A display panel, a display device and a manufacturing method of a display panel are provided. The display panel includes: a substrate, including a plurality of sub-pixel regions; a light-emitting layer, disposed in each of the sub-pixel regions; a light transmitting layer disposed on a surface of the light-emitting layer away from the substrate, and a surface of the light transmitting layer away from the light-emitting layer is a curved surface recessed towards the light-emitting layer.

The embodiments of the present application provide a display substrate and method for preparation thereof, and a display device. The display substrate includes a base, a piezoelectric layer arranged on the base, and a thin-film transistor arranged on the piezoelectric layer, said piezoelectric layer being configured to convert heat generated by the thin-film transistor into sound waves.

The present invention provides a touch display panel and a manufacturing method thereof, and a touch display device. The touch display panel includes a substrate layer, a light emitting layer, a thin film encapsulation layer, a polarizer, and a cover plate which are arranged in sequence. The light emitting layer includes a planarization layer, a first pixel definition layer, and a first touch electrode layer which are arranged in sequence.

A display device includes a display substrate including a plurality of pixels and including an active area longer than a display region, and a frame region formed to surround the active area, and a cover glass attached to a display surface side of the display substrate. A frame is provided in a periphery of the cover glass, and the frame covers an outer periphery of the active area. The display region is a region where the active area and a region surrounded by the frame of the cover glass overlap each other.

A display device includes: a fold portion; and connection wires electrically connecting a terminal to a wire in a display region. In the fold portion, an inorganic-insulating-film first slit provided to an inorganic insulating film and a film-layer first slit provided to a film layer extend in a direction to intersect with an edge of a frame region. The display device includes: either an inorganic-insulating-film second slit intersecting with the inorganic-insulating-film first slit; or a film-layer second slit intersecting with the film-layer first slit. Either the inorganic-insulating-film second slit or the film-layer second slit is provided between pluralities of the connection wires adjacent to each other.

A display device, an electronic equipment, and a manufacture method for manufacturing the display device are provided. The display device includes: a substrate, a plurality of light-emitting elements arranged in an array, the plurality of light-emitting elements including a first light-emitting element and a second light-emitting element; and a color filter layer. In a second direction perpendicular to the surface of the substrate, a distance between the plurality of light-emitting elements and the color filter layer is a first distance; the display device has a color deviation prevention viewing angle on a reference plane determined by the first direction and the second direction perpendicular to the surface of the substrate; the color deviation prevention viewing angle is, an angle between a connection line and the second direction; and the first distance is configured to enable the color deviation prevention viewing angle to be greater than a preset angle.

An organic light-emitting panel, including a substrate, a planarization layer, a reflective layer and a bank layer, is provided. The substrate has a display region and a periphery region beside the display region. The planarization layer is disposed on the substrate and has an indentation. The reflective layer is disposed on the planarization layer. The reflective layer is formed along a sidewall of the indentation. The bank layer is disposed on the planarization layer, covers the indentation, and has a periphery taper surface. The indentation is adjacent to the periphery taper surface and is closer to the display region than the periphery taper surface. A fabrication method of the above organic light-emitting panel is also provided.

The present disclosure provides a display panel and an electronic device. The display panel includes: a base substrate; a pixel arranged on the base substrate, wherein the pixel includes a plurality of sub-pixel drive circuits sequentially arranged in the first direction in the display area, each of the sub-pixel drive circuits includes a switching transistor, a detection transistor and a storage capacitor, the switching transistor and the detection transistor are respectively located on both sides of the storage capacitor in a second direction; a first gate line configured to provide a first scanning signal to the plurality of sub-pixel drive circuits; and a second gate line configured to provide a second scanning signal to the plurality of sub-pixel drive circuits.

A display device includes a driving transistor and an organic EL element. The driving transistor includes an oxide semiconductor layer; a first gate electrode that includes a region overlapping the oxide semiconductor layer; a first insulating layer between the first gate electrode and the oxide semiconductor layer; a second gate electrode that includes a region overlapping the oxide semiconductor layer and the first gate electrode; a second insulating layer between the second gate electrode and the oxide semiconductor layer; and a first and a second transparent conductive layer that are provided between the oxide semiconductor layer and the first insulating layer and each include a region contacting the oxide semiconductor layer. The organic EL element includes a first electrode; a second electrode; a light emitting layer between the first electrode and the second electrode; and an electron transfer layer between the light emitting layer and the first electrode.

The disclosure relates to a display substrate, a preparation method of the display substrate and a display device. A contact angle of a material, for defining long sides of pixel regions, of a pixel defining layer is larger than a contact angle of a material, for defining short sides of the pixel regions, of the pixel defining layer.