| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 502337000 | Of nickel | 8 |
| 20100029475 | Process to Reduce the Pre-Reduction Step for Catalysts for Nanocarbon Synthesis - A process to eliminate or reduce the pre-reduction step for catalysts for nano-carbon synthesis by first, heating a metal oxide at 5° C./min to 350-500° C. for 70-90 minutes under 10-20% hydrogen; optionally holding the temperature for 10 to 60 minutes; then initiating carbonaceous feedstock flow. | 02-04-2010 |
| 20100222214 | Production Of Chain Agglomerations Of Nano-Scale Metal Particles - A process and apparatus for producing chain agglomerations of nano-scale metal particles includes feeding at least one decomposable moiety selected from the group consisting of organometallic compounds, metal complexes, metal coordination compounds and mixtures thereof into a reactor vessel; exposing the decomposable moiety to a source of energy sufficient to decompose the moiety and produce nano-scale metal particles; and deposit or collection of chain agglomerations of nano-scale metal particles. | 09-02-2010 |
| 20140031200 | CO2 REFORMING CATALYST, METHOD OF PREPARING THE SAME, AND METHOD OF REFORMING CO2 | 01-30-2014 |
| 20140038816 | METHODS FOR PREPARING AND USING METAL AND/OR METAL OXIDE POROUS MATERIALS - Disclosed are methods for producing carbon, metal and/or metal oxide porous materials that have precisely controlled structures on the nanometer and micrometer scales. The methods involve the single or repeated infiltration of porous templates with metal salts at controlled temperatures, the controlled drying and decomposition of the metal salts under reducing conditions, and optionally the removal of the template. The carbon porous materials are involve the infiltration of a carbon precursor into a porous template, followed by polymerization and pyrolysis. These porous materials have utility in separations, catalysis, among others. | 02-06-2014 |
| 20140194282 | METAL HYDRIDE ALLOY WITH CATALYTIC PARTICLES - The performance of an AB | 07-10-2014 |
| 20140274679 | Spherical Catalyst Supports - There is presented a catalyst support that has a substantially spherical body, penetrated with a plurality of tunnels extending from a first end on a surface location of the catalyst body to another end on another surface location of the body. The support is made of alumina or like composition. The catalyst body has a total surface that includes the outer surface and surfaces within the tunnels. This total surface is adapted to receive catalyst composition. The catalyst support is adapted to being packed in a reactor and provides lower packed bed pressure drop. | 09-18-2014 |
| 20150141240 | Methods and Apparatus for Making Catalyst Films - The present disclosure provides improved films/coatings (e.g., catalyst films/coatings), and improved assemblies/methods for fabricating such films/coatings. More particularly, the present disclosure provides advantageous assemblies/methods for fabricating or synthesizing catalytic material (e.g., catalytic nanostructures) in flame and depositing the catalytic material onto substrates. The present disclosure provides improved catalytic nanostructures, and improved assemblies and methods for their manufacture. In exemplary embodiments, the present disclosure provides for methods/assemblies for synthesizing electrocatalytic nanostructures in flame and depositing such material or catalyst onto different substrates or supports. As such, the present disclosure provides advantageous assemblies that are configured and dimensioned to deposit fully dense, controlled porosity films (e.g., films of metals and oxides or core-shell particles) onto different substrates. | 05-21-2015 |
| 20160067680 | GRAPHENE PATTERNING METHOD AND PATTERNING MEMBER - A graphene patterning method for forming a graphene of predetermined pattern includes bringing a patterning member in which a catalyst metal layer of the predetermined pattern is formed into contact with a substrate having a graphene oxide film. In bringing the patterning member, the catalyst metal layer is brought into contact with the graphene oxide film. | 03-10-2016 |
