There is provided a photocurable composition including Component (A): epoxy compound, Component (B): acrylic ester compound, Component (C): isocyanate compound, Component (D): photobase generator, and Component (E): compound having a thiol group, in which Component (A) has two or more epoxy groups in one molecule, Component (B) has two or more acryloyl groups in one molecule, Component (C) has two or more isocyanate groups in one molecule, and Component (E) has two or more thiol groups in one molecule, and a ratio of a total mass of Component (A), Component (B), Component (C), and Component (D) to a mass of Component (E) is (Component (A)+Component (B)+Component (C)+Component (D)):Component (E)=74:26 to 20:80.

An electronic device includes a first substrate; a second substrate arranged opposite to the first substrate; a first electrode layer disposed on the first substrate; a second electrode layer disposed on the second substrate; a display medium layer disposed between the first electrode layer and the second electrode layer; a sealant disposed between the first electrode layer and the second electrode layer to surround the display medium layer; and a first metal element extending along a first direction, wherein the first metal element is fixed onto the first electrode layer through a conductive glue and a first insulating glue.

The present application relates to a curable composition. The curable composition of the present application exhibits excellent adhesion ability and liquid crystal orientation ability simultaneously before or after curing, so that it can be effectively applied to various optical uses.

The disclosure provides a display screen and an electronic device. A backlight module has a second notch, a frame includes a receiving space, a backlight element is received in the receiving space, the frame is connect to a display panel, a first adhesive layer covers the connection of the frame and the display panel, a supporting member is disposed between a side wall surrounded the second notch and the backlight element, a second adhesive layer is formed between the frame, the supporting member and a lower surface of the display panel, a cover plate covers the display panel.

A screen assembly, an electronic device, and a method for manufacturing the electronic device are provided. The screen assembly includes a liquid crystal panel, a backlight module, a camera, and a light-shielding adhesive layer. The backlight module is disposed on a side of the liquid crystal panel, defines a fist through hole, and includes a plastic ring disposed in the first through hole. The camera is at least partially received in the first through hole and fixed in the first through hole via the plastic ring. The light-shielding adhesive layer is disposed between the backlight module and the liquid crystal panel. A vertical projection of the light-shielding adhesive layer on the liquid crystal panel is within a vertical projection of the plastic ring on the liquid crystal panel. The light-shielding adhesive layer is operable to prevent lights leaked from the backlight module from entering a light-incident surface of the camera.

A display panel manufacturing method for solving the phenomenon of Newton's rings on a display screen is provided, including: conducting a roughening treatment to a bonding surface of a frame of a backlight module in order to improve a securing force of the frame to an adhesive layer and a film thereon; reducing a release force of a protective film from the film above the backlight module in order to reduce a pulling force to the film below the protective film and the adhesive layer below the film when peeling off the protective film from the film; and bonding the film to the frame of the backlight module with an extended bonding time in a bonding process in order to increase adhering strength between the film and the bonding surface of the frame of the backlight module.

An optical device is disclosed herein. In some embodiments, an optical device includes an active liquid crystal element, wherein the active liquid crystal element comprises two base layers, an active liquid crystal layer disposed between the two base layers, wherein the active liquid crystal layer includes a liquid crystal compound and is capable of switching between first and second oriented states, and a hard coating layer formed on one of the base layers, wherein the hard coating layer is formed on an active liquid crystal layer-facing surface or an opposite surface of the base layer, and wherein the hard coating layer having a thickness of 2 μm or more. The optical device is capable of varying transmittance, and can be used for various applications such as eyewear, for example, sunglasses or AR (augmented reality) or VR (virtual reality) eyewear, an outer wall of a building or a vehicle sunroof.

A display device and a method of manufacturing the display device are provided. The display device includes a first lamination member that includes a first area and a second area that is an area other than the first area; a bonding member disposed on one side of the first lamination member and that includes an adhesive resin; and a second lamination member disposed on the other side of the bonding member, wherein the bonding member includes a crack portion formed in at least a part of a matrix of the adhesive resin.

A screen assembly and an electronic device are provided according to the disclosure. The screen assembly includes a backlight module, a display panel, a camera module, and a light shielding member. The backlight module is stacked with the display panel and defines a mounting through hole for at least partially receiving the camera module. The light shielding member is sandwiched between the backlight module and the display panel and defines a first through hole through which the camera module extends. The light shielding member is configured to block light leakage of the display panel and the backlight module toward the camera module.

A display region of an electronic device is enlarged. Alternatively, a display region of an electronic device is protected. Alternatively, a display device for extending a display region is provided. A system includes an electronic device including a first display portion positioned on a first surface including an upper surface of a housing and a second display portion positioned on a second surface including a first side surface of the housing, and a display device including a third display portion positioned on a third surface of a support portion and a connection portion having a function of connecting with the housing and a function of reversibly changing the relative positions of the support portion and the housing between a first configuration and a second configuration. The first configuration is a configuration in which the support portion covers the first display portion such that the second display portion is visible. The second configuration is a configuration in which the support portion and the housing are opened such that the first display portion, the second display portion, and the third display portion are visible.