A pixel driving circuit includes a driving transistor, a voltage stabilizing transistor, and a storage capacitance. A gate metal layer of a gate electrode of the voltage stabilizing transistor that serves as the control terminal of the voltage stabilizing transistor, and an active layer are constituted as a channel on-state capacitance, a ratio of an area of the channel on-state capacitance to a capacitance value of the storage capacitance is less than a preset value the area of the channel on-state capacitance is a directly opposite overlapping area between the gate metal layer and the active layer. This preset value is determined based on a ratio of a voltage fluctuation at a control terminal of the driving transistor to a potential voltage. A correlation between the channel on-state capacitance and the storage capacitance of the voltage stabilizing transistor is determined, so that a new capacitance configuration method is provided.

Provided are organic compounds which comprise a pyrrole or imidazole ring which is fused to a 6-membered ring as well as to a further 5- or 6-membered ring, and wherein the pyrrole or imidazole nitrogen is further substituted with a 6-membered ring. Also provided are formulations comprising these organic compounds. Further provided are organic light-emitting devices (OLEDs) and related consumer products that utilize these organic compounds.

A display panel and a display device are provided. The display panel includes: a pixel unit including a pixel circuit and a light-emitting element, the pixel circuit including a first transistor, the pixel unit including a first pixel unit and a second pixel unit located in a same row and adjacent columns; a first gate line and a second gate line, connected to gate electrodes of the first transistors of the first pixel unit and the second pixel unit; a first gate signal line, connected to the first pixel unit; a second gate signal line, connected to the second pixel unit; a first connection line connected with the first gate signal line through the first connection line; and a second connection line connected with the second gate signal line through the second connection line.

Provided are an organic light-emitting display panel and a display device. The organic light-emitting display panel includes: a plurality of organic light-emitting units, a first display area and a second display area. The plurality of organic light-emitting units includes first organic light-emitting units in the first display area and second organic light-emitting units in the second display area. The first organic light-emitting units share a first cathode. The second organic light-emitting units include at least one organic light-emitting unit group, each of the at least one organic light-emitting unit group includes at least one organic light-emitting unit. The at least one organic light-emitting unit in a same organic light-emitting unit group shares a second cathode. The second cathode has a zigzag edge segment.

An embodiment provides a display device including an insulating layer which is continuous between opposed ends of two adjacent lower electrodes from an upper part of one of the ends to an upper part of the other end, a first organic layer which is disposed over the lower electrodes and the insulating layer, a second organic layer which is disposed over the lower electrodes and the insulating layer with the first organic layer interposed therebetween and includes a light emitting layer, and a second electrode which covers the organic layer. The upper face of the insulating layer includes a recess between the two lower electrodes. The aspect ratio of the recess is 0.5 or more.

A mask assembly and a method of patterning a semiconductor film using the mask assembly. A first mask comprises a plurality of first light shielding regions, a plurality of first light transmissive regions, and at least one first light shielding island; a boundary of a first light shielding island is not connected to a boundary of the first mask; a second mask comprises a plurality of second light shielding regions, a plurality of second light transmissive regions, and at least one second light shielding island; a boundary of the second light shielding island is not connected to a boundary of the second mask; the first light shielding region and the second light shielding region are complementarily arranged, the first light transmissive region and the second light transmissive region are complementarily disposed.

A display device includes a substrate provided with a first subpixel area, and a second subpixel area adjacent to one side of the first subpixel area, a first electrode provided on the substrate, including a first sub electrode provided on the first subpixel area and a second sub electrode provided on the second subpixel area, an organic light emitting layer arranged on the first electrode, a second electrode arranged on the organic light emitting layer, a bank provided between the first sub electrode and the second sub electrode, partitioning the first subpixel area from the second subpixel area, and a reflective portion provided on the bank, adjoining the organic light emitting layer.

Disclosed herein is a display device including at least one illumination source configured for projecting at least one illumination beam on at least one scene; at least one optical sensor having at least one light sensitive area, where the optical sensor is configured for measuring at least one reflection light beam generated by the scene in response to illumination by the illumination beam; at least one translucent display configured for displaying information, where the illumination source and the optical sensor are placed in direction of propagation of the illumination light beam in front of the display, and at least one control unit, where the control unit is configured for turning off the display in an area of the illumination source during illumination and/or in an area of the optical sensor during measuring.

A mask assembly and a method of patterning a semiconductor film using the mask assembly. A first mask comprises a plurality of first light shielding regions, a plurality of first light transmissive regions, and at least one first light shielding island; a boundary of a first light shielding island is not connected to a boundary of the first mask; a second mask comprises a plurality of second light shielding regions, a plurality of second light transmissive regions, and at least one second light shielding island; a boundary of the second light shielding island is not connected to a boundary of the second mask; the first light shielding region and the second light shielding region are complementarily arranged, the first light transmissive region and the second light transmissive region are complementarily disposed.

Exemplary embodiments of the disclosure disclose an organic electroluminescent device including a display area, a non-display area, an isolation area and a first overlapping area. The non-display area is located at the periphery of the display area. The isolation area is located between the display area and the non-display area. The first overlapping area has a first electrode located in the isolation area and a second electrode overlapped with the first electrode in the isolation area.