UNIDYM, INC. Patent applications |
Patent application number | Title | Published |
20150334805 | ELECTROLUMINESCENT DEVICES HAVING NANOSTRUCTURE-FILM ELECTRODE(S) - An electroluminescent (EL) device is described, comprising an EL material, an electrode and nanostructures. The nanostructures may form an interconnected network, and may be employed in the EL material and/or in the electrode. A second electrode is also described, wherein an electric field formed between the two electrodes excites phosphors in the EL material to produce light. | 11-19-2015 |
20100096004 | SOLAR CELL WITH NANOSTRUCTURE ELECTRODE(S) - A solar cell comprising at least one nanostructure-film electrode is discussed. The solar cell may further comprise a different conducting material, such as a conducting polymer, to fill pores in the nanostructure-film. Additionally or alternatively, the solar cell may comprise an electrode grid superimposed on the nanostructure-film. Likewise, the solar cell may have a single or multiple active layer(s), wherein nanostructure-film(s) may form at least semi-transparent anode(s) and/or cathode(s) through use of buffer layer(s). | 04-22-2010 |
20090294966 | CARBON NANOTUBES AS INTERCONNECTS IN INTEGRATED CIRCUITS AND METHOD OF FABRICATION - A method of making an electrode, such as an interconnect for a semiconductor device, includes forming aligned carbon nanotubes using dielectrophoresis. | 12-03-2009 |
20090085894 | MULTIPOINT NANOSTRUCTURE-FILM TOUCH SCREEN - A touch screen comprising at least one nanostructure film and capable of detecting multiple touches occurring at the same time at distinct locations in a plane of the touch screen is described. The touch screen may comprise a sensing layer, a driving layer and/or a shielding layer. At least one of these layers may comprise a nanostructure film, and at least two of these layers may be formed on a common substrate. | 04-02-2009 |
20090050601 | INERT GAS ETCHING - A method of patterning a nanostructure film using a plasma is described. The nanostructure film may substantially comprise carbon and/or carbon nanotubes. The plasma may comprise an inert gas. The plasma may be applied to the nanostructure film at close to atmospheric pressure and room temperature. | 02-26-2009 |
20090017211 | GRAPHENE FILM AS TRANSPARENT AND ELECTRICALLY CONDUCTING MATERIAL - A transparent and conductive film comprising at least one network of graphene flakes is described herein. This film may further comprise an interpenetrating network of other nanostructures, a polymer and/or a functionalization agent(s). A method of fabricating the above device is also described, and may comprise depositing graphene flakes in solution and evaporating solvent therefrom. | 01-15-2009 |
20080317982 | COMPLIANT AND NONPLANAR NANOSTRUCTURE FILMS - A coated substrate comprising a nanostructure film formed on a non-planar substrate is described. The coated substrate may further be compliant, optically transparent and/or electrically conductive. Fabrication methods thereof are also described. | 12-25-2008 |
20080295456 | BUSINESS METHODS FOR DISTRIBUTION OF TRANSPARENT CONDUCTIVE CARBON FILMS - A system and business method for maximizing the fabrication and distribution efficiency of transparent conductive carbon films, while at the same time preserving the desirable mechanical, electrical and optical properties of the films, are discussed. This system and method preferably employ a roll-to-roll fabrication process, environmental controls, testing of pertinent optoelectronic properties and packaging. | 12-04-2008 |