An organic light emitting device (OLED) comprises a substrate layer, a sub-electrode microlens array (SEMLA) at least partially embedded in the substrate layer comprising a plurality of microlenses, a first electrode layer over the substrate layer, a light emitting layer over the first electrode layer, and a second electrode layer over the light emitting layer. The device can further include a distributed Bragg reflector (DBR) layer between the substrate and first electrode layers and/or a Purcell Factor (PF) enhancement layer over the second electrode layer, comprising at least one layer pair including a silver mirror electrode and a metal-dielectric layer. Related methods are also disclosed.

An organic light emitting display device has a plurality of first electrodes, intermediate layers, and second electrodes that correspond to a plurality of pixel areas. The first electrodes are spaced from one another, the second electrodes are spaced from one another, and the intermediate layers are spaced from one another. A conductive protection layer is formed over the second electrodes, and a connection electrode layer is formed over the conductive protection layer and electrically connecting the second electrodes.

An organic light emitting display device has a plurality of first electrodes, intermediate layers, and second electrodes that correspond to a plurality of pixel areas. The first electrodes are spaced from one another, the second electrodes are spaced from one another, and the intermediate layers are spaced from one another. A conductive protection layer is formed over the second electrodes, and a connection electrode layer is formed over the conductive protection layer and electrically connecting the second electrodes.

A display apparatus having high external light transmittance and a manufacturing method of the display apparatus are provided, wherein the display apparatus does not substantially include a common electrode in a transmission region. Particularly, a display apparatus includes a first substrate, a second substrate facing the first substrate, and a display unit interposed between the first substrate and the second substrate.

Micro light-emitting diode displays having hybrid inorganic-organic pixel structures and methods of fabricating micro light-emitting diode displays having hybrid inorganic-organic pixel structures are described. In an example, a micro light emitting diode pixel structure includes a plurality of inorganic micro light emitting diode devices in a dielectric layer. An organic light emitting diode device is in the dielectric layer and laterally adjacent to the plurality of inorganic micro light emitting diode devices. A transparent conducting oxide layer is above the dielectric layer and can act as a common cathode electrode for the inorganic and organic light emitting diodes.

An organic light emitting device including: a substrate; a first electrode; a second electrode; and an organic layer interposed between the first electrode and the second electrode and including an emission layer, wherein one of the first electrode and the second electrode is a reflective electrode and the other is a semitransparent or transparent electrode, and wherein the organic layer includes a layer having at least one of the compounds having at least one carbazole group, and a flat panel display device including the organic light emitting device. The organic light emitting device has low driving voltage, excellent current density, high brightness, excellent color purity, high efficiency, and long lifetime.

The present application provides a display screen, a display device and a method of manufacturing the display screen, and relates the field of display technology. The display screen includes an array substrate, an anode layer, a light-emitting layer and a cathode layer which are stacked in sequence; the light-emitting layer includes a plurality of light-emitting units and a pixel definition layer separating the light-emitting units from each other, and the pixel definition layer is a transparent layer; the cathode layer is provided with a hollow-out area corresponding to the pixel definition layer, the hollow-out area has a semitransparent portion and a light transmitting portion penetrating through the cathode layer. The present application can improve the transmittance of the cathode layer corresponding to the pixel definition layer by disposing the light transmitting portion, thereby improving an effect of the photosensitive element acquiring an image.

A display substrate including a plurality of light emitting elements respectively in a plurality of subpixels configured to emit light for image display is provided. A respective one of the plurality of subpixels includes a base substrate; a first auxiliary cathode; a passivation layer; a first insulating layer; a second auxiliary cathode; a second insulating layer; and a pixel definition layer. The display substrate has a cathode aperture extending through the pixel definition layer and an auxiliary cathode aperture extending through the first insulating layer and the passivation layer. A cathode of a respective one of the plurality of light emitting elements extends into the cathode aperture to electrically connect with the second auxiliary cathode. The second auxiliary cathode extends into the auxiliary cathode aperture to electrically connect with the first auxiliary cathode.

Provided are a display apparatus and a method of manufacturing the same. The display apparatus includes a substrate, a plurality of light-emitting elements on the substrate, a passivation layer covering the light-emitting elements, and a plurality of pixel circuits on the passivation layer and connected to the light-emitting elements, respectively. The light-emitting elements each include a first electrode integrally provided with the light-emitting elements on the substrate, an emission layer in an opening of a pixel-defining layer on the first electrode, and a second electrode on the emission layer.

A transparent conductive film includes a metal chalcogenide compound doped with a halogen and having a sheet resistance at room temperature of less than or equal to about 60 ohm/sq.