An optical film to visually reduce frame size of individual display units within a single large display includes four film portions connected to each other to form a rectangular frame of each individual display unit. Each film portion has strip-shaped micro-structures of triangular cross-section, and includes a bottom surface, a first side surface, and a second side surface. The bottom surfaces of the micro-structures are connected to each other. The first side surfaces and the second side surfaces are obliquely connected, the second side surface of one micro-structure being at the outermost side of each film portion. Angle θ.sub.1 between the first side and bottom surface of each micro-structure is less than angle θ.sub.2 between the first side surface and the second side surface and the sum of first and second angles θ.sub.1 and θ.sub.2 is less than 90°.

An optical film to visually reduce frame size of individual display units within a single large display includes four film portions connected to each other to form a rectangular frame of each individual display unit. Each film portion has strip-shaped micro-structures of triangular cross-section, and includes a bottom surface, a first side surface, and a second side surface. The bottom surfaces of the micro-structures are connected to each other. The first side surfaces and the second side surfaces are obliquely connected, the second side surface of one micro-structure being at the outermost side of each film portion. Angle θ.sub.1 between the first side and bottom surface of each micro-structure is less than angle θ.sub.2 between the first side surface and the second side surface and the sum of first and second angles θ.sub.1 and θ.sub.2 is less than 90°.

A display device, a heat dissipation layer, an electronic device, and a method for manufacturing a display device are provided. The display device includes: a silicon-based organic light-emitting display panel, including a silicon substrate, a first electrode of a display element, an organic light-emitting layer, and a second electrode of the display element that are stacked sequentially; a flexible printed circuit board electrically connected to the silicon substrate; and a heat dissipation layer on a non-display side of the silicon-based organic light-emitting display panel, extending to the flexible printed circuit board to cover at least a part of the flexible printed circuit board. A gate drive circuit, a data drive circuit, and a pixel circuit are integrated on the silicon substrate, and the flexible printed circuit board is configured to transmit electrical signals to the gate drive circuit, the data drive circuit, and the second electrode of the display element.

Display device includes a display panel. The display panel includes a first substrate, a sealant, and, a second substrate fastended to the first substrate via the sealant. At least one of the first substrate and the second substrate is a non-planar substrate including at least two portions correspondingly extending in different planes.

Display device includes a display panel. The display panel includes a first substrate, a sealant, and, a second substrate fastended to the first substrate via the sealant. At least one of the first substrate and the second substrate is a non-planar substrate including at least two portions correspondingly extending in different planes.

The present disclosure discloses a method and apparatus for always-on display, and a computer-readable storage medium. The method includes: acquiring a plurality of content elements, a plurality of element meanings and a plurality of storage locations required for the always-on display, where each content element corresponds to an element meaning and a storage location; determining target information content, where the target information content needs to be displayed through an always-on display function; acquiring a content element required for displaying the target information content from the plurality of content elements based on the target information content, the plurality of element meanings, and the plurality of storage locations; and displaying the target information content through the always-on display function based on the acquired content element.

A display device, a heat dissipation layer, an electronic device, and a method for manufacturing a display device are provided. The display device includes: a silicon-based organic light-emitting display panel, including a silicon substrate, a first electrode of a display element, an organic light-emitting layer, and a second electrode of the display element that are stacked sequentially; a flexible printed circuit board electrically connected to the silicon substrate; and a heat dissipation layer on a non-display side of the silicon-based organic light-emitting display panel, extending to the flexible printed circuit board to cover at least a part of the flexible printed circuit board. A gate drive circuit, a data drive circuit, and a pixel circuit are integrated on the silicon substrate, and the flexible printed circuit board is configured to transmit electrical signals to the gate drive circuit, the data drive circuit, and the second electrode of the display element.

A display device according to an embodiment of the present disclosure includes a display including an active area on which an image is displayed and a bezel covering edges of the display so that the bezel covers a part of the active area of the display. The bezel includes a transparent part that covers the part of the active area of the display and internally transports light emitted from the covered part of the active area of the display by reflecting the light, emitted from the covered part of the active area of the display, inside the transparent part and a reflection part including a reflection surface disposed parallel to one surface of the transparent part and reflecting light transmitted from the transparent part back into the transparent part.

A display device according to an embodiment of the present disclosure includes a display including an active area on which an image is displayed and a bezel covering edges of the display so that the bezel covers a part of the active area of the display. The bezel includes a transparent part that covers the part of the active area of the display and internally transports light emitted from the covered part of the active area of the display by reflecting the light, emitted from the covered part of the active area of the display, inside the transparent part and a reflection part including a reflection surface disposed parallel to one surface of the transparent part and reflecting light transmitted from the transparent part back into the transparent part.

A display device includes a display module, a rear cover that covers the rear surface of the display module, a main circuit board placed in an internal space formed between the rear cover and the rear surface of the display module, flexible wiring members that mutually connects the display module and the main circuit board, and a male screw having a head exposed to the outside of the rear cover, the male screw passing through the rear cover and engaging a female screw formed in the main circuit board. The main circuit board is fixed to the rear cover with the male screw in a state in which the main circuit board is not fixed to the display module.