Patent application number | Description | Published |
20080286487 | PROCESS FOR MAKING CONTAINED LAYERS - There is provided a process for forming a contained second layer over a first layer, including the steps:
| 11-20-2008 |
20080309221 | Containment Structure For an Electronic Device - In one embodiment, a containment structure ( | 12-18-2008 |
20090142556 | PROCESS FOR FORMING AN ORGANIC ELECTRONIC DEVICE INCLUDING AN ORGANIC DEVICE LAYER - A process of forming an electronic device is disclosed. An organic device layer is formed. The organic device layer includes a charge-selective material and a radiation sensitizer and has a first electrical conductivity. First portions of the organic device layer are selectively exposed to radiation. The electrical conductivity of the first portions of the organic device layer is modified. | 06-04-2009 |
20090155723 | PROCESS FOR FORMING AN ORGANIC ELECTRONIC DEVICE INCLUDING AN ORGANIC DEVICE LAYER - A process of forming an electronic device is disclosed. An organic device layer is formed. The organic device layer includes a charge-selective material and a radiation sensitizer and has a first electrical conductivity and a first surface energy. First portions of the organic device layer are selectively exposed to radiation. The electrical conductivity and surface energy of the first portions of the organic device layer are modified. | 06-18-2009 |
20100213454 | PROCESS AND MATERIALS FOR MAKING CONTAINED LAYERS AND DEVICES MADE WITH SAME - There is provided a process for forming a contained second layer over a first layer. The process comprises forming the first layer having a first surface energy and then treating the first layer with a photocurable surface-active composition which is a fluorinated ester or fluorinated imide of an α,β-unsaturated polyacid; exposing the photocurable surface-active composition patternwise with radiation resulting in exposed areas and unexposed areas; developing the photocurable surface-active composition to remove the unexposed areas resulting in a first layer having untreated portions in the unexposed areas and treated portions in the exposed areas, where the treated portions have a second surface energy that is lower than the first surface energy; and forming the second layer on the untreated portions of the first layer. There is also provided an organic electronic device made by the process. | 08-26-2010 |
20110086164 | APPARATUS AND METHOD FOR SOLUTION COATING THIN LAYERS - An apparatus and method for solution coating layers onto a substrate of an electronic device. A slot die coater in conjunction with a vacuum assist device is used in priming, coating and cleaning stations to produce thin layers having performance advantages over competing technologies. | 04-14-2011 |
20110092076 | APPARATUS AND METHOD OF VAPOR COATING IN AN ELECTRONIC DEVICE - An apparatus and method for vapor phase deposition of a reactive surface area (RSA) material onto a substrate of an electronic device. The vapor phase deposition is conducted at ambient pressures in air, and provides capture of residual vapor to minimize environmental release of RSA and other constituents used in the processing. | 04-21-2011 |
20110183268 | PROCESS FOR MAKING CONTAINED LAYERS AND DEVICES MADE WITH SAME - There is provided a process for forming a contained second layer over a first layer, including the steps:
| 07-28-2011 |
20120175596 | ELECTRICALLY CONDUCTIVE POLYMER COMPOSITIONS FOR COATING APPLICATIONS - The present invention relates to electrically conductive polymer compositions, and their use in electronic devices. The compositions contain a semi-aqueous dispersion of at least one electrically conductive polymer doped with at least one highly-fluorinated acid polymer, non-conductive oxide nanoparticles, at least one high-boiling organic liquid, and at least one lower-boiling organic liquid. | 07-12-2012 |
20130256603 | LIQUID COMPOSITION FOR DEPOSITION OF ORGANIC ELECTROACTIVE MATERIALS - Compositions are provided for improved liquid deposition of electroactive material onto low surface energy layers. The liquid composition includes at least one organic electroactive material in a liquid medium. The liquid medium includes (a) at least 20% by volume, based on the total volume of the liquid medium, of a first solvent and (b) at least 1% by volume, based on the total volume of the liquid medium, of a liquid organic additive. The liquid medium pins on the underlying layer as determined by a dynamic receding contact angle test. The first solvent retracts on the underlying layer as determined by the dynamic receding contact angle test. | 10-03-2013 |