Disclosed are a display substrate, driving method and a display device. The display substrate includes: a substrate base including a first display area and a second display area; the plurality of light-emitting devices include a plurality of first light-emitting devices in the first display area and a plurality of second light-emitting devices in the second display area, and the density of the plurality of first light-emitting devices in the first display area is less than or equal to that of the plurality of second light-emitting devices in the second display area; and the plurality of ambient sensors are in the first display area and below at least part of the first light-emitting devices, and the orthographic projections of the ambient sensor on the substrate base covers and is greater than the orthographic projections of the corresponding first light-emitting devices on the substrate base.

A light emitting device may include a substrate. A light emitting element layer may be disposed on the substrate and may include light emitting elements having a rod shape. A color conversion layer may be disposed on the light emitting element layer and may include color conversion elements having a rod shape. A first alignment direction of the light emitting elements and a second alignment direction of the color conversion elements may be substantially parallel to each other or intersect at a predetermined angle.

The present disclosure provides a display apparatus, a display panel and a method of preparing the same. A display panel includes: a base substrate; and a plurality of light-emitting units provided on the base substrate, where each of the light-emitting units includes a first electrode, a first semiconductor layer, a light-emitting layer, a second semiconductor layer, and a second electrode which are stacked, the first electrode is provided on a side of the second electrode facing away from the base substrate, and the plurality of light-emitting units share a common first electrode. The present disclosure can improve display resolution.

The display device can include a substrate, a first assembling wiring on the substrate, a second assembling wiring on the first assembling wiring, an insulating layer between the first assembling wiring and the second assembling wiring, a partition wall disposed on the second assembling wiring and having an assembly hole, and a semiconductor light-emitting device in the assembly hole. A part of the second assembling wiring can be disposed at a center of the assembly hole, and a width of a part of the second assembling wiring can be smaller than a diameter of the assembly hole.

A display panel is disclosed and includes a driving backplane, a plurality of light-emitting devices and an encapsulation structure. The plurality of light-emitting devices are located on a first side of the driving backplane and are disposed at intervals. A light-emitting device includes a device main body and device pins. The device main body includes a light-emitting portion, and the device pins are electrically connected to the driving backplane. The encapsulation structure is located on the first side of the driving backplane and includes a light-shielding pattern and a plurality of encapsulation portions. The light-shielding pattern has a plurality of accommodation regions, an accommodation region exposes at least one light-emitting device. At least part of an encapsulation portion is located in the accommodation region and covers the light-emitting device. A light-emitting portion of at least one light-emitting device is located in the accommodation region.

According to one aspect of the present disclosure, there may be provided a display device including: a display board; a plurality of light sources supported by the display board to generate light; and an electrode body electrically connecting the display board and the plurality of light sources, a peak wavelength difference of the light emitted from the plurality of light sources being 5 nm or less.

An electronic device includes a sustaining layer, a substrate, a plurality of photoelectric units, and a plurality of signal layers. The substrate is arranged on a contact surface of the sustaining layer. A first end edge of the substrate approaches a first end edge of the sustaining layer, and a second end edge of the substrate approaches a second end edge of the sustaining layer. The sustaining layer and the substrate are arranged in one on one manner. The photoelectric units are arranged on a first surface or/and a second surface of the substrate. The signal layers are arranged on the substrate and electrically connected to the photoelectric units.

An electronic device includes a sustaining layer, a substrate, a plurality of photoelectric units, and a plurality of signal layers. The substrate is arranged on a contact surface of the sustaining layer. A first end edge of the substrate approaches a first end edge of the sustaining layer, and a second end edge of the substrate approaches a second end edge of the sustaining layer. The sustaining layer and the substrate are arranged in one on one manner. The photoelectric units are arranged on a first surface or/and a second surface of the substrate. The signal layers are arranged on the substrate and electrically connected to the photoelectric units.

The display device includes at least one semiconductor light emitting device, a first color conversion pattern, a second color conversion pattern, and a light transmitting pattern. At least one semiconductor light emitting device is arranged on each of the first sub-pixel, the second sub-pixel, and the third sub-pixel. The first color conversion pattern is arranged on at least one semiconductor device corresponding to the first sub-pixel and includes first color conversion particles. The second color conversion pattern is arranged on at least one semiconductor device corresponding to the second sub-pixel and includes second color conversion particles. The light transmitting pattern is arranged on at least one semiconductor device corresponding to the third sub-pixel. The area of the first color conversion pattern, the area of the second color conversion pattern, and the area of the light transmitting pattern are different.

The display device includes at least one semiconductor light emitting device, a first color conversion pattern, a second color conversion pattern, and a light transmitting pattern. At least one semiconductor light emitting device is arranged on each of the first sub-pixel, the second sub-pixel, and the third sub-pixel. The first color conversion pattern is arranged on at least one semiconductor device corresponding to the first sub-pixel and includes first color conversion particles. The second color conversion pattern is arranged on at least one semiconductor device corresponding to the second sub-pixel and includes second color conversion particles. The light transmitting pattern is arranged on at least one semiconductor device corresponding to the third sub-pixel. The area of the first color conversion pattern, the area of the second color conversion pattern, and the area of the light transmitting pattern are different.