Abstract:
An organic light emitting display panel including a partition wall to prevent different organic light emitting materials from being mixed with each other between adjacent light emitting areas. The partition wall may protrude from a surface of a pixel definition layer or a first common layer. Accordingly, desired light colors are generated by organic light emitting patterns respectively disposed in the light emitting areas.
Abstract:
A resist composition for a black matrix, the resist composition including carbon nanotubes, a halosulfonic acid, an alcohol, an ammonium hydroxide compound, and a fluorosilane.
Abstract:
An organic light emitting display panel including a partition wall to prevent different organic light emitting materials from being mixed with each other between adjacent light emitting areas. The partition wall may protrude from a surface of a pixel definition layer or a first common layer. Accordingly, desired light colors are generated by organic light emitting patterns respectively disposed in the light emitting areas.
Abstract:
A manufacturing method of an organic light emitting display includes preparing a substrate including a cathode line and forming an anode electrode on the substrate, the anode electrode being insulated from the cathode line. The method also includes forming an insulating layer having a first opening exposing a portion of the cathode line and a second opening exposing a portion of the anode electrode on the substrate, forming an organic layer on the insulating layer, and forming an electrical connection portion electrically connected to the cathode line. The electrical connection portion is formed in this method by supplying a conductive solution that dissolves the organic layer in an area of the organic layer corresponding to the first opening, and the manufacturing method also includes forming a cathode electrode overlapping with the electrical connection portion.
Abstract:
An organic light emitting display panel including a partition wall to prevent different organic light emitting materials from being mixed with each other between adjacent light emitting areas. The partition wall may protrude from a surface of a pixel definition layer or a first common layer. Accordingly, desired light colors are generated by organic light emitting patterns respectively disposed in the light emitting areas.
Abstract:
A method of manufacturing a light-emitting display device, the method including forming a first electrode on a substrate, the substrate including a plurality of pixel regions divided by a non-pixel region, in each of the pixel regions; forming a pixel defining layer, the pixel defining layer having a plurality of pixel openings, each of the pixel openings exposing the first electrode, on the substrate; forming a hole injection layer on the first electrode; forming a lyophilic layer on the hole injection layer to completely overlap the hole injection layer; forming a hole transport layer on the lyophilic layer; forming a light-emitting layer on the hole transport layer; and forming a second electrode on the light-emitting layer.
Abstract:
Provided is a light emitting display device.The emitting display device comprises: a substrate including a plurality of pixels which are arranged in a first direction and a second direction that crosses the first direction, the plurality of pixels comprising a first main pixel block and a second main pixel block; a planarization pattern arranged on the substrate; a first electrode on the planarization pattern for each of the plurality of pixels; a pixel defining layer partitioning the respective pixels on the substrate and having an opening for exposing the first electrode; an organic layer on the first electrode; and a second electrode on the organic layer, wherein a thickness of the planarization pattern of the pixel in the second main pixel block is larger than a thickness of the planarization pattern of the pixel in the first main pixel block.
Abstract:
An organic light emitting display panel including a partition wall to prevent different organic light emitting materials from being mixed with each other between adjacent light emitting areas. The partition wall may protrude from a surface of a pixel definition layer or a first common layer. Accordingly, desired light colors are generated by organic light emitting patterns respectively disposed in the light emitting areas.
Abstract:
A method of manufacturing a light-emitting display device, the method including forming a first electrode on a substrate, the substrate including a plurality of pixel regions divided by a non-pixel region, in each of the pixel regions; forming a pixel defining layer, the pixel defining layer having a plurality of pixel openings, each of the pixel openings exposing the first electrode, on the substrate; forming a hole injection layer on the first electrode; forming a lyophilic layer on the hole injection layer to completely overlap the hole injection layer; forming a hole transport layer on the lyophilic layer; forming a light-emitting layer on the hole transport layer; and forming a second electrode on the light-emitting layer.
Abstract:
Provided is a light emitting display device.The emitting display device comprises: a substrate including a plurality of pixels which are arranged in a first direction and a second direction that crosses the first direction, the plurality of pixels comprising a first main pixel block and a second main pixel block; a planarization pattern arranged on the substrate; a first electrode on the planarization pattern for each of the plurality of pixels; a pixel defining layer partitioning the respective pixels on the substrate and having an opening for exposing the first electrode; an organic layer on the first electrode; and a second electrode on the organic layer, wherein a thickness of the planarization pattern of the pixel in the second main pixel block is larger than a thickness of the planarization pattern of the pixel in the first main pixel block.