A display panel, a display screen, and a terminal device are provided. The display panel includes: a substrate; and a plurality of first electrodes disposed on the substrate, the plurality of the first electrodes extending in parallel with each other in a extending direction, and two adjacent first electrodes having an interval therebetween, a width of the first electrode changes continuously or intermittently in the extending direction of the first electrodes, two edges of the first electrode in the extending direction thereof are wavy lines, crests and troughs of the wavy line are both curves, and a radius of curvature of the curve at the crest is different from a radius of curvature of the curve at the trough.

A display panel, a display screen, and a display terminal are provided. The display panel includes a substrate and a plurality of wavy first electrodes disposed on the substrate. The plurality of first electrodes extend in parallel in the same direction and have an interval between adjacent first electrodes. In an extending direction of the first electrode, a width of the first electrode changes continuously or intermittently, and the interval changes continuously or intermittently.

A display substrate includes a base substrate provided thereon with a pixel defining layer and a plurality of organic light emitting diodes, a plurality of conductive structures are provided on a side of a top electrode layer away from the base substrate, the top electrode layer being on the pixel defining layer, an orthographic projection of the conductive structures on a plane where the pixel defining layer is within an area where the pixel defining layer is disposed, the conductive structures are coupled to a portion of the top electrode layer on the pixel defining layer, the remaining portion of the top electrode layer is provided with a planarization layer on a side of the top electrode layer away from the base substrate, and an auxiliary electrode is on a side of the planarization layer away from the base substrate, and is coupled to the conductive structures.

An opto-electronic device includes: (1) a substrate including a first region and a second region; and (2) a conductive coating covering the second region of the substrate. The first region of the substrate is exposed from the conductive coating, and an edge the conductive coating adjacent to the first region of the substrate has a contact angle that is greater than about 20 degrees.

The present disclosure proposes a cover plate for an organic electroluminescent display device and a method for manufacturing the same. The cover plate for the organic electroluminescent display device includes: an auxiliary electrode disposed on a substrate to be electrically connected to an electrode of the organic electroluminescent display device; and a light reflection suppression structure disposed on the auxiliary electrode and configured to suppress reflection of light from a surface of the auxiliary electrode. The present disclosure further proposes an organic electroluminescent display device and a display apparatus.

According to an embodiment, a substrate with an electrode is a substrate with an electrode 32 for manufacturing an organic device 10 including a first electrode 14, an organic functional layer 16, and a second electrode 18. The substrate with an electrode includes a support substrate 34, a first electrode provided on an inner side of a device formation area DA on a surface 34a of the support substrate 34, and an antistatic conductive portion 36 provided on the surface described above and electrically connected to the first electrode.

The present disclosure relates to an array substrate, a method of fabricating the same, and a display panel. The array substrate includes a conductive layer formed on the base substrate, a dielectric layer formed on the conductive layer, wherein the dielectric layer has an opening exposing the conductive layer, wherein a vertical projection of the opening on the base substrate is in at least a portion of the pixel spacing region, a first electrode formed on the dielectric layer, a luminescent layer having a first portion on the first electrode and a second portion on the conductive layer in the opening, a second electrode formed on the luminescent layer, and an electrical connection portion in the second portion of the luminescent layer for providing an electrical connection from the conductive layer to the second electrode, and wherein the electrical connection portion is more conductive than the luminescent layer.

A circuit substrate and a display device are disclosed. The circuit substrate includes a display region and a non-display region. The non-display region includes: a first electrode layer, and a second electrode layer located on the first electrode layer. A contact area of the first electrode layer contacting with the second electrode layer at one side of the display region is equal to that of the first electrode layer contacting with the second electrode layer at another side of the display region, so that the first electrode layer and the second electrode layer have a same contact resistance, and therefore the currents flowing through both sides of the display region are the same, and the phenomenon of electrically shorted corner can be avoided.

An OLED panel for a lighting device is provided. The OLED panel for a lighting device may include a substrate divided into a light emitting area and a pad area formed outside of the light emitting area; an auxiliary wiring pattern disposed on the substrate, the auxiliary wiring pattern having a taper-shaped cross-section whose width is gradually narrower toward an upper portion thereof; a first electrode disposed on the substrate on which the auxiliary wiring pattern is disposed; a passivation layer disposed on the first electrode within an area where the auxiliary wiring pattern disposed; an OLED light emitting structure disposed on the first electrode on which the passivation layer is disposed; a second electrode disposed on the OLED light emitting structure; and an encapsulating layer disposed on the second electrode, and the passivation layer may have a cross-section corresponding to a cross-section of the auxiliary wiring pattern in the light emitting area. The OLED panel for a lighting device may have a wide light emitting area by reducing a passivation area on the auxiliary wiring pattern.

A touch member for a display device includes first and second touch signal lines and an insulating layer between first and second conductive layers. The first touch signal line includes a first sub-touch signal line corresponding to the first conductive layer, and a second sub-touch signal line corresponding to the second conductive layer and connected to the first sub-touch signal line through first and second contact holes penetrating the insulating layer. The second touch signal line includes a third sub-touch signal line corresponding to the first conductive layer, and a fourth sub-touch signal line corresponding to the second conductive layer and connected to the third sub-touch signal line through third and fourth contact holes penetrating the insulating layer. The first and second contact holes are spaced by a first distance, and the third and fourth contact holes are spaced by a second distance less than the first distance.