A display device includes a pixel electrode disposed on a substrate, light emitting elements disposed on the pixel electrode, the light emitting elements including a first semiconductor layer, an active layer, a second semiconductor layer, and a third semiconductor layer, a first via layer disposed on the substrate, and having a higher height than a height of the active layer and having a lower height than a height of the third semiconductor layer and a common electrode disposed on the first via layer and surrounding the side surfaces of the light emitting elements, the light emitting elements include two or more heterogeneous insulating layers having different refractive indices, and the heterogeneous insulating layers surround top and side surfaces of the first semiconductor layer and side surfaces of the first semiconductor layer and further surround at least a portion of a side surface of the second semiconductor layer.

A display device includes pixels, a light-blocking layer, and transistors disposed in the pixels and on the light-blocking layer. Reflective electrodes are on the transistors. Light emitting elements are disposed in the pixels and on the reflective electrodes. Power lines are on the substrate. Power lines each includes a first sub-power line extending in a first direction and disposed on a same layer as the light-blocking layer; a second sub-power line extending in a second direction different from the first direction and disposed on a same layer as electrodes of the plurality of transistors; and a third sub-power line extending in the first direction and disposed on a same layer as the plurality of reflective electrodes.

A metal stack of layers contacting an N-type layer of a light emitting diode (LED) device comprises: an ohmic contact layer electrically contacting the N-type layer and having a work function value that is less than or equal to a work function value of the N-type layer; a reflective layer electrically contacting the ohmic contact layer; a first material barrier layer electrically contacting the reflective layer; a current carrying layer electrically contacting the first material barrier layer; and a second material barrier layer electrically contacting the current carrying layer. LED devices incorporate the metal stack of layer as a bonding material and/or as an ohmic contact-reflective material. Methods of making and using the metal stacks and LED devices are also provided.

The display device includes a substrate, a first and second assembly wirings on the substrate, a partition having a hole on the first and second assembly wirings, and a semiconductor light emitting device in the hole, wherein the hole configured to have an inner side with a first obtuse angle to a lower side, and wherein the semiconductor light emitting device configured to have at least one side having a second obtuse angle with respect to the lower side.

Light emitting device includes first and second light emitting elements for visible light and third light emitting element for infrared light. Distance from upper surface of reflective layer of the first light emitting element to upper surface of lower electrode of the first light emitting element is different from distance from upper surface of reflective layer of the second light emitting element to upper surface of lower electrode of the second light emitting element. The distance from the upper surface of the reflective layer of the first light emitting element to the upper surface of the lower electrode of the first light emitting element is substantially equal to distance from upper surface of reflective layer of the third light emitting element to upper surface of lower electrode of the third light emitting element.

Disclosed is a light emitting display device and a light emitting display panel. The light emitting display device includes a first column spacer and a second column spacer disposed on a bank layer. The first column spacer has a different shape form the second column spacer, and at least one of the first column spacer and the second column spacer includes a light-shielding material. The column spacer with the light-shielding material is disposed apart from a reflective electrode of a light emitting diode so that a metal component in the reflective electrode is not reacted with a component with the light-shielding material in the column spacer. Light reflected from metal electrodes and external light is blocked by the column spacer so that the light emitting display device with beneficial luminous efficiency is realized.

A display device a substrate, a driving element above the substrate, a lower electrode above the driving element, a barrier layer entirely covering a side surface of the lower electrode, and including a polymer, and a light-emitting element above the lower electrode.

A display device includes a bank including an opening defining pixels, light emitting elements disposed in the pixels, a color conversion layer disposed on the light emitting elements in the opening, a capping layer overlapping the color conversion layer, and a color filter layer disposed on the capping layer. The color filter layer includes a low refractive material.

A method includes transferring a first subset of the first LEDs from a first substrate to a first backplane to form first subpixels in pixel regions, transferring a first subset of the second LEDs to a second backplane and separating the first subset of the second LEDs from a second substrate to leave first vacancies on the second substrate, forming an additional electrically conductive material on a second subset of second LEDs located on the second substrate after transferring the first subset of the second LEDs to the second backplane, positioning the second substrate over the first backplane, such that the first subpixels are disposed in the first vacancies, and transferring the second subset of the second LEDs to a second subset of bonding structures on the first backplane to form second subpixels in the pixel regions, while a gap exists between the first subpixels and the second substrate.

A display device includes: an anode including an exposure area and a contact area; a mirror layer overlapping with the anode; and a via located between the anode and the mirror layer. The mirror layer includes: a first barrier layer; a reflective electrode on the first barrier layer; and a second barrier layer on a portion of the reflective electrode.