Patent application number | Description | Published |
20080245273 | Hydrophobic coatings - A process for improving the hydrophobicity of architectural coating compositions and adhesive release surface compositions, the process comprising preparing at least one of said compositions using the following components: inorganic particles, at least one fatty acid or a salt thereof, a polymeric binder, and water. There is further disclosed a method for preparing an aqueous composition and a method of coating a substrate. | 10-09-2008 |
20100330279 | AQUEOUS DISPERSION, A COATED SUBJECT AND USE OF AN AQUEOUS DISPERSION - There is disclosed an aqueous dispersion comprising a) inorganic particles b) at least one fatty acid or a salt thereof, c) a polymeric binder, and d) water, wherein said aqueous dispersion is free of organic solvent. There is also disclosed use of an aqueous dispersion comprising a) inorganic particles, b) at least one fatty acid or a salt thereof, c) a polymeric binder, and d) water, as a coating on a substrate surface, wherein said surface after coating displays an equilibrium contact angle higher than 120° degrees, preferably more than 135°, most preferably more than 150° for a drop of water on the surface. There is also disclosed a method for coating a substrate comprising contacting said substrate with the aqueous dispersion. The coating allows application in one step, it is non-toxic, safe for food packaging, and environmentally friendly as well as inexpensive. | 12-30-2010 |
20110223297 | Anti-Caking Agent for Flavored Products - The present invention generally relates to the use of porous particles to control the release of a liquid, such as the release of a flavor in a food product. Liquid components, such as flavorants, are loaded into porous particles to form a composition. The pore diameter, pore tortuosity and loading parameters determine the characteristics of the composition and the release profile of the liquid. | 09-15-2011 |
20140266194 | METHOD AND APPARATUS FOR MEASURING PHYSICO-CHEMICAL PROPERTIES USING A NUCLEAR MAGNETIC RESONANCE SPECTROMETER - Methods for measuring physico-chemical properties using a nuclear magnetic resonance spectrometer are disclosed, including methods to determine an initial amount of a substance, usually a liquid, contained inside a porous material and an initial amount of the substance, usually a liquid, present outside the porous material, methods to measure the release kinetics of a substance, such as a liquid, from a porous material, and methods for performing chemical reactions and other physico-chemical operations in situ inside a nuclear magnetic resonance probe after a sample is loaded into a nuclear magnetic resonance spectrometer. The apparatuses for performing these methods are also disclosed. | 09-18-2014 |
Patent application number | Description | Published |
20090263658 | Dye-loaded particles - Amorphous particles are provided comprising a homogeneous distribution of one or more dyes encapsulated by an amorphous, siliceous encapsulating agent, wherein the amorphous particle comprises from 3% to 20% dye, by weight of the particle. | 10-22-2009 |
20090271932 | Spray-drying process for the manufacture of dye-loaded particlesa - According to a first aspect of the invention, a process is provided for the preparation of amorphous particles comprising a homogeneous distribution of one or more dyes encapsulated by an amorphous, siliceous encapsulating agent, the process comprising:
| 11-05-2009 |
20090280147 | Compositions comprising dye-loaded particles - According to the invention, a cosmetic composition is provided comprising: | 11-12-2009 |
20130120829 | HIGH SPEED SOLID STATE OPTICAL SWITCHING SYSTEM USING BICONTINUOUS STRUCTURES - A bicontinuous optical switching structure includes a predetermined number of tunnels coated with a reflective material or a very smooth. The tunnels provide pathways from one side of bicontinuous optical switching structure to another. Each tunnel represents an entry point having a multitude of entry angles. Since the angle of entry dictates the exit point, a single tunnel can represent multiple entry/exit point pairs. A three-dimensional circuit may include a hyperbolic bicontinuous structure forming a substrate; circuits formed on a first surface of the hyperbolic bicontinuous structure; and electrically conductive traces formed between the circuits. The electrically conductive traces are formed two-dimensionally on the first surface of the hyperbolic bicontinuous structure. The electrically conductive traces are effectively three-dimensional traces between the circuits. | 05-16-2013 |
20150055209 | MULTI-DIMENSIONAL ELECTRONIC CIRCUITRY FORMED UPON BICONTINUOUS STRUCTURES - A three-dimensional circuit includes a hyperbolic bicontinuous structure forming a substrate; circuits formed on a first surface of the hyperbolic bicontinuous structure; and electrically conductive traces formed between the circuits. The electrically conductive traces are formed two-dimensionally on the first surface of the hyperbolic bicontinuous structure. The electrically conductive traces are effectively three-dimensional traces between the circuits. | 02-26-2015 |
20150336082 | CATALYTIC SUBSTRATE SURFACE - There is disclosed a catalytic substrate surface where in the substrate surface comprises particles in the size range 2-500 nm, said particles comprising TiO | 11-26-2015 |
20160103383 | THREE-DIMENSIONAL CIRCUIT USING BICONTINUOUS STRUCTURES - A three-dimensional circuit includes a hyperbolic bicontinuous structure forming a substrate; circuits formed on a first surface of the hyperbolic bicontinuous structure; and electrically conductive traces formed between the circuits. The electrically conductive traces are formed two-dimensionally on the first surface of the hyperbolic bicontinuous structure. The electrically conductive traces are effectively three-dimensional traces between the circuits. | 04-14-2016 |