An object of one embodiment of the present invention is to provide a novel display device or a display system. Another object of one embodiment of the present invention is to provide a display device or a display system which can be manufactured at low cost and can provide various functions to a user. A pixel includes light-emitting elements whose emission colors are different from each other, a light-emitting element IR, a light-receiving element PS, and an infrared light sensor IRS. An image of a fundus of an eye is captured using the light-emitting element emitting an infrared light as a light source, and imaging is performed by the light-receiving element IRS. A substrate of a display panel is manufactured using a single crystal Si substrate capable of microfabrication and higher integration.

A light-emitting device with a high resolution and favorable characteristics manufactured by a photolithography method is provided. In the light-emitting device, a first light-emitting device and a second light-emitting device are adjacent each other. The first light-emitting device includes a first EL layer, and the second light-emitting device includes a second EL layer. The first EL layer includes at least a first light-emitting layer and a first electron-transport layer, and the second EL layer includes at least a second light-emitting layer and a second electron-transport layer. The first electron-transport layer contains a first heteroaromatic compound and a first organic compound, and the second electron-transport layer contains a second heteroaromatic compound and a second organic compound. Edge portions of the first light-emitting layer and the first electron-transport layer are aligned, and edge portions of the second light-emitting layer and the second electron-transport layer are substantially aligned. The distance between the first light-emitting device and the second light-emitting device facing each other is 2 ?m to 5 ?m.

A light-emitting device with a high resolution and favorable characteristics manufactured by a photolithography method is provided. In the light-emitting device, a first light-emitting device and a second light-emitting device are adjacent each other. The first light-emitting device includes a first EL layer, and the second light-emitting device includes a second EL layer. The first EL layer includes at least a first light-emitting layer and a first electron-transport layer, and the second EL layer includes at least a second light-emitting layer and a second electron-transport layer. The first electron-transport layer contains a first heteroaromatic compound and a first organic compound, and the second electron-transport layer contains a second heteroaromatic compound and a second organic compound. Edge portions of the first light-emitting layer and the first electron-transport layer are aligned, and edge portions of the second light-emitting layer and the second electron-transport layer are substantially aligned. The distance between the first light-emitting device and the second light-emitting device facing each other is 2 ?m to 5 ?m.

A splicing display panel and a splicing display device are provided. The splicing display panel includes at least two spliced first display modules and at least one second display module. There is a seam between two adjacent first display modules. A portion of the first display module corresponding to a bezel area is provided with an accommodating slot. The accommodating slot of one of the first display modules is spliced with the accommodating slot of another one of the first display modules to form an accommodating cavity. The at least one second display module is arranged in the accommodating cavity, and the second display module covers the seam.

A splicing display panel and a splicing display device are provided. The splicing display panel includes at least two spliced first display modules and at least one second display module. There is a seam between two adjacent first display modules. A portion of the first display module corresponding to a bezel area is provided with an accommodating slot. The accommodating slot of one of the first display modules is spliced with the accommodating slot of another one of the first display modules to form an accommodating cavity. The at least one second display module is arranged in the accommodating cavity, and the second display module covers the seam.

A display apparatus having a novel structure is provided. A plurality of display panels, a fixing member having a curved surface, and a housing storing the fixing member are included. The display panel includes a display portion including a pixel circuit, a non-display portion provided to surround the display portion, a gate driver circuit for driving the pixel circuit, and a source driver circuit. The gate driver circuit is provided at a position overlapping with the display portion. The source driver circuit is provided at a position overlapping with the non-display portion. The plurality of display panels are fixed along the curved surface of the fixing member.

A display apparatus having a novel structure is provided. A plurality of display panels, a fixing member having a curved surface, and a housing storing the fixing member are included. The display panel includes a display portion including a pixel circuit, a non-display portion provided to surround the display portion, a gate driver circuit for driving the pixel circuit, and a source driver circuit. The gate driver circuit is provided at a position overlapping with the display portion. The source driver circuit is provided at a position overlapping with the non-display portion. The plurality of display panels are fixed along the curved surface of the fixing member.

Embodiments of the present disclosure provide a display substrate, a related display motherboard, and a related display panel. The display substrate has a central region and a peripheral region surrounding the central region. The display substrate includes a substrate, a dielectric layer located on the substrate and including a first portion and a second portion arranged in sequence in a direction perpendicular to the substrate, a pad located within the peripheral region and on a surface of the second portion on a side away from the substrate, and a conductive sealing part located within the peripheral region and in the dielectric layer, wherein the conductive sealing part includes at least a first portion adjacent to the pad in a direction parallel to the substrate, and wherein the first portion of the conductive sealing part is covered by the second portion of the dielectric layer.

Embodiments of the present disclosure provide a display substrate, a related display motherboard, and a related display panel. The display substrate has a central region and a peripheral region surrounding the central region. The display substrate includes a substrate, a dielectric layer located on the substrate and including a first portion and a second portion arranged in sequence in a direction perpendicular to the substrate, a pad located within the peripheral region and on a surface of the second portion on a side away from the substrate, and a conductive sealing part located within the peripheral region and in the dielectric layer, wherein the conductive sealing part includes at least a first portion adjacent to the pad in a direction parallel to the substrate, and wherein the first portion of the conductive sealing part is covered by the second portion of the dielectric layer.

A display device includes a cover window; a first display module and a second display module attached to a lower surface of the cover window; a heat-dissipating plate attached to the first display module and the second display module; and a core plate disposed under the cover window and configured to receive the first display module, the second display module, and the heat-dissipating plate thereon, wherein a heat-dissipating plate includes: a first flat portion attached to the first display module; a second flat portion attached to the second display module; and a bridge connecting the first flat portion and the second flat portion to each other and having a shape different from a shape of each of the first flat portion and the second flat portion.