| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 106286700 | Group I metal atom (Li, Na, K, Rb, Cs, Fr, Cu, Ag, or Au) containing | 6 |
| 20100043671 | Bonding material treatment using sonification - A method and system for treating a material to enhance its properties is disclosed, particularly in the context of filler material for adhesives. The method and system includes ultrasonic treatment of the material in a solution and vacuum processing the material thereafter. The resulting material has been shown to exhibit at least one of increased thermal conductivity (˜50% gain) and reduced viscosity (˜50% reduction) as compared to non-treated material. | 02-25-2010 |
| 20110030585 | BIOREFINERY PRODUCTS IN STRUCTURAL MATERIALS - There is described a structural material comprising a substrate and a binder characterised in that the binder comprises a bio-silicate and a process for the manufacture thereof. | 02-10-2011 |
| 20110192321 | Storage-stable Silicate Solutions - Disclosed are aqueous solutions of silicates (waterglasses), comprising (a) 20 to 40% by weight of SiO | 08-11-2011 |
| 20110315052 | DEVICE FOR PRODUCING PARTICLE FILM AND METHOD FOR PRODUCING PARTICLE FILM - An apparatus ( | 12-29-2011 |
| 20130092051 | THICK FILM PASTE CONTAINING BISMUTH-TELLURIUM-OXIDE AND ITS USE IN THE MANUFACTURE OF SEMICONDUCTOR DEVICES - The present invention is directed to an electroconductive thick film paste composition comprising Ag and a Pb-free bismuth-tellurium-oxide both dispersed in an organic medium. The present invention is further directed to an electrode formed from the paste composition and a semiconductor device and, in particular, a solar cell comprising such an electrode. The present invention is also directed to the bismuth-tellurium oxide that is a component of thick film pastes. | 04-18-2013 |
| 20150096468 | METHODS OF INCREASING THE SOLUBILITY OF MATERIALS IN SUPERCRITICAL CARBON DIOXIDE - Methods of increasing the solubility of a base in supercritical carbon dioxide include forming a complex of a Lewis acid and the base, and dissolving the complex in supercritical carbon dioxide. The Lewis acid is soluble in supercritical carbon dioxide, and the base is substantially insoluble in supercritical carbon dioxide. Methods for increasing the solubility of water in supercritical carbon dioxide include dissolving an acid or a base in supercritical carbon dioxide to form a solution and dissolving water in the solution. The acid or the base is formulated to interact with water to solubilize the water in the supercritical carbon dioxide. Some compositions include supercritical carbon dioxide, a hydrolysable metallic compound, and at least one of an acid and a base. Some compositions include an alkoxide and at least one of an acid and a base. | 04-09-2015 |
