A display device having a plurality of subpixels may include: a first substrate; a bank layer on the first substrate at boundaries between the plurality of subpixels; a thin film transistor in one of the subpixels; a light emitting diode in the one of the subpixels and electrically connected to the thin film transistor, the light emitting diode including an anode, a hole transporting layer, a first emitting layer, an electron transporting layer, and a cathode; and a spacer on the bank layer at a periphery of the one of the subpixels, the spacer having a reverse taper shape. The cathode may include at least two discontinuous segments disconnected from each other at one or more side surfaces of the spacer.

The present disclosure provides a display substrate, a method for manufacturing the same, and a display device. The display substrate includes a drive circuit layer disposed on a base substrate and a light emitting structure layer disposed on a side of the drive circuit layer away from the base substrate. The light emitting structure layer includes an anode, an organic light emitting layer, a cathode, and an auxiliary electrode. The organic light emitting layer is respectively connected to the anode and the cathode, and the cathode is connected to the auxiliary electrode; in a plane parallel to the display substrate, an edge of the auxiliary electrode is provided with a structure depressed towards a center of the auxiliary electrode.

An electroluminescence display is disclosed that comprises: a pixel; a low-resistance line at one side of the pixel and having a connection part; an insulating layer on the low-resistance line; a low-resistance connecting terminal on the insulating layer and connected to the connection part; a passivation layer on the low-resistance connecting terminal; a planarization layer on the passivation layer; a cathode contact hole exposing a portion of the low-resistance connecting terminal. The low-resistance line includes an open area overlapping with a middle portion of the low-resistance connecting terminal at the connection part. The low-resistance connecting terminal connects to a first side and a second side of the low-resistance connecting terminal. The cathode electrode is connnected to the low-resistance connecting terminal via the cathode contact hole.

A display panel and a method for fabricating the same are provided. In the display panel, an undercut structure is formed below a second auxiliary electrode, so that a cathode electrode and a first auxiliary electrode have an overlapping region, and the cathode electrode and the first auxiliary electrode are connected.

A display substrate, a display panel, an electronic device and a display method. The display substrate includes first electrodes in a first display region and second electrodes in a second display region, a first light-emitting portion in the first display region and a second light-emitting portion in the second display region, and the first electrodes being of strip shapes extending along a first direction and being spaced apart from each other along a second direction; third electrodes in the first display region and a fourth electrode in the second display region, the third electrode being of strip shapes extending along the second direction and being spaced apart from each other along the first direction.

A display device includes a light-emitting element that includes a first electrode, an second electrode, a light-emitting layer provided between the first electrode and the second electrode, a first function layer provided between the light-emitting layer and the second electrode and in contact with the second electrode, and a first cooling element that includes a third electrode. An extending portion of the second electrode at least partially overlaps the third electrode, and an extending portion of the first function layer overlaps the extending portion of the second electrode and is in contact with the extending portion of the second electrode and the third electrode.

Provided are a display substrate and a display apparatus. The display substrate includes: a base substrate, and a first electrode layer, a barrier layer and a common layer, which are sequentially located on one side of the base substrate, wherein the first electrode layer includes a plurality of first electrodes located in sub-pixel areas; the barrier layer includes a plurality of barrier portions used for defining the sub-pixel areas; the common layer covers the barrier portions and the first electrodes; a barrier portion located between two sub-pixel areas which are at least partially adjacent is provided with at least one first recessed structure; and the common layer is provided with a second recessed structure in an area corresponding to the first recessed structure.

Provided in the present disclosure are a display substrate, a fabrication method therefor, and a display apparatus. The method comprises: forming a pixel defining layer on the surface of one side of a substrate, said layer defining an opening; forming a light-emitting layer in the opening; forming a sacrificial layer and a photoresist layer on the surface of the light-emitting layer away from the substrate, the orthographic projection of the sacrificial layer on the substrate at least partially overlapping the orthographic projection of the opening on the substrate, and the photoresist layer being located on the surface of the sacrificial layer away from the substrate; forming a first metal layer on the surfaces of the pixel defining layer and the photoresist layer away from the substrate; removing the sacrificial layer, the photoresist layer, and the first metal layer located on the surface of the photoresist layer away from the substrate, and exposing the opening; and forming a second metal layer in the opening and on the surface of the first metal layer away from the substrate. A cathode of the display substrate fabricated by using the described method is thinner in the opening and thicker on the surface of the pixel defining layer. The light-emitting efficiency is high, and the voltage drop is relatively low. The display effect is good, and costs are low.

An organic light-emitting display panel and a manufacturing method therefor, and a display device are provided. An organic light-emitting display panel includes: a substrate, organic light-emitting elements and an encapsulation layer, the encapsulation layer and the substrate defining a sealing space, the organic light-emitting elements being provided in the sealing space, each organic light-emitting element including an anode, an organic light-emitting layer and a cathode sequentially stacked in a direction away from the substrate, a first protrusion being provided on the side of each organic light-emitting layer away from the substrate, and a portion of the cathode covering the first bulge forming a second bulge; and a color filter layer provided on the side of the encapsulation layer away from the organic light-emitting elements, the color filter layer comprising color resist blocks and black matrices, the color resist blocks and the organic light-emitting elements being arranged in one-to-one correspondence.

A display panel and a display apparatus. The display panel comprises: a base substrate, an anode layer, a cathode layer (5), an organic functional layer (4) and cathode signal lines (2), wherein the anode layer is located on the base substrate; the cathode layer (5) is located on the side of the anode layer that faces away from the base substrate, and the orthographic projection of the cathode layer (5) on the base substrate overlaps with both a display area and a non-display area; the organic functional layer (4) is located between the anode layer and the cathode layer (5), and the orthographic projection of the organic functional layer (4) on the base substrate overlaps with the display area (AA); the cathode signal lines (2) are located on the side of the organic functional layer (4) that is close to the base substrate, and the cathode signal lines (2) are located in the non-display area; the orthographic projection of the cathode signal lines (2) on the base substrate and the orthographic projection of the organic functional layer (4) on the base substrate have non-overlapping areas, and the non-overlapping areas comprise at least two mutually separated sub-areas; and the cathode signal lines (2) are coupled to the cathode layer (5) in the at least two mutually separated sub-areas. Therefore, the resistance voltage drop on the cathode layer (5) is reduced, thereby improving the display uniformity of the display panel.