Patent application number | Description | Published |
20140027740 | LUMINAIRE AND INDIVIDUALLY REPLACEABLE COMPONENTS - Luminaires and luminaire components are provided that may include emissive, index-matching, and/or outcoupling components that are replaceable separately from other components of the luminaire. In some embodiments, an index-matching component may include a gel sheet or pad that can be disposed between an emissive component and an outcoupling component. The index-matching component may be replaceable separately from the emissive and outcoupling components. In some embodiments, an emissive component including an OLED panel and/or an index-matching component may be replaceable separately from other components of the luminaire. | 01-30-2014 |
20140116331 | ORGANIC VAPOR JET PRINT HEAD WITH SOLDER JOINT - A solder joint may be used to attach components of an organic vapor jet printing device together with a fluid-tight seal that is capable of performance at high temperatures. The solder joint includes one or more metals that are deposited over opposing component surfaces, such as an inlet side of a nozzle plate and/or an outlet side of a mounting plate. The components are pressed together to form the solder joint. Two or more of the deposited metals may be capable of together forming a eutectic alloy, and the solder joint may be formed by heating the deposited metals to a temperature above the melting point of the eutectic alloy. A diffusion barrier layer and an adhesion layer may be included between the solder joint and each of the components. | 05-01-2014 |
20140127845 | OVJP PATTERNING OF ELECTRONIC DEVICES - A method for forming an electronic device such as a passive color OLED display. Bottom electrodes are patterned onto a substrate in rows. Raised posts formed by photoresist are patterned into columns oriented orthogonally to the bottom row electrodes. One or more organic layers, such as R, G, B organic emissive layers are patterned over the raised posts and bottom electrodes using organic vapor jet printing (OVJP). An upper electrode layer is applied over the entire device and forms electrically isolated columnar electrodes due to discontinuities in the upper electrode layer created by the raised columnar posts. This permits patterning of the upper electrodes over the organic layers without using photolithography. A device formed by this method is also described. | 05-08-2014 |
20140138629 | OPTOELECTRONIC DEVICE FORMED WITH CONTROLLED VAPOR FLOW - An organic optoelectronic device (OED) includes a plurality of OED cells separated by a vapor flow barrier that extends away from a substrate surface. The vapor flow barrier partially defines an OED cell area and helps prevent stray organic material deflected away from the substrate surface during deposition from being deposited outside the cell area. An organic vapor jet (OVJ) print head can be used to deposit organic material along the vapor flow barrier and may include one or more features configured to capture some of the stray organic material. A method that includes use of vapor flow barriers and/or capturing stray organic material can facilitate high-density printing of OED cells such as OLEDs with sharply defined edges and without cross-contamination among adjacent cells. | 05-22-2014 |
20140235012 | DEPOSITION OF PATTERNED ORGANIC THIN FILMS - Embodiments disclosed herein provide devices having a nozzle die with one or more nozzles, each of which has one or more integrated skimmers. The use of an integrated nozzle/skimmer structure allows for higher-resolution printing in OVJP-type deposition techniques without requiring the use of a shadow mask by allowing for a relatively narrow organic material beam that can be placed at relatively high distances away from the substrate. | 08-21-2014 |
20140361270 | MICROLENS ARRAY ARCHITECTURES FOR ENHANCED LIGHT OUTCOUPLING FROM AN OLED ARRAY - Novel microlens array architectures for enhanced light outcoupling from light emission are provided. Organic light emitting devices (OLEDs) that include an outcoupling layer including these novel microlens array architectures and method for fabricating such OLEDs are provided. These devices may be used to provide OLEDs with optimized light extraction. | 12-11-2014 |
20150090775 | ORGANIC VAPOR JET PRINT HEAD WITH SOLDER JOINT - A solder joint may be used to attach components of an organic vapor jet printing device together with a fluid-tight seal that is capable of performance at high temperatures. The solder joint includes one or more metals that are deposited over opposing component surfaces, such as an inlet side of a nozzle plate and/or an outlet side of a mounting plate. The components are pressed together to form the solder joint. Two or more of the deposited metals may be capable of together forming a eutectic alloy, and the solder joint may be formed by heating the deposited metals to a temperature above the melting point of the eutectic alloy. A diffusion barrier layer and an adhesion layer may be included between the solder joint and each of the components. | 04-02-2015 |
20150140832 | HIGH VACUUM OLED DEPOSITION SOURCE AND SYSTEM - Sources, devices, and techniques for deposition of organic layers, such as for use in an OLED, are provided. A vaporizer may vaporize a material between cooled side walls and toward a mask having an adjustable mask opening. The mask opening may be adjusted to control the pattern of deposition of the material on a substrate, such as to correct for material buildup that occurs during deposition. Material may be collected from the cooled side walls for reuse. | 05-21-2015 |