The present disclosure provides a display panel, a display device including the display panel and a method of manufacturing the display panel. The display panel includes a substrate; a pixel-defining layer disposed on the substrate, wherein the pixel-defining layer defines a plurality of sub-pixel regions arranged in rows and columns; and an organic light emitting element disposed in at least one of the plurality of sub-pixel regions, wherein a side of the pixel-defining layer away from the substrate is provided with a groove, the groove has a depth less than a thickness of the pixel-defining layer and the groove is disposed between the organic light emitting elements that are adjacent to each other and emit light of different colors.

A light emitting structure comprises a substrate, a sub-pixel stack over a surface of the substrate, a bank surrounding the sub-pixel stack and forming an interior space above the sub-pixel stack, a first material filling the interior space and having a first refractive index, and a second material over the first material and having a second refractive index substantially higher than the first refractive index. The sub-pixel stack comprises an emissive layer between a first transport layer and a second transport layer, a first electrode layer coupled to the first transport layer, and a second electrode layer coupled to the second transport layer. The second electrode layer has a third refractive index substantially matched to the first refractive index.

A light emitting structure comprises a substrate, a sub-pixel stack over a surface of the substrate, a bank surrounding the sub-pixel stack and forming an interior space above the sub-pixel stack, a first material filling the interior space and having a first refractive index, and a second material over the first material and having a second refractive index substantially higher than the first refractive index. The sub-pixel stack comprises an emissive layer between a first transport layer and a second transport layer, a first electrode layer coupled to the first transport layer, and a second electrode layer coupled to the second transport layer. The second electrode layer has a third refractive index substantially matched to the first refractive index.

The present invention is directed to an ink composition for forming an organic semiconductor layer, wherein the ink composition comprises: —at least one p-type dopant comprising electron withdrawing groups; —at least one first auxiliary compound, wherein the first auxiliary compound is an aromatic nitrile compound, wherein the aromatic nitrile compound has about ≥1 to about ≤3 nitrile groups and a melting point of about <100° C., wherein the first auxiliary compound is different from the p-type dopant; and wherein the electron withdrawing groups are fluorine, chlorine, bromine and/or nitrile.

The present invention is directed to an ink composition for forming an organic semiconductor layer, wherein the ink composition comprises: —at least one p-type dopant comprising electron withdrawing groups; —at least one first auxiliary compound, wherein the first auxiliary compound is an aromatic nitrile compound, wherein the aromatic nitrile compound has about ≥1 to about ≤3 nitrile groups and a melting point of about <100° C., wherein the first auxiliary compound is different from the p-type dopant; and wherein the electron withdrawing groups are fluorine, chlorine, bromine and/or nitrile.

A method of manufacturing an organic light-emitting display apparatus includes: forming a lift-off layer on a substrate including a first electrode, the lift-off layer including a fluoropolymer; forming a pattern layer on the lift-off layer; etching the lift-off layer between patterns of the pattern layer by utilizing a first solvent to expose the first electrode; forming an organic functional layer on the first electrode and the pattern layer, the organic functional layer including an emission layer; removing remaining portions of the lift-off layer by utilizing a second solvent; and forming a second electrode on the organic functional layer.

A light emitting display device comprises a substrate, a first pixel electrode disposed on the substrate, a pixel defining film disposed on the first pixel electrode and having a first opening at least partially exposing the first pixel electrode, a first organic light emitting layer disposed on the pixel defining film and overlapping with the first opening of the pixel defining film, and a black matrix disposed on the first organic light emitting layer and having a first opening overlapping with the first organic light emitting layer. Light having passed through the first opening of the black matrix is one of red light, green light, and blue light. The first opening of the black matrix may have a shape with a curved portion.

A display device comprises banks spaced apart from each other on a substrate, a first electrode disposed on the banks, a second electrode disposed on the banks and spaced apart from the first electrode, and a light emitting element disposed on the first electrode and the second electrode. The first electrode and the second electrode cover the banks. The first electrode includes a first electrode portion overlapping the banks in a plan view and a first pattern portion separated from the first electrode portion. The second electrode includes a second electrode portion overlapping the banks in a plan view and a second pattern portion separated from the second electrode portion.

A display device comprises banks spaced apart from each other on a substrate, a first electrode disposed on the banks, a second electrode disposed on the banks and spaced apart from the first electrode, and a light emitting element disposed on the first electrode and the second electrode. The first electrode and the second electrode cover the banks. The first electrode includes a first electrode portion overlapping the banks in a plan view and a first pattern portion separated from the first electrode portion. The second electrode includes a second electrode portion overlapping the banks in a plan view and a second pattern portion separated from the second electrode portion.

A display substrate has a display area and a peripheral area. The display substrate includes a base substrate; an insulating layer on the base substrate and in at least the peripheral area; a plurality of light emitting elements on the base substrate and in the display area; an encapsulating layer on a side of the plurality of light emitting elements distal to the base substrate to encapsulate the plurality of light emitting elements; and a dam layer on a side of the insulating layer distal to the base substrate. The encapsulating layer includes a first inorganic encapsulating sublayer extending from the display area into the peripheral area. The display substrate has a groove extending into the first insulating layer in the peripheral area, and substantially surrounding the display area. The first inorganic encapsulating sublayer extends into at least a portion of the groove.