Patent application number | Description | Published |
20120030884 | SUPERCRITICAL NOBLE GASES AND COLORING METHODS - A coloring system can include a noble gas, colorant, and one or more vessels configured to convert the noble gas into a supercritical fluid, and/or receive and color an article of manufacture with the noble gas in the supercritical fluid state. A coloring process can include converting a noble gas into a supercritical fluid state; dissolving, suspending, or absorbing a colorant into the supercritical noble gas, and coloring an article of manufacture with the noble gas in the supercritical fluid state. A coloring composition can include a noble gas in a supercritical fluid state, and a colorant located in the supercritical noble gas. | 02-09-2012 |
20120031431 | SUPERCRITICAL NOBLE GASES AND CLEANING METHODS - A cleaning system can include a noble gas, and one or more vessels configured to convert the noble gas into a supercritical fluid, and/or receive and clean an article of manufacture with the noble gas in the supercritical fluid state. A cleaning process can include converting a noble gas into a supercritical fluid state; and cleaning an article of manufacture with the noble gas in the supercritical fluid state so as to remove one or more contaminates from the article of manufacture. A cleaning composition can include a noble gas in a supercritical fluid state, and a textile article of manufacture having one or more contaminates located in the supercritical noble gas. | 02-09-2012 |
20120070593 | PARTIALLY HYDROGENATED BISPHENOL-A-BASED POLYMERS AS SUBSTITUTES FOR BISPHENOL-A-BASED POLYMERS - Partially hydrogenated bisphenol-A based polymers. Coating compositions for food or beverage containers and medical devices, including a partially hydrogenated bisphenol-A based polymer. Food or beverage containers and medical devices coated with partially hydrogenated bisphenol-A based polymers. Food or beverage containers and medical devices made from partially hydrogenated bisphenol-A based polymers. | 03-22-2012 |
20120070594 | HYDROGENATED BISPHENOL-A-BASED POLYMERS AS SUBSTITUTES FOR BISPHENOL-A-BASED POLYMERS - Compositions (including coatings) for food or beverage containers and medical devices, comprising a hydrogenated bisphenol-A-based polymer. Food or beverage containers and medical devices coated with hydrogenated bisphenol-A-based polymers. Food or beverage containers and medical devices made from hydrogenated bisphenol-A-based polymers. | 03-22-2012 |
20120159720 | SUPERCRITICAL NOBLE GASES AND COLORING METHODS - Coloring compositions including, for example, a supercritical fluid comprising a noble gas in a supercritical state and a colorant within the supercritical fluid are disclosed. For example, the noble gas may be at least one of helium, argon, krypton, neon, xenon and radon. Methods of producing such compositions and methods of coloring an article with such composition are also disclosed. | 06-28-2012 |
20120264214 | BIOCOMPATIBLE POLYMERIZABLE ACRYLATE PRODUCTS AND METHODS - Sugar-acrylic monomers are synthesized to have a carbohydrate moiety linked to an acrylate group. The sugar-acrylic monomers may be polymerized to form polymers, adhesives, hydrogels, and the like. The sugar-acrylic monomers and polymers may be used in tissue engineering, adhesives and sealers, wound healing, and the like. | 10-18-2012 |
20120283359 | BISPHENOL-A REPLACEMENT MATERIALS - Polymers may include a plurality of tetradecahydroanthracene moieties. Such polymers may be used to make food or beverage containers or medical devices. Food or beverage containers or medical devices may be coated with polymers including a plurality of tetradecahydroanthracene moieties. | 11-08-2012 |
20120288911 | BIOREACTOR FOR ENGINEERED TISSUE - A system for generating a tissue construct includes a mixing chamber, a piston chamber, a reaction chamber, and a pump. The mixing chamber is configured to receive a hydrogel solution and a cell suspension solution. The piston chamber includes a first piston and is configured to receive a mixture of the hydrogel solution and the cell suspension solution from the mixing chamber. The first piston is configured to push the mixture through one or more capillaries into the reaction chamber. The reaction is configured to receive the mixture and a cross-linking initiator. The pump is configured to move the mixture through the reaction chamber such that the mixture and the cross-linking initiator combine to form an encapsulated cell material. | 11-15-2012 |
20120288937 | BIOREACTOR FOR CONTROLLING CELLULAR GROWTH - A system includes a first chamber configured to receive a hydrogel and a scaffold comprising a cell, wherein the hydrogel is in fluid communication with the scaffold, and wherein the hydrogel includes a plurality of unidirectional pores. The system also includes a second chamber configured to receive a first fluid and a second fluid, wherein the second chamber includes a wall that separates the first fluid from the second fluid. The system further includes a porous membrane configured to separate the first chamber from the second chamber. The wall is configured to move along the porous membrane as cellular extensions are projected into at least a portion of the plurality of unidirectional pores of the hydrogel. | 11-15-2012 |
20130004785 | PARABEN DERIVATIVES FOR PRESERVING CELLULOSIC MATERIALS - A method of preserving a cellulosic material are provided. The method includes contacting the cellulosic material with a paraben-containing monomer and polymerizing the paraben-containing monomer. Articles including a cellulosic material and at least one polymer which includes paraben moieties are also provided. | 01-03-2013 |
20130056205 | SYSTEMS, MATERIALS, AND METHODS FOR RECOVERING MATERIAL FROM BEDROCK USING SUPERCRITICAL ARGON COMPOSITIONS - A material to be used for hydraulic fracturing, comprising argon maintained as a supercritical fluid, and a proppant. The material may also include any one of a variety of gels, foaming agents, and/or gases. The material may be used in a system to recover resources from bedrock, the system comprising the fracturing material, at least one mixer, a pump to inject the material into a bore well, and a recovery unit to recover the resource from the well. The material and system may be used in a variety of methods for extracting resources from bedrock, the method including mixing the proppant with the supercritical argon to form a mixture, pumping the mixture into a bore well, and recovering the resource from the bore well. Additionally, the material and bore well may comprise a structure used in the extraction of resources from bedrock. | 03-07-2013 |
20130142763 | CROSSLINKED CELLULOSIC POLYMERS - Crosslinked cellulosic polymers, crosslinked cellulosic polymer hydro-gels, and methods for their synthesis and use are described. The crosslinked cellulosic polymers include one or more cellulosic polymers and a one or more crosslinkers that crosslinks the one or more cellulosic polymers together. The crosslinking can be facilitated with a crosslinking agent capable of linking with a monomer the cellulosic polymer and crosslinking the cellulosic polymer intermoleculerly and/or intramolecularly. Crosslinked cellulosic polymers are well adapted for use in cell and tissue growth in vivo and in vitro. The crosslinked cellulose polymers may also be used as wound care devices. | 06-06-2013 |
20130252009 | DIOXABORINANES AND USES THEREOF - A dioxaborinane compound, or salt thereof, where boron has two oxy substituents, each independently substituted with H, alkyl, alkenyl, aryl, —C(O)R | 09-26-2013 |
20130256015 | CELLULOSIC PRINTED CIRCUIT BOARD MATERIALS HAVING BORONATE MOIETIES - A printed circuit board is provided here, the printed circuit board including a cellulosic polymer, where the cellulosic polymer contains a boronate moiety. | 10-03-2013 |
20130261274 | DIOXABORINANE CO-POLYMERS AND USES THEREOF - A co-polymer includes a polymerization product of: a first monomer: and a second monomer represented by (R | 10-03-2013 |
20130337281 | DIOXABORINANES AND USES THEREOF - A dioxaborinane compound, or salt thereof, where boron has two oxy substituents, each independently substituted with H, alkyl, alkenyl, aryl, —C(O)R | 12-19-2013 |
20130345105 | CLEANING COMPOSITIONS - A cleaning system can include a noble gas, and one or more vessels configured to convert the noble gas into a supercritical fluid, and/or receive and clean an article of manufacture with the noble gas in the supercritical fluid state. A cleaning process can include converting a noble gas into a supercritical fluid state; and cleaning an article of manufacture with the noble gas in the supercritical fluid state so as to remove one or more contaminants from the article of manufacture. A cleaning composition can include a noble gas in a supercritical fluid state, and a textile article of manufacture having one or more contaminants located in the supercritical noble gas. | 12-26-2013 |
20140030534 | CELLULOSIC MATERIAL PRESERVATIVES CONTAINING DISACCHARIDE - Articles containing a cellulosic material and at least one polymer containing at least one antimicrobial disaccharide are described, as well as methods for their preparation and use. | 01-30-2014 |
20140037704 | ANTIFOULING COMPOSITIONS INCLUDING DIOXABORINANES AND USES THEREOF - An antifouling composition including a compound having a dioxaborinane moiety is provided. Methods of killing, or deterring the growth of, one or more organisms on an article include coating or impregnating the article with the antifouling composition, where the organisms live in fresh water or salt water. | 02-06-2014 |
20140039214 | ALKYL ETHER COMPOSITIONS AND METHODS OF USE - A polymer includes a linker represented by Formula I ([OR | 02-06-2014 |
20140057053 | GELATIN ALKYD PEPTIDES AND USES THEREOF - Polypeptides are provided, where the polypeptides include one or more groups of formula —R | 02-27-2014 |
20140128657 | PROCESSING OF ELECTRONIC WASTE WITH SUPERCRITICAL NOBLE GASES - A method of processing a material, the method including infiltrating a first disintegration fluid into a material at a first pressure, the first disintegration fluid including at least one supercritical noble gas, the first pressure being higher than a critical pressure of the first disintegration fluid, and disintegrating the material into particles by depressurizing the material from the first pressure to a second pressure, the second pressure being lower than the critical pressure of the first disintegration fluid. | 05-08-2014 |
20140155563 | HIGH PERFORMANCE ACRYLAMIDE ADHESIVES - Disclosed are derivatives of (tetrahydropyranyl)methyl acrylamide and polymers derived therefrom, as well as methods of making such compounds and polymers. Adhesives, coatings, and plastics which include such polymers are also described. | 06-05-2014 |
20140178344 | ACRYLAMIDE HYDROGELS FOR TISSUE ENGINEERING - Disclosed are acrylamide hydrogels prepared from derivatives of (tetrahydropyranyl)methyl- and (tetrahydrofuranyl)methyl-acrylamide, methods of making the same, and methods of wound healing or tissue generation with acrylamide hydrogels. | 06-26-2014 |
20140193587 | METHODS OF TREATING WOOD WITH PRESERVATIVES USING SUPERCRITICAL NOBLE GASES - Disclosed are methods and compositions pertaining to the preservation of wood using one or more noble gasses in conjunction with wood preservatives. | 07-10-2014 |
20140288332 | ALKYL ETHER COMPOSITIONS AND METHODS OF USE - A polymer includes a linker represented by Formula I ([OR | 09-25-2014 |
20150011747 | METHODS FOR MAKING BIOCOMPATIBLE POLYMERIZABLE ACRYLATE PRODUCTS - Sugar-acrylic monomers are synthesized to have a carbohydrate moiety linked to an acrylate group. The sugar-acrylic monomers may be polymerized to form polymers, adhesives, hydrogels, and the like. The sugar-acrylic monomers and polymers may be used in tissue engineering, adhesives and sealers, wound healing, and the like. | 01-08-2015 |