Patent application number | Description | Published |
20120070342 | LIGHT-ACTIVATED ANTIMICROBIAL ARTICLES AND METHODS OF USE - A light-activated antimicrobial article is disclosed, consisting essentially of an acridine dye covalently bonded without a linking group to a nylon material. The article may be made using electron beam processing. The article in combination with light absorbed by the acridine dye may be used to inhibit the growth of microorganisms. A photosensitive nylon material in which the acridine dye is disposed on the nylon material may also be used. Medical kits that include a light source and an article having the acridine dye are disclosed. | 03-22-2012 |
20120100039 | LIGHT-ACTIVATED ANTIMICROBIAL ARTICLE AND METHOD OF USE - Light-activated antimicrobial devices and articles are disclosed. The devices include a light source and a light-activated antimicrobial article comprising a photosensitizer and a viscoelastic material such as a pressure sensitive adhesive adapted to receive light from the light source. The viscoelastic material may be adapted to transport light by total internal reflection. The photosensitizer may comprise a dye, a metal oxide or a composition that comprises anions that oxidize or react to form a gas. Upon activation of the light source, the photosensitizer absorbs light from the light source such that antimicrobial activity is exhibited. The photosensitizer may be included in the light-activated antimicrobial article or it may be provided as a topical composition that is separate from the article. The light-activated antimicrobial articles and devices may have constructions similar to those of wound dressings. | 04-26-2012 |
20130102728 | CURABLE COMPOSITION COMPRISING DUAL REACTIVE SILANE FUNCTIONALITY - A curable composition comprises (a) at least one inorganic or organic compound comprising reactive silane functionality comprising at least one hydrosilyl moiety; (b) at least one inorganic or organic compound comprising reactive silane functionality comprising at least one hydroxysilyl moiety, the hydroxysilyl moiety optionally being generated in situ by hydrolysis of at least one hydrosilyl moiety; and (c) at least one base selected from amidines, guanidines, phosphazenes, proazaphosphatranes, and combinations thereof; with the proviso that, when component (a) is an organic polymer, then component (b) is different from component (a) and is not generated in situ by hydrolysis of component (a). | 04-25-2013 |
20140008324 | METHOD FOR MAKING PLASTIC ARTICLES HAVING AN ANTIMICROBIAL SURFACE - Herein are disclosed methods for processing plastic substrate surfaces having inorganic antimicrobial microparticles within. The methods involve providing a plastic substrate having a substrate surface, having inorganic antimicrobial microparticles within the plastic substrate, and exposing the substrate surface to a plasma. | 01-09-2014 |
20140314985 | Platinum-catalyzed Condensation-cure Silicone Systems - Condensation-cure systems comprising at least one silanol-functional polyorganosiloxane and a platinum catalyst are described. The platinum catalysts include Pt(0) complexes, a Pt(II) complexes, and a Pt(IV) complexes. Condensation-cure systems comprising two or more silanol-functional polyorganosiloxanes are described, as are systems comprising a silanol functional polyorganosiloxane in combination with hydride-functional silanes or alkoxy-functional silanes. Articles incorporating cured condensation-cure systems are also disclosed. | 10-23-2014 |
20140329928 | PHOTOACTIVATED, PRECIOUS METAL CATALYSTS IN CONDENSATION-CURE SILICONE SYSTEMS - Photoactivated, precious metal catalysts in combination with condensation-cure silicone systems are described. Curable compositions including hydroxyl-functional polyorganosiloxanes, hydride-functional silanes, and a catalyst comprising a precious metal complexed with an actinic-radiation-displaceable ligand are described. Methods of curing such compositions and the resulting cured compositions are also discussed. | 11-06-2014 |
20140356620 | DUAL CONDENSATION CURE SILICONE - Dual condensation cure silicone systems are described. Such systems include hydroxyl-functional(s), hydride-functional silane(s), platinum catalyst(s) and Ti(W) complex(es). Systems including alkoxy-functional crosslinker(s) are also described. Articles, including adhesive articles included the cured reaction product of such dual condensation cure silicone systems are also described. | 12-04-2014 |
20150104601 | ADHESIVE ARTICLE - The present invention comprises adhesive articles, adhesive compositions, and release liners. The release liners include silicone-based release formulations that can provide average and static release forces desirable for converting and handling soft adhesives, particularly adhesives of the type used in the electronics industry. In one embodiment, the silicone-based formulations include addition-cure silicone-based release formulations. | 04-16-2015 |