Patent application number | Description | Published |
20100024969 | PROTECTIVE COVER SHEET COMPRISING A UV-ABSORBING LAYER FOR A POLARIZER PLATE AND METHOD OF MAKING THE SAME - The invention relates to a protective cover sheet comprising a low birefringence protective polymer film and a layer that promotes adhesion to poly(vinyl alcohol), the protective cover sheet comprising at least one functional layer containing a UV-absorbing polymer. | 02-04-2010 |
20120105548 | AQUEOUS INKJET PRINTING FLUID COMPOSITIONS - An aqueous inkjet printing fluid composition for use in an inkjet printer comprising a silicon-based material which contacts the aqueous printing fluid composition, comprising in a concentration sufficient to inhibit corrosion of the silicon-based material when contacted by the aqueous printing fluid composition a soluble metal ligand complex comprising a divalent or a trivalent metal M and one or more organic ligands of Formula (I): | 05-03-2012 |
20130162722 | INKJET PRINTING METHOD AND SYSTEM - Pigment-based ink composition, and inkjet printing systems and methods employing such ink composition. The ink contains an aqueous polyurethane additive including polyurethane polymer chains including at least first segments having a polysiloxane group of Mw greater than about 10,000 pendant to the polyurethane polymer chain backbone, wherein (i) the polyurethane additive further comprises polyurethane polymer chains including second segments having a polysiloxane group of Mw less than about 6,000 either pendant to the polyurethane polymer backbone or a part of the polyurethane polymer backbone or (ii) the composition further comprises a polysiloxane polymer additive of Mw of less than about 6,000 which is not pendant to a polyurethane polymer backbone or a part of a polyurethane polymer backbone. The polyurethane additive has a Mw of at least 10,000 and a sufficient number of acid groups to provide an acid number greater than 20. | 06-27-2013 |
20130165618 | POLYMER COMPOSITION - A polymer composition containing polyurethane polymer chains including at least first segments having a polysiloxane group of weight average molecular weight greater than about 10,000 daltons pendant to the polyurethane polymer chain backbone, wherein (i) the polymer composition further comprises polyurethane polymer chains including second segments having a polysiloxane group of weight average molecular weight less than about 6,000 daltons either pendant to the polyurethane polymer backbone or a part of the polyurethane polymer backbone or (ii) the polymer composition further comprises a polysiloxane polymer additive of weight average molecular weight of less than about 6,000 daltons which is not pendant to a polyurethane polymer backbone or a part of a polyurethane polymer backbone. The polymer composition has a weight average molecular weight of at least 10,000 daltons and a sufficient number of acid groups to provide an acid number greater than 20. | 06-27-2013 |
20130237661 | INKJET INK COMPOSITION - Pigment-based ink composition, and inkjet printing systems and methods employing such ink composition. The ink contains an aqueous polyurethane additive including polyurethane polymer chains including at least first segments having a polysiloxane group of Mw greater than about 10,000 pendant to the polyurethane polymer chain backbone, wherein (i) the polyurethane additive further comprises polyurethane polymer chains including second segments having a polysiloxane group of Mw less than about 6,000 either pendant to the polyurethane polymer backbone or a part of the polyurethane polymer backbone or (ii) the composition further comprises a polysiloxane polymer additive of Mw of less than about 6,000 which is not pendant to a polyurethane polymer backbone or a part of a polyurethane polymer backbone. The polyurethane additive has a Mw of at least 10,000 and a sufficient number of acid groups to provide an acid number greater than 20. | 09-12-2013 |
20140000477 | PIGMENT-BASED INKJET INKS | 01-02-2014 |
20140205810 | METHOD OF MAKING MICRO-CHANNEL STRUCTURE FOR MICRO-WIRES - A method of making a micro-channel structure and applying a curable ink to the micro-channel structure includes providing a substrate and depositing a single layer of a curable polymer on the substrate, the single curable layer having a layer thickness. One or more micro-channels adapted to receive curable ink are embossed into the single curable layer, the micro-channels having a micro-channel thickness that is in a range of two microns to ten microns less than the layer thickness. The single curable layer is cured to form a single cured layer so that deformations of the micro-channels or the surface of the single cured layer are reduced. Curable ink is coated over the surface and micro-channels of the single cured layer. The curable ink is removed from the surface of the single cured layer and the curable ink is cured. | 07-24-2014 |
20140205811 | MICRO-CHANNEL STRUCTURE FOR MICRO-WIRES - The purpose of this invention is to retain an abhor nut to a power tool while the nut is not in use. More specifically it is intended to keep the abhor nut of an angle grinder attached to the grinder. Grinding abrasives for an angle grinder can be purchased with or without a center hub. The abrasives that do not have a center hub make use of the abhor nut to secure them to the grinder. When an abrasive with a center hub is used on the grinder the abhor nut is not needed. The nut is removed from the abhor and frequently becomes misplaced. This invention keeps the grinder and nut together while the nut is not being used. This is designed for angle grinders, but could be used for other power tools and machinery. | 07-24-2014 |
20140209355 | LARGE-CURRENT MICRO-WIRE PATTERN - A pattern of micro-wires forming an electrical conductor includes a plurality of spaced-apart first micro-wires extending in a first direction. A plurality of spaced-apart second micro-wires extends in a second direction different from the first direction. Each second micro-wire is electrically connected to at least two first micro-wires and at least one second micro-wire has a width less than at least one of the widths of the first micro-wires. | 07-31-2014 |
20140209357 | MICRO-WIRE PATTERN FOR ELECTRODE CONNECTION - Micro-wires are arranged to form an electrical conductor connected to an electrode structure. The electrical conductor includes a plurality of spaced-apart first micro-wires extending in a first direction, wherein one of the first micro-wires is a connection micro-wire. A plurality of spaced-apart second micro-wires extends in a second direction different from the first direction. At least two adjacent second micro-wires are spaced apart by a distance greater than the spacing between at least two adjacent first micro-wires. Each second micro-wire is electrically connected to at least two first micro-wires. The electrode structure includes a plurality of electrically connected third micro-wires electrically connected to the connection micro-wire at spaced-apart connection locations and at least some of the adjacent connection locations are separated by a distance greater than any of the distances separating the second micro-wires. | 07-31-2014 |
20140209358 | MICRO-WIRE ELECTRODE BUSS - An electrical conductor includes a substrate having micro-channels formed in the substrate. A plurality of spaced-apart first micro-wires is located on or in the micro-channels, the first micro-wires extending across the substrate in a first direction. A plurality of spaced-apart second micro-wires is located on or in the micro-channels, the second micro-wires extending across the substrate in a second direction different from the first direction. Each second micro-wire is electrically connected to at least two first micro-wires and at least one of the second micro-wires has a width less than the width of at least one of the first micro-wires. | 07-31-2014 |
20140209359 | CONDUCTIVE MICRO-WIRE STRUCTURE - A conductive micro-wire structure includes a substrate. A plurality of spaced-apart electrically connected micro-wires is formed on or in the substrate forming the conductive micro-wire structure. The conductive micro-wire structure has a transparency of less than 75% and greater than 0%. | 07-31-2014 |
20140216783 | MICRO-WIRE PATTERN WITH OFFSET INTERSECTIONS - A pattern of electrically connected micro-wires comprises a plurality of micro-wires arranged in an intersecting pattern forming intersection corners. A portion of a first micro-wire is coincident with a portion of a second micro-wire to form a coincident portion such that the coincident portion is non-visually resolvable by the human visual system and the coincident portion has a length greater than the sum of the widths of the first and second micro-wires or has at least one rounded intersection corner. | 08-07-2014 |
20140216784 | MAKING A CONDUCTIVE ARTICLE HAVING MICRO-CHANNELS - A method of making a conductive article includes providing a substrate having a surface with one or more micro-channels having a width of less than 12 μm. A composition is provided over the substrate and in the one or more micro-channels. The composition includes water and silver nanoparticles dispersed in the water and he weight percentage of silver in the composition is greater than 70% and the viscosity of the composition is in a range from 10 to 10,000 centipoise. The composition is removed from the surface of the substrate. The composition provided in the micro-channels is dried and converted to form one or more electrically conductive micro-wires. | 08-07-2014 |
20140216790 | CONDUCTIVE MICRO-WIRE STRUCTURE WITH OFFSET INTERSECTIONS - A conductive micro-wire structure includes a substrate and a plurality of micro-wires formed on or in the substrate in an intersecting pattern and forming intersection corners. A portion of a first micro-wire is coincident with a portion of a second micro-wire to form a coincident portion such that the coincident portion is non-visually resolvable by the human visual system and the coincident portion has a length greater than the sum of the widths of the first and second micro-wires or has one or more rounded intersection corners. | 08-07-2014 |
20140216797 | CONDUCTIVE ARTICLE HAVING MICRO-CHANNELS - A conductive article includes a substrate having a micro-channel. A metal nanoparticle composition is formed in the micro-channel. The metal nanoparticle composition includes silver nanoparticles and a polymer having both carboxylic acid and sulfonic acid groups. | 08-07-2014 |
20140217333 | METAL NANOPARTICLE COMOSITION WITH WATER SOLUBLE POLYMER - A metal nanoparticle composition includes water and a water-soluble polymer having both carboxylic acid and sulfonic acid groups. Silver nanoparticles are dispersed in the water and the weight ratio of the polymer to silver is from 0.008 to 0.1. | 08-07-2014 |
20140220259 | MAKING A CONDUCTIVE ARTICLE - A method of making a conductive article includes depositing on a substrate a metal nanoparticle composition having water, silver nanoparticles dispersed in the water and a water-soluble polymer having both carboxylic acid and sulfonic acid groups. The weight percentage of silver in the composition is greater than 10%. The metal nanoparticle composition is dried. The dried metal nanoparticle composition is converted to improve the electrical conductivity of the dried metal nanoparticle composition. | 08-07-2014 |
20140220366 | CONDUCTIVE ARTICLE HAVING SILVER NANOPARTICLES - A conductive article includes a metal nanoparticle composition formed on a substrate. The metal nanoparticle composition includes silver nanoparticles and a polymer having both carboxylic acid and sulfonic acid groups. The weight ratio of the polymer to silver is 0.0005 to 0.04. | 08-07-2014 |
20140221543 | SILVER METAL NANOPARTICLE COMPOSITION - A metal nanoparticle composition includes water and a water-soluble polymer having both carboxylic acid and sulfonic acid groups. Silver nanoparticles are dispersed in the water such that the weight percentage of silver in the composition is greater than 10%. | 08-07-2014 |
20140239504 | MULTI-LAYER MICRO-WIRE STRUCTURE - A multi-layer micro-wire structure includes a substrate having a surface. A plurality of micro-channels is formed in the substrate. A first material composition is located in a first layer only in each micro-channel and not on the substrate surface. A second material composition different from the first material composition is located in a second layer different from the first layer only in each micro-channel and not on the substrate surface. The first material composition in the first layer and the second material composition in the second layer form an electrically conductive multi-layer micro-wire in each micro-channel. | 08-28-2014 |
20140242297 | MAKING MULTI-LAYER MICRO-WIRE STRUCTURE - A method of making a multi-layer micro-wire structure includes providing a substrate having a surface and forming a plurality of micro-channels in the surface. A first material composition is located in a first layer only in each micro-channel and not on the surface. A second material composition different from the first material composition is located in a second layer different from the first layer only in each micro-channel and not on the surface. The first material composition in the first layer and the second material composition in the second layer form an electrically conductive multi-layer micro-wire in each micro-channel. | 08-28-2014 |
20140322436 | MAKING MULTI-LAYER MICRO-WIRE STRUCTURE - A method of making a multi-layer micro-wire structure includes providing a substrate having a surface and forming a plurality of micro-channels in the surface. A first material composition is located in a first layer only in each micro-channel and not on the surface. A second material composition different from the first material composition is located in a second layer different from the first layer only in each micro-channel and not on the surface. The first material composition in the first layer and the second material composition in the second layer form an electrically conductive multi-layer micro-wire in each micro-channel. | 10-30-2014 |
20150060113 | PHOTOCURABLE COMPOSITION, ARTICLE, AND METHOD OF USE - A photocurable composition includes an acid-generating compound, a multifunctional epoxy resin, and an epoxysilane oligomer represented by the following Structure (I): | 03-05-2015 |
20150064426 | METHOD OF FORMING CONDUCTIVE FILMS WITH MICRO-WIRES - A pattern of conductive micro-wires as in a conductive pattern can be prepared using photo-lithography, or imprint technology. A photocurable composition is cured to form a pattern of photocured micro-channels. A conductive composition comprising metal nano-particles is added to the photocured micro-channels and excess conductive composition outside the photocured micro-channels is removed. The conductive composition in the photocured micro-channels is then dried at a temperature of less than 60° C. The dried conductive composition in the photocured micro-channels is treated with hydrogen chloride vapor to form conductive micro-wires in the photocured micro-channels at a temperature of less than 60° C. The outer surface of the conductive micro-wires is then polished in the presence of water, to form a micro-wire pattern. | 03-05-2015 |