Embodiments of the disclosed subject matter provide a full-color pixel arrangement for a full-color display is provided, the arrangement having a plurality of pixels, with each pixel including a first sub-pixel comprising a Group III-V inorganic emissive thin film configured to emit light of a first color, where there is at least one first sub-pixel per pixel of the full-color pixel arrangement. Each pixel may include an organic second sub-pixel and an organic third sub-pixel that are configured to emit light of a different color than the first color.

Embodiments of the disclosed subject matter provide a full-color pixel arrangement for a full-color display is provided, the arrangement having a plurality of pixels, with each pixel including a first sub-pixel comprising a Group III-V inorganic emissive thin film configured to emit light of a first color, where there is at least one first sub-pixel per pixel of the full-color pixel arrangement. Each pixel may include an organic second sub-pixel and an organic third sub-pixel that are configured to emit light of a different color than the first color.

A display device includes a first bank and a second bank spaced apart from each other on a substrate, at least one semiconductor layer disposed between the first bank and the second bank, a first electrode disposed on the first bank and electrically connected to a part of the at least one semiconductor layer, an organic functional layer disposed on another part of the semiconductor layer and comprising at least an organic light emitting layer, and a second electrode disposed on the organic functional layer.

A display apparatus includes a display area and a sub-display area. The display area includes a central display area and a plurality of edge display areas. Each of the plurality of edge display areas extends curved from the central display area. The sub-display area is disposed between adjacent edge display areas. Light is emitted at the sub-display area, and the color of the light emitted at the sub-display area is identical or similar to that of light emitted from a portion of the display area adjacent to the sub-display area.

This application provides a display, an electronic device, and a display fabrication method. The display includes a substrate; a driver circuit backplane, including a plurality of driver circuit units, where the driver circuit backplane is disposed above the substrate; a first pixel layer, including a plurality of pixels, where each pixel of the first pixel layer includes a plurality of subpixels, each subpixel of the first pixel layer includes one organic light-emitting diode OLED component, the first pixel layer is disposed above the driver circuit backplane, and the OLED component of each subpixel of the first pixel layer is connected to at least one driver circuit unit in the driver circuit backplane; and a second pixel layer, including a first electrode layer, a second electrode layer, and a plurality of pixels disposed between the first electrode layer and the second electrode layer, where each pixel of the second pixel layer includes a plurality of subpixels, each subpixel of the second pixel layer includes one micro light-emitting diode micro LED component, the second pixel layer is disposed above the substrate and surrounds the first pixel layer. The display has a narrower bezel.

A display screen, an electronic device and a manufacturing method for a display screen are provided. The display screen includes a substrate, multiple first pixel units, multiple second pixel units, and a second driving circuit. Each first pixel unit includes a first light-emitting unit and a first driving circuit configured to drive the first light-emitting unit, the first light-emitting unit is disposed on the first driving circuit and arranged in a first area together of the substrate with the first driving circuit. Each second pixel unit includes a second light-emitting unit, and the second light-emitting unit is arranged in the second area of the substrate. The second driving circuit is configured to drive the second light-emitting unit to emit light. An area of a projection of the first light-emitting unit on the substrate is smaller than an area of a projection of the second light-emitting unit on the substrate.

A display device includes a first bank and a second bank spaced apart from each other on a substrate, at least one semiconductor layer disposed between the first bank and the second bank, a first electrode disposed on the first bank and electrically connected to a part of the at least one semiconductor layer, an organic functional layer disposed on another part of the semiconductor layer and comprising at least an organic light emitting layer, and a second electrode disposed on the organic functional layer.

A curved human interface device is manufactured by thermoforming a stack. The stack comprises a front substrate formed of a transparent, first thermoplastic material; an OLED display configured to display an image through the front substrate; and a thermomechanical buffer layer formed of a transparent, second thermoplastic material arranged between the front substrate and the OLED display. Heat is applied to the stack for causing a temperature of the front substrate and buffer layer to increase to a respective processing temperature at which the first and second thermoplastic materials become pliable. The stack is thermoformed while the thermoplastic materials are pliable to form the curved human interface device. The second thermoplastic material has a lower stiffness at the respective processing temperature than the first thermoplastic material.

Embodiments of the disclosed subject matter provide a full-color pixel arrangement for a full-color display is provided, the arrangement having a plurality of pixels, with each pixel including a first sub-pixel comprising a Group III-V inorganic emissive thin film configured to emit light of a first color, where there is at least one first sub-pixel per pixel of the full-color pixel arrangement. Each pixel may include an organic second sub-pixel and an organic third sub-pixel that are configured to emit light of a different color than the first color.

The present invention relates to a color conversion device (100).