Disclosed are a display device and a manufacturing method therefor. The display device comprises a touch trace and a photonic crystal structure provided in a common layer, wherein an orthographic projection of the photonic crystal structure on a substrate is overlapped with an orthographic projection of a pixel light emitting unit on the substrate.

The present disclosure provides an electroluminescent device, its manufacturing method, a display substrate and a display device. The electroluminescent device includes a substrate, and a pixel defining layer arranged on the substrate. A pixel aperture matrix is formed in the pixel defining layer, at least one connection channel is formed on the pixel defining layer, an electroluminescent layer in a predetermined color is formed in each pixel aperture of the pixel aperture matrix, and the connection channel is configured to connect at least two pixel apertures of the pixel aperture matrix in an identical row or column and corresponding to the electroluminescent layers in an identical color.

Embodiments of the present application provide a method for producing an array substrate. The array substrate includes a planarization layer provided on a layer of thin film transistors and a first electrode provided on the planarization layer for a light emitting device. The method includes the steps of: forming a pixel definition layer for placing the first electrode, a via hole for the first electrode and a spacer on the planarization layer by a single patterning process with a single mask. The array substrate is produced by the method provided by the present embodiment, so that the number of the used patterning processes and the number of the used masks are reduced.

An organic electroluminescent device includes a substrate, a number of first electrodes disposed on the substrate, each of the first electrodes used to form a light-emitting unit; an insulative layer disposed on the substrate and used to define a pixel region of the light-emitting unit; a number of second electrodes disposed on the substrate, each of the second electrodes used to form a light-emitting unit, wherein the second electrodes are spaced apart from one another to form a number of isolation grooves each between two adjacent second electrodes.

An organic EL display panel including: a substrate; a first lower electrode and a second lower electrode disposed over the substrate with a gap therebetween in a first direction; a wall separating a space above the first lower electrode and a space above the second lower electrode from one another; organic light-emitting layers respectively disposed in the spaces; and an upper electrode extending over the organic light-emitting layers. The wall includes a first portion disposed over the gap and two second portions each of which is disposed over a different one of the first lower electrode and the second lower electrode. The first portion is between the two second portions in the first direction, and at least a part of a bottom face of the first portion is positioned higher than a bottom face of the second portion.

An organic light-emitting display apparatus includes a buffer layer formed on a substrate; a gate insulating layer formed over the buffer layer; an interlayer insulating layer formed over the gate insulating layer; a first opening formed through the gate insulating layer and the interlayer insulating layer; a first organic insulating layer formed over the interlayer insulating layer and including a second opening that overlaps with the first opening; a pixel electrode formed in the second opening, and directly contacting the buffer layer; a light emission layer formed over the pixel electrode; and an opposite electrode formed over the light emission layer.

There is provided a display device including a display panel configured to display an image, a window above the display panel and including a display area configured to transmit an image therethrough, a non-display area around the display area, a window base facing the display panel, a printed layer below the window base, and a low refractive-index zone between the window base and the printed layer, and an adhesive layer between the display panel and the window.

An organic light emitting diode display including: a plurality of pixel electrodes disposed on a substrate; a pixel defining layer disposed on the pixel electrodes and including a plurality of openings exposing the respective pixel electrodes; a plurality of organic emission layers disposed on the respective pixel electrodes; and intermediate pattern layers respectively disposed between the pixel electrodes and the organic emission layers. The intermediate pattern layers include a plurality of first patterns that are extended while being respectively connected along the openings neighboring along a predetermined path.

An array substrate is disclosed. The array substrate may include a base substrate (21), a pixel defining layer (22) on the base substrate (21), and a charge generating layer (24) above the pixel defining layer (22). The pixel defining layer (22) may define a plurality of pixel regions. The pixel defining layer (22) may include a plurality of acoustic structures (220), and each of the plurality of acoustic structures (220) may be configured to resonate under an action of an acoustic wave of a threshold frequency to form a slit to disconnect the charge generating layer (24) of two adjacent pixel regions of the plurality of pixel regions.

The present disclosure provides an organic light-emitting pixel with four subpixels formed in two groups, each group having two adjacent subpixels. The organic light-emitting pixel includes a first electrode layer formed on a substrate, including a plurality of first electrodes, each first electrode corresponding to one of the subpixels; a second electrode layer; and a first functional layer corresponding to three of the four subpixels. The first function layer is configured to adjust a distance between a first electrode and the second electrode layer. The organic light-emitting pixel also includes a light-emitting layer including a first portion and a second portion, the first portion corresponding to one of the two groups of subpixels and the second portion corresponding to another one of the two groups of subpixels, respectively.