| Patent application number | Description | Published |
|---|
| 20080240479 | HYDROPHOBIC AND OLEOPHOBIC COATING AND METHOD FOR PREPARING THE SAME - A hydrophobic and oleophobic coating, comprising an adhesion promoting layer formed from an adhesion promoting composition and a hydrophobic layer formed from a hydrophobic layer forming composition, is disclosed. The adhesion promoting composition may comprise an adhesion promoting compound having a functional linking group and at least one of a silane functional group and/or a germanium functional group. The hydrophobic layer forming composition may comprise a hydrophobic layer forming compound having a hydrophobic aliphatic group and at least one of a silane functional group and/or a germanium functional group. A method of forming the coating is also disclosed. | 10-02-2008 |
| 20080320205 | LONG-TERM DIGITAL DATA STORAGE - Embodiments are directed to recording digital data on an optically ablatable digital storage media. In one embodiment, a device configured to ablate portions of ablatable material on an optically ablatable digital storage media receives digital data that is to be recorded on a recording layer of an optically ablatable digital storage media. The recording layer is formed on a substrate with zero or more intervening layers between the recording layer and the substrate. The recording layer includes ablatable material capable of storing digital data. The device ablates the ablatable material in the recording layer according to a sequence defined by the received digital data such that the ablated portions correspond to data points of the received digital data. | 12-25-2008 |
| 20090218276 | FUNCTIONALIZED DIAMOND PARTICLES AND METHODS FOR PREPARING THE SAME - A functionalized particle is disclosed. The functionalized particle may include a diamond-particle substrate and a coating comprising at least one polymeric compound on at least a surface portion of the diamond-particle substrate, the at least one polymeric compound having at least one amine group. Additionally, the at least one polymeric compound may be at least partially reacted. The at least one polymeric compound may also be at least partially cured. The diamond substrate may be porous. In addition, a second coating coupled to at least a surface portion of the first coating. A separation apparatus may have a stationary phase including a plurality of diamond particles and a coating comprising at least one polymeric compound on at least a surface portion of the plurality of diamond particles is also disclosed. A method for forming a functionalized particle is also disclosed. | 09-03-2009 |
| 20090218287 | Solid phase extraction apparatuses and methods - Embodiments of the present invention relate to solid phase extraction (“SPE”) apparatuses that include a sintered polycrystalline diamond (“PCD”) stationary phase and methods of performing SPE using a sintered PCD stationary phase. In one embodiment, an SPE cartridge includes a housing that comprises a proximal first end including a housing inlet, a distal second end including a housing outlet, and an interior space extending between the housing inlet and the housing outlet. An SPE stationary phase may be positioned within the interior space and includes an inlet and an outlet. The SPE stationary phase comprises a mass of sintered diamond grains including a plurality of passageways extending therethrough between the inlet and the outlet. In other embodiments, an SPE apparatus may employ a sintered PCD stationary phase in the form of a disk. In yet another embodiment of the present invention, an SPE stationary phase of an SPE apparatus may comprise un-sintered diamond particles. | 09-03-2009 |
| 20090221773 | METHODS FOR DIRECT ATTACHMENT OF POLYMERS TO DIAMOND SURFACES AND DIAMOND ARTICLES - A method for forming a polymer on a substrate is disclosed. The method may include providing a substrate having a substrate surface, the substrate surface being at least partially hydrogen-terminated and reacting the substrate surface in a solution comprising at least one radical initiator and at least one monomer to form a polymer on the substrate surface. The monomer may comprise at least one of a monofunctional monomer and a polyfunctional monomer. A stationary phase for use in separation applications such as chromatography and solid-phase extraction is also disclosed. The stationary phase may include a plurality of diamond bodies and a polymeric compound covalently bonded to at least a surface portion of the plurality of diamond particles. | 09-03-2009 |
| 20090231978 | LONG-TERM DIGITAL DATA STORAGE - Embodiments are directed to recording digital data on an optically ablatable digital storage media. In one embodiment, a device configured to ablate portions of ablatable material on an optically ablatable digital storage media receives digital data that is to be recorded on a recording layer of an optically ablatable digital storage media. The recording layer is formed on a substrate with zero or more intervening layers between the recording layer and the substrate. The recording layer includes ablatable material capable of storing digital data. The device ablates the ablatable material in the recording layer according to a sequence defined by the received digital data such that the ablated portions correspond to data points of the received digital data. | 09-17-2009 |
| 20090277839 | POROUS COMPOSITE PARTICULATE MATERIALS, METHODS OF MAKING AND USING SAME, AND RELATED APPARATUSES - In an embodiment, a porous composite particulate material includes a plurality of composite particles. Each composite particle includes an acid-base-resistant core particle at least partially surrounded by one or more layers of acid-base-resistant shell particles. The shell particles are adhered to the core particle by a polymeric layer. The shell particles and/or core particles may be made from an acid-base-resistant material that is stable in harsh chemical conditions. For example, the shell particles and/or core particles may be made from diamond, graphitic carbon, silicon carbide, boron nitride, tungsten carbide, combinations of the foregoing, or other acid-base-resistant materials. The porous composite particulate materials disclosed herein and related methods and devices may be used in separation technologies, including, but not limited to, chromatography, and solid phase extraction. | 11-12-2009 |
| 20100068444 | DATA STORAGE CONTAINING CARBON AND METAL LAYERS - Optical information media containing a metal material layer and a carbon material layer are disclosed. The layering of the metal material layer and the carbon material layer are designed to reduce or eliminate problems associated with oxidation and berm formation during writing of data to the media. | 03-18-2010 |
| 20100068445 | Optical Data Media Containing An Ultraviolet Protection Layer - Optical information media containing an ultraviolet protection layer are described. The protection layer will reduce or eliminate damage to the media's data layer and substrate. | 03-18-2010 |
| 20100068529 | FILMS CONTAINING AN INFUSED OXYGENATED AS AND METHODS FOR THEIR PREPARATION - Objects having a substrate and an oxygenated gas infused coating layer are disclosed. The coating layer provides enhanced physical durability, chemical resistance, optical transparency, and ablatability as compared to conventional coatings. | 03-18-2010 |
| 20100072137 | FUNCTIONALIZED GRAPHITIC STATIONARY PHASE AND METHODS FOR MAKING AND USING SAME - Embodiments disclosed herein include functionalized graphitic stationary phase materials and methods for making and using these materials, including the use of these materials in separation technologies such as, but not limited to, chromatography and solid phase extraction. In an embodiment, a functionalized graphitic stationary phase material may be manufactured from high surface area porous graphitic carbon and a radical forming functionalizing agent. The radical forming functionalizing agent produces an intermediate that forms a covalent bond with the surface of the porous graphitic material and imparts desired properties to the surface of the graphitic carbon. | 03-25-2010 |
| 20100089752 | FUNCTIONALIZATION OF HYDROGEN DEUTERIUM-TERMINATED DIAMOND - Deuterium and hydrogen terminated diamond surfaces are functionalized with alkyl or aryl peroxide. | 04-15-2010 |
| 20100089832 | MODIFIED DIAMOND PARTICLE SURFACES AND METHOD - A method for preparing modified diamond particles for use in chromatography where hydroxyl groups at the diamond surfaces are reacted with a reactive molecule to introduce a desired functional group at the diamond surface. | 04-15-2010 |
| 20100096587 | POLYCRYSTALLINE ARTICLES FOR REAGENT DELIVERY - A reagent delivering article comprising porous sintered polycrystalline diamond where the delivering article is capable of retaining at least one chemical reagent and releasing the chemical reagent in a fluid or has reactive sites on diamond surfaces of the article. | 04-22-2010 |
| 20100103795 | DATA STORAGE MEDIA CONTAINING INORGANIC NANOMATERIAL DATA LAYER - Optical information media having a support substrate and an inorganic nanomaterial data layer are disclosed. The data layer provides enhanced stability and optical performance as compared to conventional data layers. | 04-29-2010 |
| 20100110860 | DATA STORAGE MEDIA CONTAINING MAGNESIUM METAL LAYER - Optical information media containing a magnesium metal layer and a reactive material layer are disclosed. The magnesium metal can react directly with the reactive material layer, or with a chemical evolved from the reactive material layer after application of energy from a source such as a laser. | 05-06-2010 |
| 20100182894 | OPTICAL DATA STORAGE MEDIA CONTAINING AN ENCAPSULATED DATA LAYER - Optical information media containing encapsulated data layers are disclosed. Selective layering of materials in inner radial, middle radial, and outer radial zones allows for the faces and edges of at least the data layers to be encapsulated by other materials, resulting in increased resistance to harmful environmental agents such as oxygen and moisture. | 07-22-2010 |
| 20100195468 | OPTICAL DATA STORAGE MEDIA CONTAINING METAL AND METAL OXIDE DARK LAYER STRUCTURE - Optical data storage media containing a “dark” layer structure are disclosed. Layered metals and metal oxides provide a dark background that enhances detection of changes in the data layer of the storage media. Combinations such as chromium metal and chromium oxide, and molybdenum metal and molybdenum oxide are offered as examples of suitable materials. | 08-05-2010 |
| 20100213131 | POROUS COMPOSITE PARTICULATE MATERIALS, METHODS OF MAKING AND USING SAME, AND RELATED APPARATUSES - In an embodiment, a porous composite particulate material includes a plurality of composite particles. Each composite particle includes an acid-base-resistant core particle at least partially surrounded by one or more layers of acid-base-resistant shell particles. The shell particles are adhered to the core particle by a polymeric layer. The shell particles and/or core particles may be made from an acid-base-resistant material that is stable in harsh chemical conditions. For example, the shell particles and/or core particles may be made from diamond, graphitic carbon, silicon carbide, boron nitride, tungsten carbide, niobium carbide, zirconia, noble metals, acid-base stable highly cross-linked polymers, acid-base stable at least partially cross-linked polymers, titania, alumina, thoria combinations of the foregoing, or other acid-base-resistant materials. The porous composite particulate materials disclosed herein and related methods and devices may be used in separation technologies, including, but not limited to, chromatography and solid phase extraction. | 08-26-2010 |
| 20100221481 | OPTICAL DATA STORAGE MEDIA CONTAINING SUBSTANTIALLY INERT LOW MELTING TEMPERATURE DATA LAYER - Optical information media that contain a data layer material that is substantially inert to oxidation and has a defined melting point range are disclosed. The inertness to oxidation and melting point range make the media particularly attractive for long-term information storage. | 09-02-2010 |
| 20100234560 | DIAMOND COATING BY LIVING POLYMERIZATION - A method for coating a diamond where an initiation site is provided on the diamond surface or initiation of a living polymerization on the site and the initiation site is reacted with a monomer having a site the reacts with and bonds to the initiation site to form an chemically attached chain with a new initiation site on the chain for further reaction with a monomer. An article with a coating upon a diamond surface, the coating the reaction product of a living polymerization reaction with initiation site on the diamond surface. | 09-16-2010 |
| 20110000852 | THIN LAYER CHROMATOGRAPHY PLATES AND RELATED METHODS - In an embodiment, a method for manufacturing a thin layer chromatography (“TLC”) plate is disclosed. The method includes forming a layer of elongated nanostructures (e.g., carbon nanotubes), and at least partially coating the elongated nanostructures with a coating. The coating includes a stationary phase and/or precursor of a stationary phase for use in chromatography. Embodiments for TLC plates and related methods are also disclosed. | 01-06-2011 |
| 20110089096 | THIN LAYER CHROMATOGRAPHY PLATES AND RELATED METHODS - In an embodiment, a method for manufacturing a thin layer chromatography (“TLC”) plate is disclosed. The method includes forming a layer of elongated nanostructures (e.g., carbon nanotubes), and at least partially coating the elongated nanostructures with a coating. The coating includes a stationary phase and/or precursor of a stationary phase for use in chromatography. At least a portion of the elongated nanostructures may be removed after being coated. Embodiments for TLC plates and related methods are also disclosed. | 04-21-2011 |
| 20110151263 | MULTILAYER GROWTH BY GAS PHASE DEPOSITION - A multilayer system where intermediate well bonded and cross-linked layers provide attachment for a finishing layer with desired reactive sites. | 06-23-2011 |
| 20110158076 | DIGITAL INFORMATION MEDIA HAVING ADHESION PROMOTION LAYER ON A SUBSTRATE - Disclosed is a digital information media having an adhesion promotion layer supported on a dummy (L1) substrate that enables secure bonding of the L1 layer, directly or indirectly, to the rest of the stack of layers in the digital information media. Certain materials including metals, metal alloys, or metalloids enhance adhesion between the adhesive layer and the L1. By applying an adhesion promotion layer of such materials on an inner surface of the L1, the bond between the adhesive and the adhesion promotion layer improves bonding and reduces a tendency for the L1 to delaminate from the rest of the stack. The tendency for breakage of the media at the juncture between the adhesion promotion layer and the adhesive is reduced, and incursion of moisture or oxygen through the interface between the adhesion promotion layer and the adhesive is inhibited. | 06-30-2011 |
