Patent application number | Description | Published |
20080224607 | DISPLAY - Disclosed herein is a display including an acceptor substrate having thereon a red light-emitting element column, a green light-emitting element column, and a blue light-emitting element column that are arranged along a row direction and are each obtained by arranging rectangular organic light-emitting elements for generating light of one of red, green, and blue along a longitudinal direction of the organic light-emitting elements. | 09-18-2008 |
20080292994 | TRANSFER METHOD, TRANSFER APPARATUS, AND METHOD OF MANUFACTURING ORGANIC LIGHT EMITTING ELEMENT - The present invention provides a transfer method and a transfer apparatus capable of making the shape and quality of a transferred layer uniform and a method of manufacturing an organic light emitting element. A transfer method includes a step of disposing a transfer substrate and an acceptor substrate so as to face each other, a transfer layer being provided on the transfer substrate, and a plurality of areas being arranged in the acceptor substrate, and transferring the transfer layer to the plurality of areas by emitting a radiation ray from the transfer substrate side. The radiation ray is shaped in a band shape, and a short-axis width in a center portion in a long-axis direction of the radiation ray is set to be larger than that in an end portion. | 11-27-2008 |
20090302751 | ORGANIC LIGHT EMITTING DEVICE, METHOD OF MANUFACTURING THE SAME, DISPLAY UNIT, AND ELECTRONIC DEVICE - An organic light emitting device capable of securing favorable electric connection between an auxiliary wiring layer and a second electrode without using a pixel separation mask, a method of manufacturing the same, a display unit, and an electronic device are provided. In the organic light emitting devices, for example, the auxiliary wiring layer, a first electrode as an anode, an insulating film between pixels, an organic layer including a light emitting layer, and the second electrode as a cathode are formed in this order over a substrate. In a region of the organic layer corresponding to the auxiliary wiring layer, an aperture is provided. On the auxiliary wiring layer, a connection section having a plurality of convex sections is formed. In the aperture of the organic layer, the auxiliary wiring layer and the second electrode are electrically connected by the connection section. | 12-10-2009 |
20110133636 | DISPLAY DEVICE AND METHOD OF MANUFACTURING SAME - A display device capable of early finding a sign such as misregistration or width variation of an emission layer formed by a layer transfer method, and a manufacturing method of the same are provided. In an inspection region | 06-09-2011 |
20110241038 | DISPLAY UNIT, METHOD OF MANUFACTURING SAME, ORGANIC LIGHT EMITTING UNIT, AND METHOD OF MANUFACTURING SAME - A display unit capable of being simply designed and manufactured by using more simplified light emitting device structure while capable of high definition display and display with superior color reproducibility and a manufacturing method thereof are provided. The display unit is a display unit ( | 10-06-2011 |
20120040292 | TRANSFER METHOD, TRANSFER APPARATUS, AND METHOD OF MANUFACTURING ORGANIC LIGHT EMITTING ELEMENT - A transfer method and a transfer apparatus capable of making the shape and quality of a transferred layer uniform and a method of manufacturing an organic light emitting element. A transfer method includes a step of disposing a transfer substrate and an acceptor substrate so as to face each other, a transfer layer being provided on the transfer substrate, and a plurality of areas being arranged in the acceptor substrate, and transferring the transfer layer to the plurality of areas by emitting a radiation ray from the transfer substrate side. The radiation ray is shaped in a band shape, and a short-axis width in a center portion in a long-axis direction of the radiation ray is set to be larger than that in an end portion. | 02-16-2012 |
20120235185 | DISPLAY - Disclosed herein is a display including an acceptor substrate having thereon a red light-emitting element column, a green light-emitting element column, and a blue light-emitting element column that are arranged along a row direction and are each obtained by arranging rectangular organic light-emitting elements for generating light of one of red, green, and blue along a longitudinal direction of the organic light-emitting elements. | 09-20-2012 |
20130207138 | DISPLAY UNIT, METHOD OF MANUFACTURING SAME, ORGANIC LIGHT EMITTING UNIT, AND METHOD OF MANUFACTURING SAME - A display unit capable of being simply designed and manufactured by using more simplified light emitting device structure while capable of high definition display and display with superior color reproducibility and a manufacturing method thereof are provided. The display unit is a display, wherein a plurality of organic EL devices in which a function layer including a light emitting layer is sandwiched between a lower electrode made of a light reflective material and a semi-transmissive upper electrode, and which has a resonator structure in which light emitted in the light emitting layer is resonated using a space between the lower electrode and the upper electrode as a resonant section and is extracted from the upper electrode side are arranged on a substrate. In the respective organic EL devices, the function layer is made of an identical layer, and an optical distance of the resonant section is set to a value different from each other so that blue, green, or red wavelength region is resonated. | 08-15-2013 |
20130256639 | LIGHT EMITTING ELEMENT AND DISPLAY APPARATUS - There is provided a light emitting element including a first electrode, an organic layer having a light emitting layer, formed on the first electrode, a charge generation layer formed on the organic layer, a resistance layer formed on the charge generation layer, and a second electrode formed on the resistance layer. The first electrode reflects light emitted from the light emitting layer and the second electrode transmits the light emitted from the light emitting layer. The charge generation layer includes a layered structure of, sequentially in order from the organic layer, a mixing layer containing a chelate material, and an alkali earth metal element or an alkali metal element, and an acceptor layer containing an acceptor material. | 10-03-2013 |
20130341603 | DISPLAY - Disclosed herein is a display including an acceptor substrate having thereon a red light-emitting element column, a green light-emitting element column, and a blue light-emitting element column that are arranged along a row direction and are each obtained by arranging rectangular organic light-emitting elements for generating light of one of red, green, and blue along a longitudinal direction of the organic light-emitting elements. | 12-26-2013 |
20140332832 | DISPLAY UNIT - A display unit includes a plurality of light emitting devices, each of the light emitting devices including a function layer including at least an organic layer is sandwiched between a first electrode and a second electrode, and which have a resonator structure for resonating light by using a space between the first electrode and the second electrode as a resonant section and extracting the light through the second electrode are arranged on a substrate, wherein in the respective light emitting devices, the organic layer is made of an identical layer, and a distance of the resonant section between the first electrode and the second electrode is set to a plurality of different values. | 11-13-2014 |
20140346480 | LIGHT EMITTING ELEMENT, DISPLAY APPARATUS, AND LIGHTING APPARATUS - A light emitting element includes a first electrode, a second electrode, and an organic layer in which a first luminescent layer and a second luminescent layer are provided from a first electrode side, the organic layer being provided between the first electrode and the second electrode, light from the organic layer being reflected on an interface of the luminescent layer and the first electrode, passing through the second electrode, and being emitted to outside, a first optical transparent layer, a second optical transparent layer, and a third optical transparent layer being provided, from a second luminescent layer side, on a side of the second luminescent layer, the side being opposite to the first luminescent layer. | 11-27-2014 |