Patent application number | Description | Published |
20100160452 | HIGH ALCOHOL-CONTENT FOAMS - A foamable aqueous composition having alcohol and at least one water soluble polymer. | 06-24-2010 |
20110141539 | MULTIPHASE LIQUID COMPOSITION FOR LOW VOLTAGE ELECTROWETTING DEVICE - A multi-phase liquid composition comprising a conductive liquid and a non-conductive liquid, said liquids being non miscible, wherein the conductive liquid comprises more than 90% up to 99.9% by weight of a first component having a surface tension above 45 mN/m and comprising water, salt and at least one freezing point lowering agent, and from 0.01% to less than 10% by weight of a second component having a surface tension below 30 mN/m and comprising at least one first compound, wherein said at least one first compound is a non ionic surfactant. | 06-16-2011 |
20120165242 | POLYMERS FOR HIGH-SURFACTANT FORMULATIONS - A detergent composition having at least two components. The first component is from 14 to 50 wt % surfactants. The second component is from 0.05 to 4 wt % of a polymer which has polymerized residues of 40 to 65 wt % C | 06-28-2012 |
20120225555 | Stable, concentratable chemical mechanical polishing composition and methods relating thereto - A chemical mechanical polishing composition useful for chemical mechanical polishing a semiconductor wafer containing an interconnect metal is provided, comprising, as initial components: water; an azole inhibitor; an alkali metal organic surfactant; a hydrotrope; a phosphorus containing agent; a water soluble cellulose; optionally, a non-saccharide water soluble polymer; optionally, a water soluble acid compound of formula I, wherein R is selected from a hydrogen and a C | 09-06-2012 |
20120225556 | Stable, concentratable, water soluble cellulose free chemical mechanical polishing composition - A chemical mechanical polishing composition useful for chemical mechanical polishing a semiconductor wafer containing an interconnect metal is provided, comprising, as initial components: water; an azole inhibitor; an alkali metal organic surfactant; a hydrotrope; a phosphorus containing agent; optionally, a non-saccharide water soluble polymer; optionally, a water soluble acid compound of formula I, wherein R is selected from a hydrogen and a C | 09-06-2012 |
20130101531 | ETHANOL-FREE AQUEOUS PERFUME COMPOSITION - The present invention relates to an ethanol-free, non-fatty, non-sticky perfumed aqueous cosmetic microemulsion composition, including one or more fragrance materials, a solvent, an aqueous medium, and optionally, one or more surfactants; wherein the solvent in the microemulsion is a vicinal diol such as 1,2-hexanediol. | 04-25-2013 |
20130142907 | METHOD OF ENHANCING THE SHELF STABILITY OF PROBIOTICS - Described are methods of providing a shelf-stable probiotic-containing food or beverage, comprising forming a semi-permeable microsphere, said microsphere comprising a probiotic, a high molecular weight polymer, and an effective amount of bacteriostatic agent. | 06-06-2013 |
20130163203 | THERMALLY-STABLE DIELECTRIC FLUID - The disclosure is directed to a thermally-stable dielectric fluid. The dielectric fluid includes (a) an oil, (b) a substituted, hindered phenolic antioxidant having at least two substituted cresol groups being covalently bonded to each other through a methylene bridge, and (c) a substituted, diphenyl amine antioxidant having at least two substituted phenyl groups being covalently bonded to each other through an amine bridge. | 06-27-2013 |
20130274165 | ACIDIC MICROEMULSION STRIPPING FORMULATIONS - Described are stripper compositions, comprising an acidic microemulsion, said microemulsion comprising C | 10-17-2013 |
20140088219 | MOISTURE CURABLE COMPOSITIONS AND LOW SURFACE ENERGY COATING COMPOSITIONS MADE THEREFROM - A one-package moisture curable composition is provided. The composition comprises, by weight percentage based on the dry weight of the composition, from 10 to 99% at least one silane terminated polyurethane and from 1 to 90% at least one silane terminated polysiloxane; and the composition, after moisture cured, forms a surface whose water contact angle is larger than 101°. The composition is suitable for applications in coatings which afford low surface energy surface and improved mechanical performance, such as marine antifouling coating, anti-icing coating, anti-stain coating, self-cleaning coating, and non-sticky coating. | 03-27-2014 |
20140127309 | ENCAPSULATED POLAR MATERIALS AND METHODS OF PREPARATION - The present invention meets one or more of the above needs and is a composition comprising plurality of capsules wherein the capsules comprise: a core of one or more highly polar liquids; one or more polar active materials dissolved in or dispersed in one or more highly polar liquids; a mixture of one or more polymers and one of more highly polar liquids; or a mixture of one or more polymers, one or more highly polar liquids and one or more polar active materials, and a shell comprising, particles in a polymer matrix or particles; wherein the thickness of the shell is sufficient to prevent passage of the highly polar liquid or the active material through the shell or to control the rate passage of the highly polar liquid or the active material through the shell with the proviso that the one or more polymers may be located in the core, in the polymer matrix of the shell or both. | 05-08-2014 |
20140295165 | HIGH POROSITY MESOPOROUS SILICEOUS STRUCTURES - A process comprising: A) contacting one or more of sources of silicon oxide, selected from water sol-uble.silica sources arid alkali metal silicates, with an aqueous reaction medium, comprising one or more nonionic surfactants and thereby forming mesoporous structures comprising crosslinked silicon oxide units, wherein said cross-linked silicon oxide units have pores of about 1 to about 100 nanometers and wherein the aqueous reaction medium exhibits a pH of about 0 to about 4.0; B) exposing the aqueous reaction medium containing the mesoporous structures to elevated temperatures for a time sufficient to achieve the desired structure and pore size. Preferred water soluble silica sources comprise silicic acid, or po!ysilicic acids, The aqueous reaction, medium is prepared by combining one or more nonionic surfactants and water, theteby forming an aqueous, reaction medium. comprising micelles. Preferably, the aqueous reaction medium further comprises, a. micelle swelling agent capable of swelling micelles formed by the surfactant in the aqueous reaction medium. In one embodiment the process forms structures with struts comprised of crosslinked silicon oxides which connect at least some of the pore forming structures. | 10-02-2014 |