A pressure-sensitive adhesive composition and a use thereof are provided. The present application can provide a pressure-sensitive adhesive composition which has excellent performance to block ultraviolet rays including a blue region of 380 nm or more and exhibits excellent durability upon reliability evaluation without deteriorating the optical characteristics of a polarizing plate when applied to the polarizing plate. The pressure-sensitive adhesive composition of the present application can be used, for example, for a polarizing plate and an organic light emitting device.

The aim is to improve the bending resistance a display device. The display device in one embodiment includes a substrate including a first surface and a second surface and a curved part between the first surface and the second surface, a display element arranged on the first surface, a conducting layer connected with the display element and extending to the second surface from the first surface via the curved part, a plurality of protective layers having a lower ductility than the substrate and arranged in the substrate side and/or opposite side to the substrate side with respect to the conducting layer and along the curved part, wherein each of the plurality of protective layers spreading over the curved part, to a certain region of the first surface side from the curved part, and to a certain region of the second side from the curved part.

A display device is provided. The present disclosure allows a distance between a protective layer and a coverplate to be greater than or equal to a default value in an overlapping area of the protective layer and the coverplate, so the coverplate will not squeeze the protective layer, thereby preventing a risk of cracking the display device.

An encapsulating cover plate and a display device are provided. The encapsulating cover plate can protect a bending area of a display panel by disposing a first cover plate in the bending area, and can provide high-hardness protection to non-bending areas of the display panel by disposing second cover plates in the non-bending areas. Therefore, the encapsulating cover plate has dual characteristics of flexibility and ultra-high hardness, thereby ensuring the display panel to have effective protection and improving market competitiveness of the encapsulating cover plate at a same time.

An organic EL device (1) includes: a first substrate (11); a second substrate (12); one or more organic EL elements; and a sealing layer (14). One surface of the first substrate (11) is a mounting surface on which the one or more organic EL elements are disposed. The first substrate (11) and the second substrate (12) are laminated in such a manner that the mounting surface of the first substrate (11) and one surface of the second substrate (12) face each other with the sealing layer (14) interposed therebetween. The second substrate (12) has at least one recessed part (16) and at least one protruding part (15) in a region inside the sealing layer (14) on the surface of the second substrate (12) facing the first substrate (11), and the moisture absorbent (19) is disposed in the recessed part (16).

A display apparatus is disclosed, which comprises a substrate including a pixel array layer and a pad portion connected to the pixel array layer; a circuit film attached to the pad portion; and a coating layer provided between the pixel array layer and the circuit film on the pad portion, wherein the coating layer contains a light-shielding material, whereby flexibility of the coating layer and bond stiffness of a circuit film may be secured and the pad portion and lines may be prevented from being damaged during a laser release process.

The present disclosure relates to a protective cover including at least one transparent inorganic layer and at least one transparent adhesion layer. The transparent inorganic layer may include glass or glass ceramic. In a preferred embodiment, the inorganic layer is glass or glass ceramic. In an embodiment, the protective cover further includes a polymer layer disposed between the inorganic layer and the adhesion layer.

Disclosed is a trace structure of an organic light emitting diode display panel, including an array substrate, wherein the trace structure of the organic light emitting diode display panel includes an outer lead region disposed on a substrate of the array substrate. Two metal trace layers which are mutually insulated are disposed on the outer lead region. A bending region is configured to the outer lead region. Traces of the two metal trace layers and a center line of the bending region are arranged with a non-orthogonal included angle and the metal trace layers connect the organic light emitting diode display panel with external electrical signals.

A light-emitting element, a bonding layer, and a frame-like partition are formed over a substrate. The partition is provided to surround the bonding layer and the light-emitting element, with a gap left between the partition and the bonding layer. A pair of substrates overlap with each other under a reduced-pressure atmosphere and then exposed to an air atmosphere or a pressurized atmosphere, whereby the reduced-pressure state of a space surrounded by the pair of substrates and the partition is maintained and atmospheric pressure is applied to the pair of substrates. Alternatively, a light-emitting element and a bonding layer are formed over a substrate. A pair of substrates overlap with each other, and then, pressure is applied to the bonding layer with the use of a member having a projection before or at the same time as curing of the bonding layer.

A display apparatus includes a pixel circuit layer, a polarization layer disposed on the pixel circuit layer, an optical functional layer disposed on the polarization layer, and a reference pattern aligned with an edge of the optical functional layer.