A display substrate and a display device are provided. The display substrate includes a first power signal line and a pixel defining layer. The first power signal line includes first power signal sub-lines extending along a first direction and second power signal sub-lines extending along a second direction. The pixel defining layer includes a plurality of openings to define effective light-emitting regions of a plurality of sub-pixels, the plurality of sub-pixels include a sub-pixel pair including two sub-pixels arranged along the second direction, and the sub-pixel pair includes two effective light-emitting sub-regions with an interval therebetween. In a plan view, the first power signal sub-line passes through the interval between the two effective light-emitting sub-regions, at least one second power signal sub-line includes a fracture, and the two effective light-emitting sub-regions are located at the fracture.

A display substrate and a manufacturing method thereof, and a display device are provided. The display substrate includes a base substrate, and includes a shift register unit, a first clock signal line, and a second clock signal line in a peripheral region; a first portion and a second portion of a first connection wire of the display substrate are connected to a first gate electrode of a first control transistor of the shift register unit; an orthographic projection of the first portion on the base substrate is on a side of an orthographic projection of an active layer of the first control transistor on the base substrate away from a display region; and an orthographic projection of the second portion on the base substrate is on a side of the orthographic projection of the active layer of the first control transistor on the base substrate close to the display region.

A display substrate, a display panel, and a display device are provided. The display substrate includes: a base substrate; a first semiconductor layer on the base substrate; and a second semiconductor layer on a side of the first semiconductor layer away from the base substrate. The display substrate further includes a plurality of thin film transistors on the base substrate, which at least include a first transistor, a second transistor and a third transistor. Each of the plurality of thin film transistors includes an active layer. The active layer of at least one of the first transistor and the second transistor is located in the second semiconductor layer and contains an oxide semiconductor material. The active layer of the third transistor is located in the first semiconductor layer and contains a polysilicon semiconductor material. At least one of the first transistor and the second transistor has a dual-gate structure.

A display substrate, which is provided with a display area and a non-display area that is adjacent to the display area. The display substrate comprises: a flexible base substrate, the flexible base substrate comprising at least one stretchable region, the stretchable regions extending from the display area to the non-display area, a plurality of openings arranged in an array being provided within the stretchable regions; and at least one signal line, which is disposed on a first side of the flexible base substrate and which is located in the non-display area, and an orthographic projection of the signal line on the flexible base substrate does not overlap with at least some of the openings among the plurality of openings.

A light emitting assembly includes a micro-LED, and a supporting substrate, The micro-LED includes a semiconductor structure and a first insulating dielectric layer. The semiconductor structure includes a first-type semiconductor laver; second-type semiconductor layer, and has a first mesa surface defined by the first-type semiconductor layer, and a second mesa surface defined by the second-type semiconductor layer, The first insulating dielectric layer covers the first and second mesa surfaces and has a first mesa covering portion that covers the first mesa surface, and two bridging arms projecting from the first mesa covering portion. The two bridging arms are located on two opposite sides of the semiconductor structure and connect with the supporting substrate so that the micro-LED is supported by the supporting substrate. The two bridging arms have a thickness which is less than a thickness of the first mesa covering portion on the first mesa surface.

Disclosed are a displaying substrate, a manufacturing method thereof, and a display panel. The displaying substrate comprises: a first capacitor electrode at least partially located in luminous zones, a buffer layer covering the first capacitor electrode, and a second capacitor electrode and an active layer that are disposed on the buffer layer and do not overlap with each other, wherein the active layer is located in a non-luminous zone, and the first capacitor electrode, the buffer layer and the second capacitor electrode form a storage capacitor

A display substrate and a display device. The display substrate includes: a base substrate, which comprises a display region, a peripheral region and a barrier region, where the peripheral region surrounds the display region, and the display region surrounds the barrier region; a through hole located in the barrier region, the center of the display substrate not coinciding with the center of the through hole; a plurality of sub-pixels located in the display region; a plurality of signal lines that are located in the display region, the peripheral region and the barrier region, and are electrically connected to the plurality of sub-pixels; a shift register circuit that is located in the peripheral region and is electrically connected to the plurality of signal lines; and at least one circle of crack detection lines that are located in the barrier region and surround the through hole.

A display panel and a manufacturing method are provided. The present disclosure can reduce process steps of the display panel by disposing a first source electrode and a first drain electrode of a low temperature polysilicon thin film transistor and a second source electrode and a second drain electrode of an oxide thin film transistor in a same layer. Therefore, stability of the oxide thin film transistor can be improved, a channel length of the oxide thin film transistor can be shortened correspondingly, resolution of the display panel can be improved, and a thickness of the display panel can be reduced.

An array substrate and manufacturing method thereof, display panel and display device. The manufacturing method of the array substrate includes: forming, on a substrate, a first conductive pattern, a second conductive pattern and an insulating pattern, the insulating pattern at least covering an upper surface of the first conducting pattern, the first conductive pattern including a first amorphous transparent conductive pattern and a first metal pattern, and the second conductive pattern including a second amorphous transparent conductive pattern; and performing an annealing treatment to convert the first amorphous transparent conductive pattern and the second amorphous transparent conductive pattern to a first crystalline transparent conductive pattern and a second crystalline transparent conductive pattern respectively. The method addresses the problem in which a metal surface is readily oxidizable when performing an annealing treatment, thereby improving the product yield.

A flexible display motherboard and a manufacturing method thereof are provided. The flexible display motherboard includes a carrier substrate and a flexible display panel unit formed thereon. The flexible display panel unit includes a flexible base formed on the carrier substrate, and a display region and a periphery region which are positioned on the flexible base. A display device is formed in the display region, and the periphery region surrounds the display region. The flexible display panel unit further includes a dissolvable layer positioned between the carrier substrate and the flexible base. The dissolvable layer is formed at least in an area corresponding to the display region. The dissolvable layer is dissolvable in a solvent.