| Patent application number | Description | Published |
|---|
| 20090004436 | METHOD FOR FORMING CHANNEL PATTERNS WITH CHROMONIC MATERIALS - A method for forming channels within a dried chromonic layer is described. A coating composition is applied to a substrate, dried, and exposed to a hydrophilic organic solvent forming a channel pattern having a first set of channels, and a second set of channels that are substantially perpendicular to the first set of channels. A deposition material may be disposed within the channels to form a nanostructured pattern. An article having a channel pattern is further described. | 01-01-2009 |
| 20100108494 | MICROPOROUS ARTICLE HAVING METALLIC NANOPARTICLE COATING - A metallic nanoparticle coated microporous substrate, the process for preparing the same and uses thereof are described. | 05-06-2010 |
| 20100112199 | MICROPOROUS ARTICLE HAVING METALLIC NANOPARTICLE COATING - A metallic nanoparticle coated microporous substrate, the process for preparing the same and uses thereof are described. | 05-06-2010 |
| 20100297526 | CATALYST LAYERS TO ENHANCE UNIFORMITY OF CURRENT DENSITY IN MEMBRANE ELECTRODE ASSEMBLIES - Components that include catalyst layers used in membrane electrode assemblies (MEAs), and methods of making such components are described. The catalyst layers yield more uniform current distributions across the active area of the MEA during operation. The catalyst layers may have a uniform catalyst activity profile of a less active catalyst to achieve more uniform current density over the MEA active area. The catalyst layers may have a variable activity profile, such as an activity profile with a varying slope, to compensate for the inherent nonlinearities of catalyst utilization during operation of an electrochemical fuel cell. Desired variable catalyst activity profiles may be achieved, for example, by varying the catalyst loading across the MEA from inlet to outlet ports or by varying the surface area of the catalyst loading or by varying the surface area of the catalyst support elements. | 11-25-2010 |
| Patent application number | Description | Published |
|---|
| 20080230777 | METHOD OF MAKING AN ORGANIC LIGHT EMITTING DEVICE - The invention relates to a method of making an organic electronic device and articles. | 09-25-2008 |
| 20090130778 | Water-Soluble Polymeric Substrate Having Metallic Nanoparticle Coating - A metallic nanoparticle coated water-soluble polymeric substrate and the process for preparing and using the same is described. | 05-21-2009 |
| 20090316060 | CONDUCTING FILM OR ELECTRODE WITH IMPROVED OPTICAL AND ELECTRICAL PERFORMANCE - A conducting film or device electrode includes a substrate and two transparent or semitransparent conductive layers separated by a transparent or semitransparent intervening layer. The intervening layer includes electrically conductive pathways between the first and second conductive layers to help reduce interfacial reflections occurring between particular layers in devices incorporating the conducting film or electrode. | 12-24-2009 |
| 20100119730 | APPARATUS AND METHOD FOR FORMING A THIN FILM ELECTRONIC DEVICE ON A THERMOFORMED POLYMERIC SUBSTRATE - An apparatus and method for fabricating electronic devices on a polymeric substrate provide for positionally constraining a polymer substrate on a platen, and heating the constrained polymer substrate to at least a glass transition temperature of the polymer substrate. A heat processable ink is applied to the constrained polymer substrate to form at least a portion of a layer of an electronic device thereon. | 05-13-2010 |
| 20100252176 | METHOD FOR FORMING GATE STRUCTURES - A process for forming gate structures is described. A web comprises a substrate, a plurality of conductive elements disposed on the substrate, and a conductive anodization bus. The web is moved through an anodization station to form a plurality of gate structures comprising a plurality of gate dielectrics adjacent to a plurality of gate electrodes. A process for forming electronic devices further providing a semiconductor, a source electrode, and a drain electrode is described. | 10-07-2010 |
| 20110139516 | TOUCH SENSITIVE DEVICE WITH MULTILAYER ELECTRODE HAVING IMPROVED OPTICAL AND ELECTRICAL PERFORMANCE - A touch sensor including one or more multilayer electrodes, said electrodes including at least two transparent or semitransparent conductive layers separated by a transparent or semitransparent intervening layer. The intervening layer includes electrically conductive pathways between the first and second conductive layers to help reduce interfacial reflections occurring between particular layers in devices incorporating the conducting film or electrode. | 06-16-2011 |
