Patent application number | Description | Published |
20100220074 | TOUCHSCREEN WITH CARBON NANOTUBE CONDUCTIVE LAYERS - The present invention is directed to a touchscreen comprising touch side electrode and device side electrode wherein each electrode comprises an insulating substrate and an exposed electrically conductive layer, wherein said exposed electrically conductive layers are adjacent and separated by dielectric spacers, and wherein only one of the exposed electrically conductive layers comprises carbon nanotubes. | 09-02-2010 |
20110089609 | LASER-ABLATABLE ELEMENTS AND METHODS OF USE - A laser-ablatable element for direct laser engraving has a laser-ablatable, relief-forming layer that has a relief-image forming surface and a bottom surface. This relief-forming layer includes a laser-ablatable polymeric binder and an infrared radiation absorbing compound that is present at a concentration profile such that its concentration is greater near the bottom surface than the image-forming surface. This arrangement of the infrared radiation absorbing compound provides improved ablation efficiency, particularly when laser exposure is carried out adiabatically. | 04-21-2011 |
20120094018 | METHOD OF MAKING LASER-ABLATABLE ELEMENTS - A method is used to make a laser-ablatable element for direct laser engraving that has a laser-ablatable, relief-forming layer that has a relief-image forming surface and a bottom surface. The relief-forming layer can be prepared by applying multiple formulations. Each formulation comprises a coating solvent, a laser-ablatable polymeric binder, and an infrared radiation absorbing compound. The infrared radiation absorbing compound concentration in the resulting sub-layers is different in each adjacent pair of sub-layers so that the concentration is always greater in each pair sub-layer that is closer to the substrate, and the concentration is progressively greater in the sub-layers as they are closer to the substrate after the coating solvent is removed, wherein the multiple sub-layers provide a relief-forming layer so that the sub-layer farthest from the substrate provides a relief-image forming surface. | 04-19-2012 |
20130269557 | METHOD FOR DIRECT ENGRAVING OF FLEXOGRAPHIC PRINTING MEMBERS - A method for engraving a flexographic relief member includes providing a laser engraveable flexographic member; providing a thin engraveable control layer on top of the laser and engraveable flexographic member; the flexographic relief member comprises the laser engraveable flexographic member and the thin engraveable control layer; the engraveable control layer has an engraving sensitivity lower than the flexographic member; and scanning a radiation beam on the flexographic relief member to engrave the flexographic relief member. | 10-17-2013 |
20130270236 | SYSTEM FOR DIRECT ENGRAVING OF FLEXOGRAPHIC PRINTING MEMBERS - A system for engraving a flexographic relief member includes a laser scanning apparatus providing a focused radiation beam. The flexographic relief member includes a laser engravable flexographic member; a thing engravable control layer on top of the flexographic member; and wherein the engravable control layer has an engraving sensitivity lower than the flexographic member. | 10-17-2013 |
20140087077 | DIRECT LASER-ENGRAVEABLE PATTERNABLE ELEMENTS AND USES - A laser-engravable patternable element can be used to provide a relief image for various types of printing including flexographic printing. This laser-engraveable patternable element has a one laser-engravable layer that comprises a thermoplastic elastomeric interpolymer alloy that comprises a non-crosslinked halogenated polymer, a partially crosslinked polyolefin, and a polyester. A relief image can be obtained by directly laser-engraving the noted element under suitable conditions. | 03-27-2014 |
20140087139 | METHOD FOR PROVIDING PATTERNS OF FUNCTIONAL MATERIALS - A method is used to provide a pattern of a functional material for example on a receiving element. To provide this pattern, a laser-engraveable patternable element is imagewise exposed with laser-engraving radiation. This element has a laser-engraveable layer comprising a thermoplastic elastomeric interpolymer alloy. This interpolymer alloy comprises a non-crosslinked halogenated polymer, a partially crosslinked polyolefin, and a polyester. A laser-engraved patterned element is formed that has a relief image in the laser-engraveable layer, and this relief image can be contacted with a suitable functional material that is then transferred to the receiving element to provide the desired pattern. | 03-27-2014 |
20140242525 | PATTERNING OF TRANSPARENT CONDUCTIVE COATINGS - A method of patterning a conductive polymer includes providing a conductive polymer layer coated over a first support followed by pattern-wise transferring a layer containing polyvinyl acetal from a second support onto the conductive polymer to form a mask with at least one opening. The masked conductive polymer is subjected to treatment through the opening that changes the conductivity of the conductive polymer by at least one order of magnitude in areas not covered by the mask. | 08-28-2014 |