallic mixed oxide layer having a delafossite structure. Likewise, a substrate which has a metallic mixed oxide layer with a delafossite structure and also possibilities of use thereof are indicated according to the invention. | 02-16-2012 |
| 20120082793 | DISPERSOID HAVING METAL-OXYGEN BONDS, METAL OXIDE FILM, AND MONOMOLECULAR FILM - Dispersoids having metal-oxygen groups that are suitable for the production of metal oxide thin-films at a low temperature of 200° C. or below and for the production of homogeneous organic-inorganic hybrid materials. The dispersoid having metal-oxygen bonds may be obtained by mixing a metal compound having at least three hydrolyzable groups with at least 0.5 mole but less than 2 moles of water per mole of the metal compound in an organic solvent, in the absence of an acid, a base, and/or a dispersion stabilizer, and at a temperature at or below the temperature at which the metal compound begins to hydrolyze, then raising the temperature to at least the temperature at which hydrolysis begins. | 04-05-2012 |
| 20120213933 | Formation of Selenide, Sulfide or Mixed Selenide-Sulfide Films on Metal or Metal Coated Substrates - A method of forming a metal-coated substrate having a CuInGaR | 08-23-2012 |
| 20120308728 | MAGNETORESISTIVE ELEMENT AND METHOD OF MANUFACTURING THE SAME - A magnetoresistive element includes a magnetoresistive film including a magnetization pinned layer, a magnetization free layer, an intermediate layer arranged between the magnetization pinned layer and the magnetization free layer, a cap layer arranged on the magnetization pinned layer or on the magnetization free layer, and a functional layer arranged in the magnetization pinned layer, in the magnetization free layer, in the interface between the magnetization pinned layer and the intermediate layer, in the interface between the intermediate layer and the magnetization free layer, or in the interface between the magnetization pinned layer or the magnetization free layer and the cap layer, and a pair of electrodes which pass a current perpendicularly to a plane of the magnetoresistive film, in which the functional layer is formed of a layer including nitrogen and a metal material containing 5 atomic % or more of Fe. | 12-06-2012 |
| 20130330477 | OXIDIZED GRAPHITE AND CARBON FIBER - A mechanochemical oxidation process that allows relatively benign oxidizers to be used for the production of at least partially oxidized graphite, and a method of preparing a carbon fiber using oxidized graphite and a fiber component. Partially oxidized graphite is fully dispersible in water and can be used to prepare thin films with conductivities rivaling pure graphite. This offers the potential for improved electronic displays, solar cells, and lithium ion batteries. A carbon nanotube and a method of making the same is also provided. | 12-12-2013 |
| 20140017408 | Deposition Of N-Metal Films Comprising Aluminum Alloys - Provided are methods of depositing films comprising alloys of aluminum, which may be suitable as N-metal films. Certain methods comprise exposing a substrate surface to a metal halide precursor comprising a metal halide selected from TiCl | 01-16-2014 |
| 20140017409 | CORROSION RESISTANCE PASSIVATION FORMULATION AND PROCESS OF PREPARATION THEREOF - The present invention provides a passivation formulation and a process for forming trivalent chromium-based passivation film on zinc and zinc alloys. The passivation film incorporates nano-ceramic particles resulting in higher corrosion resistance as compared to a trivalent chromium passivation film without nano-sized ceramic particles. The corrosion resistance of the coating is further enhanced by a topcoat or a sealant | 01-16-2014 |
| 20140127411 | FABRICATION METHOD FOR METAL-SUPPORTED NANO-GRAPHITE - To fabricate a metal-supported nano-graphite with easy processing. The invention includes the steps of: using carbon nanowalls formed on a substrate to produce carbon nanowall pieces which are each composed of one or plural nano-graphite domains smaller than the carbon nanowalls; mixing metal to be supported with a liquid in which the produced carbon nanowall pieces are dispersed; and injecting a reducing agent into the liquid containing the carbon nanowall pieces and metal to cause the metal to be supported on the carbon nanowall pieces. | 05-08-2014 |
| 20140134340 | COMPOSITIONS AND METHODS TO PREVENT CORROSION BY CO2 ON CEMENT COMPOSITIONS - Methods and compositions that protect cement compositions from corrosion, particularly from wet carbon dioxide, are provided. A soluble salt additive is provided to react with reaction products generated during the reactions that occur when cement is exposed to wet carbon dioxide. The soluble salt reacts to form an insoluble salt that forms a protective layer on the surface of the cement that protects it from further corrosion from exposure to wet carbon dioxide. | 05-15-2014 |
| 20160083828 | METHOD FOR SURFACE-TREATING A METALLIC SUBSTRATE - A method for surface-treating a metallic substrate, in particular steel plate, using a protective coating on a Zn basis, according to which a chloride-containing solution is applied to the protective coating and as a result an anti-corrosion layer comprising hydrozincite and simonkolleite is formed at least in parts. To increase the corrosion resistance of the protective coating and to improve the process sequence and reproducibility of the method, the invention proposes reacting the protectively coated substrate with the solution which, using an acid, is adjusted to a pH of 4 to 6 and contains 1.8 to 18.5% by weight chloride, so as to increase the proportion of simonkolleite in relation to the proportion of hydrozincite in the anti-corrosion layer. | 03-24-2016 |
| 20160160357 | METHOD FOR IMPROVING ADHERENCE - A method for improving the adhesive capacity of a protectively coated steel sheet is proposed, in which, in a continuous process, a protective coating based on Zn—Al—Mg is applied to the steel sheet and, in a further step, the protective coating undergoes a surface treatment in which an aqueous composition is applied in order to modify the natural oxide layer, which contains Al | 06-09-2016 |
| 427344000 | Silicon compound containing coating | 3 |
| 20090087567 | METHOD OF FABRICATING ONE-DIMENSIONAL METALLIC NANOSTRUCTURE - A method of fabricating one-dimensional metallic nanostructure is provided. First, a mixing layer including a first oxide and a second oxide is provided. The first oxide is a metallic oxide, and the first oxide and the second oxide are immiscible. Next, a reducing gas is introduced and a thermal process is performed on the mixing layer so as to reduce the metal of the first oxide to form one-dimensional metallic nanostructure. | 04-02-2009 |
| 20120064252 | CYCLOHEXANE OXIDATION PROCESS BYPRODUCT DERIVATIVES AND METHODS FOR USING THE SAME - Disclosed are ester compositions, solvents, cleaning formulations, curing agents, reactive diluent solvents, controlled acid function release agents, polyol monomers, drilling mud and methods of making and using the same. | 03-15-2012 |
| 20130243959 | METHOD FOR MANUFACTURING A GOLD CORE/INSULATOR SHELL NANOSTRUCTURE USING A NOVEL PEPTIDE - The present invention relates to a method for manufacturing a gold core/insulator shell nanostructure and a novel peptide used in the method. The method of the present invention is a biomimetic synthetic method using a silica-polymerizing peptide having a high affinity onto the surface of gold. The gold core/insulator shell nanostructure may be very effectively and environmentally friendly manner | 09-19-2013 |
