A display device, an electronic apparatus and a method for manufacturing the display device are disclosed. The display device includes an array substrate and a first thin film encapsulation layer disposed on the array substrate. The array substrate is a silicon based organic light-emitting diode array substrate, and the array substrate includes a silicon substrate and a light-emitting device disposed on the silicon substrate; a second thin film encapsulation layer disposed between the light-emitting device and the first thin film encapsulation layer; and a color filter layer disposed between the first thin film encapsulation layer and the second thin film encapsulation layer, at each edge of the first thin film encapsulation layer, an orthographic projection of the array substrate on a plane parallel to the array substrate extends beyond an orthographic projection of the first thin film encapsulation layer on the plane.

In manufacturing display devices having a flexible substrate, the invention allows reduction of material cost and the number of manufacturing steps, thereby reducing manufacturing cost. A display device includes: a bendable substrate 100 having thereon a display area DA and a terminal section TA; an array layer 50 formed in the displayer area DA; and an inter-layer 160 of a predetermined width formed between the array layer 50 and the terminal section TA. The inter-layer 160 does not overlap the array layer 50 and the terminal section TA.

A display apparatus includes a substrate partitioned into a central area and a peripheral area disposed adjacent to the central area. The central area includes a display area; a first insulating layer corresponding to the peripheral area of the substrate; at least one slit corresponding to a region of the first insulating layer; and a cladding layer, which covers the at least one slit, on the first insulating layer.

A display apparatus includes a substrate, a first display element, a first bank, a first functional layer, and a dummy unit. The first display element overlaps a face of the substrate. The first functional layer overlaps the first display element, is confined by at least the first bank, and includes a first base resin, first quantum dots, and first scatterers. The dummy unit overlaps no display elements of the display apparatus in a direction perpendicular to the face of the substrate and includes a first wall, a dummy-unit base resin, and dummy-unit scatterers. The dummy-unit base resin and the dummy-unit scatterers are confined by at least the first wall. A concentration of the dummy-unit scatterers in the dummy-unit base resin is greater than a concentration of the first scatterers in the first base resin.

A display panel includes a substrate, light emitting elements in a display area of the substrate, and configured to emit light, an organic encapsulation layer on the light emitting elements, a first dam in a non-display area of the substrate, and organic patterns spaced apart from each other outside the first dam in the non-display area of the substrate, and including a first organic pattern and a second organic pattern adjacent to each other and having a gap therebetween.

A method of manufacturing a flat panel display is disclosed. In one aspect, the method includes forming a plurality of display elements over a first substrate and forming over the first substrate or a second substrate a plurality of sealing units respectively surrounding the display elements. The method further c includes arranging the first and second substrates to face each other and emitting a laser beam to the sealing units so as to bond the first and second substrates. The emitting includes (a) emitting a first laser beam, from a first laser source, clockwise or counterclockwise along perimeters of the sealing units and (b) substantially simultaneously emitting a second laser beam, from a second laser source, to facing sides of adjacent ones of the sealing units.

A method of manufacturing an organic light emitting display device includes forming a plurality of display structures on a lower substrate, forming a top protection film including a plurality of top opening patterns on the lower substrate and the display structures such that the top opening patterns do not overlap the display structures, cutting the lower substrate between two adjacent display structures among the plurality of display structures along a first cutting line that is located at at least a portion of the top opening patterns, and separating the lower substrate to form a plurality of display panels each including the display structure and a portion of the lower substrate.

A display apparatus includes a substrate, a display unit on a first surface of the substrate, and a protection film on a second surface, opposite the first surface, of the substrate. The protection film includes a first adhesive layer having a first surface that faces the second surface of the substrate; a protection film base having a first surface that faces a second surface, opposite the first surface, of the first adhesive layer; and a light blocking layer having a first surface that faces a second surface, opposite the first surface of the protection film base.

A display device includes a display region, a frame region, and a curved portion. The display device includes a resin layer, a plurality of inorganic insulating films, and a metal layer. A metal pattern formed with the metal layer is formed between an edge portion of the curved portion and the display region in the frame region along a curved shape of the edge portion of the curved portion and along at least a portion of corresponding two sides of the display device. The metal pattern is electrically disconnected from a wiring line of the display region, and a width of the metal pattern decreases toward both end portions.

A display device includes: a display region including a TFT layer provided with a plurality of transistors, a light-emitting element layer provided with a plurality of light-emitting elements, and a sealing layer; and a frame region surrounding the display region. The light-emitting element includes a first electrode, an edge cover provided with an opening that exposes the first electrode and configured to cover an end portion of the first electrode, a function layer, and a second electrode. A first hydrogen adsorption film is provided at an upper layer overlying the edge cover and in contact with the edge cover. The first hydrogen adsorption film overlaps the transistor, at the adjacent light-emitting element. The first hydrogen adsorption film is provided overlapping the first electrode of the adjacent light-emitting element, with the edge cover interposed therebetween, and spanning the adjacent light-emitting element.