Patent application number | Description | Published |
20130236999 | METHOD FOR FORMING A MULTICOLOR OLED DEVICE - A method is provided for forming a multi-color OLED device that includes providing a substrate, coating the substrate with a fluorinated photoresist solution to form a first photo-patternable layer and exposing it to produce a first pattern of exposed fluorinated photoresist material and a second pattern of unexposed fluorinated photoresist material, developing the photo-patternable layer with a fluorinated solvent to remove the second pattern of unexposed fluorinated photoresist material without removing the first pattern of exposed fluorinated photoresist material, depositing a first organic light-emitting material over the substrate to form a first organic light-emitting layer for emitting a first color of light and applying the first pattern of exposed fluorinated photoresist material to control the removal of a portion of the first organic light-emitting layer. A second fluorinated photoresist solution is then coated over the first patterened organic light-emitting layer and exposed to form a third pattern of exposed fluorinated photoresist material having a pattern different from the first pattern and a fourth pattern of unexposed fluorinated photoresist material, and developing the photo-patternable layer in a fluorinated solvent to remove the fourth pattern of unexposed fluorinated photoresist material without removing the third pattern of exposed fluorinated photoresist material, depositing at least a second light-emitting material to form a second light-emitting layer for emitting a second color of light that is different than the first color of light and applying the third pattern of exposed fluorinated photoresist material to control the removal of a portion of the second organic light-emitting layer. | 09-12-2013 |
20140127625 | ORTHOGONAL SOLVENTS AND COMPATIBLE PHOTORESISTS FOR THE PHOTOLITHOGRAPHIC PATTERNING OF ORGANIC ELECTRONIC DEVICES - The present invention provides improved solvents and photoresists for the photolithographic patterning of organic electronic devices, systems comprising combinations of these solvents and photoresists, and methods for using these systems of solvents and photoresists to pattern various organic electronic materials. | 05-08-2014 |
20140322850 | METHOD FOR FORMING AN ORGANIC DEVICE - The present invention provides a method for forming an organic device having a patterned conductive layer that includes providing a substrate, depositing organic materials over the substrate to form one or more organic layers, coating a photoresist solution over the one or more organic layers to form a photo-patternable layer, wherein the solution includes a fluorinated photoresist material and a first fluorinated solvent, selectively exposing portions of the photo-patternable layer to radiation to form a first pattern of exposed fluorinated photoresist material and a second pattern of unexposed fluorinated photoresist material, exposing the substrate to a second fluorinated solvent to develop the photo-patternable layer, removing the second pattern of unexposed fluorinated photoresist material without removing the first pattern of exposed fluorinated photoresist material, coating one or more conductive layers over the one or more organic layers and removing a portion of the one or more of the conductive layers to form a pattern. Particular embodiments of the present invention for forming arrays of top contact TFTs and a pixilated organic device are also provided. | 10-30-2014 |
20140329354 | PROCESS FOR IMPRINT PATTERNING MATERIALS IN THIN-FILM DEVICES - The present disclosure provides a method for patterning materials that are or are on top of chemically sensitive organic semiconductors. The method employs imprint lithography and a bilayer resist structure that simultaneously protects lower layers from harmful solvents and allows for cleaner liftoff by producing an undercut geometry to the resist pattern. | 11-06-2014 |
20150044801 | METHOD FOR FORMING A MULTICOLOR OLED DEVICE - A method is provided for forming a multi-color OLED device that includes providing a substrate, coating the substrate with a fluorinated photoresist solution to form a first photo-patternable layer and exposing it to produce a first pattern of exposed fluorinated photoresist material and a second pattern of unexposed fluorinated photoresist material, developing the photo-patternable layer with a fluorinated solvent to remove the second pattern of unexposed fluorinated photoresist material without removing the first pattern of exposed fluorinated photoresist material, depositing a first organic light-emitting material over the substrate to form a first organic light-emitting layer for emitting a first color of light and applying the first pattern of exposed fluorinated photoresist material to control the removal of a portion of the first organic light-emitting layer. A second fluorinated photoresist solution is then coated over the first patterned organic light-emitting layer and exposed to form a third pattern of exposed fluorinated photoresist material having a pattern different from the first pattern and a fourth pattern of unexposed fluorinated photoresist material, and developing the photo-patternable layer in a fluorinated solvent to remove the fourth pattern of unexposed fluorinated photoresist material without removing the third pattern of exposed fluorinated photoresist material, depositing at least a second light-emitting material to form a second light-emitting layer for emitting a second color of light that is different than the first color of light and applying the third pattern of exposed fluorinated photoresist material to control the removal of a portion of the second organic light-emitting layer. | 02-12-2015 |
Patent application number | Description | Published |
20140248565 | METHOD OF PATTERNING A DEVICE - A photopolymer layer is formed on an organic device substrate and exposed to patterned radiation. The photopolymer layer includes a photopolymer comprising at least a first repeating unit having an acid-catalyzed, solubility-altering reactive group, wherein the total fluorine content of the photopolymer is less than 30% by weight. The pattern exposed photopolymer is contacted with a developing agent, such as a developing solution, to remove unexposed photopolymer, thereby forming a developed structure having a first pattern of exposed photopolymer covering the substrate and a complementary second pattern of uncovered substrate corresponding to the unexposed photopolymer. The developing agent comprises at least 50% by volume of a hydrofluoroether developing solvent. | 09-04-2014 |
20140322656 | METHOD OF PATTERNING A DEVICE - A photoresist layer comprising a fluorinated photoresist material is formed on a device substrate and exposed to patterned radiation. The exposed photoresist layer is contacted with a developing agent to remove a portion of the exposed photoresist layer in accordance with the patterned light, thereby forming a developed structure having a first pattern of photoresist covering the substrate and a complementary second pattern of uncovered substrate corresponding to the removed portion of photoresist, the developing agent comprising a mixture of first and second fluorinated solvents, wherein at least one of the first and second solvents is a hydrofluoroether. The developed structure is treated to form a treated structure. The treated structure is contacted with a stripping agent to remove the first pattern of photoresist, the stripping agent comprising at least the first or second solvent in a concentration different from the developing agent. | 10-30-2014 |
20140342287 | METHOD OF PATTERNING A DEVICE - A fluorinated photopolymer is formed on a device substrate and exposed to patterned radiation. The photopolymer has a total fluorine content in a weight range of 15 to 60% and comprises at least three distinct repeating units, including a first repeating unit having a fluorine-containing group, a second repeating unit having an acid- or alcohol-forming precursor group, and a third repeating unit different from the first and second repeating units. The pattern-exposed photopolymer layer is contacted with a developing solution comprising at least a first fluorinated solvent that dissolves the unexposed photopolymer thereby forming a developed structure having a first pattern of photopolymer covering the substrate and a complementary second pattern of uncovered substrate. The developing solution is selected to provide a maximum photopolymer contrast in a range of 1.9 to 5.0. | 11-20-2014 |
20150132699 | BRANCHED FLUORINATED PHOTOPOLYMERS - A fluorinated photopolymer composition is disclosed having a branched copolymer provided in a fluorinated solvent. The copolymer includes a branching unit, a first repeating unit having a fluorine-containing group, and a second repeating unit having a solubility-altering reactive group. The branched fluorinated photopolymer composition is particularly suited for the fabrication of organic electronic and bioelectronic devices, or other devices having sensitive active organic materials. | 05-14-2015 |
20150331325 | METHOD OF PATTERNING A DEVICE - A photopolymer layer is formed on an organic device substrate and exposed to patterned radiation. The photopolymer layer includes a photopolymer comprising at least a first repeating unit having an acid-catalyzed, solubility-altering reactive group, wherein the total fluorine content of the photopolymer is less than 30% by weight. The pattern exposed photopolymer is contacted with a developing agent, such as a developing solution, to remove unexposed photopolymer, thereby forming a developed structure having a first pattern of exposed photopolymer covering the substrate and a complementary second pattern of uncovered substrate corresponding to the unexposed photopolymer. The developing agent comprises at least 50% by volume of a hydrofluoroether developing solvent. | 11-19-2015 |