An electrophoretic display including a low-modulus adhesive foam. The electrophoretic display additionally includes a conductive integrated barrier layer including a light-transmissive electrode and a moisture barrier. In some embodiments, the resulting electrophoretic display may include touch sensing, a front light, color, and a digitizing layer to record interactions with a stylus. In some embodiments, the display includes a color filter array.

A display device includes: a substrate including a display area and a folding area positioned in a portion of the display area; a display structure disposed on the substrate; a protection film disposed on the substrate and overlapping the folding area; an adhesive member disposed between the protection film and the substrate, wherein the protection film adheres to the substrate by the adhesive member; a first antistatic layer disposed between the protection film and the adhesive member, wherein the first antistatic layer includes a first compound; a second antistatic layer disposed on a bottom surface of the protection film, wherein the second antistatic layer includes a second compound; and a supporting member disposed on the second antistatic layer, wherein the supporting member includes an opening overlapping the folding area.

This application provides a display module and an electronic device. A display module includes a first buffer member, and a first non-bending region, a bending region, and a second non-bending region. A support member is fastened on the display screen. A first metal plate member of the support member faces the first non-bending region. A first connection plate member of the support member faces the bending region. A second metal plate member of the support member faces the second non-bending region. The first connection plate member is provided with. Openings of the grooves are located on a first surface of the metal part. Organic material are located in the grooves, and are connected to the metal part. The first buffer member is located between the first metal plate member and the second metal plate member.

Described are a rotary shaft kit and an electronic device. The rotatory shaft kit includes: a rotatory shaft assembly, including a protective shell and a first bracket; two rotating assemblies and two housing assemblies. One of the two rotating assemblies is arranged on a side of the rotatory shaft assembly, and the other is arranged on another side; each rotating assembly includes a rotating plate, a first rotating member, and a second rotating member; the first rotating member is connected to the rotating plate at an end of the rotating plate, and the second rotating member is connected to the rotating plate at another end of the rotating plate. One of the two housing assemblies is arranged on the side of the rotatory shaft assembly, and the other is arranged on the another side; each housing assembly includes a second bracket and a fixing plate connected to the second bracket.

A folding displayer support and a display apparatus are provided. The folding displayer support includes a support body, the support body is provided with at least one first bending region extending in a first direction, at least one second bending region extending in a second direction, and at least one bidirectional bending region located at a position where the first bending region intersects with the second bending region, and an included angle is formed between the first direction and the second direction. The first bending region is provided with a first mesh pattern, the second bending region is provided with a second mesh pattern, the bidirectional bending region is provided with a third mesh pattern, a proportion of holes of the first mesh pattern and a proportion of holes of the second mesh pattern are less than a proportion of holes of the third mesh pattern.

A display panel and a display device are provided. Through setting an area difference between a first sub-display area and a second sub-display area in two directions of the display panel to be less than or equal to a preset value, an area difference between a force-receiving area of the first sub-display area and a force-receiving area of the second sub-display area will be less than or equal to a preset value such that force exerted on the first sub-display area and the second sub-display area is uniform, preventing concentrated force on one side of the display panel from causing the display panel to break.

An electronic device includes a display assembly for displaying images and including a first part and a second part disposed at different sides of a first deformable part of the display assembly, where a first deformability of at least a part of the display assembly includes capability to change a relative angle between the first part and the second part; and a fixing assembly coupled to the display assembly for fixedly connect the display assembly, the fixing assembly including at least a first fixing element. At least a part of at least one of the first fixing element or the display assembly has a second deformability including capability to change a length in a preset direction.

A portable device (e.g., a wireless device such as a cell phone) is provided with a flexible keyboard and a flexible display screen. Such flexible components may be stored in the housing of the portable device when not in use. The flexible display screen and flexible keyboard may be expanded from the housing when the flexible components are utilized by a user. Non-flexible display and input components may be provided on the exterior of the portable device such that the device may be used, in some form, while the flexible components are stored. In one embodiment, a portion of the flexible display (or flexible keyboard) may be utilized when the flexible display (or flexible keyboard) is stored in said first housing.

The present disclosure relates to the field of display technologies, and discloses a display panel, a preparing method thereof, and a display device. The display panel has a bending area, and the display panel includes a sensing component; the sensing component includes a differential bridge connection circuit composed of a first strain sensor, a second strain sensor, a third strain sensor, and a fourth strain sensor; the first strain sensor, the second strain sensor, the third strain sensor, and the fourth strain sensor are resistance transducers, and are located in the bending area; the first strain sensor and the fourth strain sensor constitute first opposite bridge arms; the second strain sensor and the third strain sensor constitute second opposite bridge arms, and the first opposite bridge arms and the second opposite bridge arms are separately located on two sides of a neutral layer of the display panel.

A display device including a display module including a first non-folding area, a second non-folding area, and a folding area disposed between the first and second non-folding areas, a first support part disposed below the first non-folding area, a second support part disposed below the second non-folding area, a hinge part disposed below the folding area, a sheet part disposed between the folding area and the hinge part, and a support plate disposed between the sheet part and the hinge part, the support plate having a plurality of openings overlapping a portion of the hinge part in a plan view.