The present disclosure provides an inorganic light-emitting diode chip, a method for preparing the same, and a display substrate. The inorganic light-emitting diode chip includes: an undoped gallium nitride layer and a light-emitting unit arranged on the undoped gallium nitride layer, the light-emitting unit includes a first light-emitting subunit including a first N-type gallium nitride layer, a first multi-quantum well layer and a first P-type gallium nitride layer that are sequentially arranged, and a second light-emitting subunit including a second P-type gallium nitride layer, a second multi-quantum well layer and a second N-type gallium nitride layer that are sequentially arranged on a surface of the first P-type gallium nitride layer; an orthogonal projection of the second multi-quantum well layer on the undoped gallium nitride layer is smaller than an orthogonal projection of the first multi-quantum well layer on the undoped gallium nitride layer.

A display device includes a plurality of pixel tiles spaced apart from each other, each of the pixel tiles including a substrate and a plurality of light emitting stacked structures disposed on the substrate, in which a distance between two adjacent light emitting stacked structures in the same pixel tile is substantially equal to a shortest distance between two adjacent light emitting stacked structures of different pixel tiles.

A light-emitting element includes light-emitting diode (LED) chip with a first and second surface opposite to each other, and sidewalls connecting the first and second surface. The light-emitting element further includes a first insulation layer disposed on and covering the first surface and one part of the sidewalls. The light-emitting element further includes multiple connection pads physically contact the first surface and protruding from the first insulation layer, as well as a second insulation layer disposed on and covering the second surface and the other part of the sidewalls. The second insulation layer includes a cover portion and protrusion portions. The cover portion covers the whole second surface and the other part of the sidewalls. The protrusion portions are disposed on the sidewalls, protrude from the cover portion and extend laterally.

A light emitting element includes: a substrate; a first emission part and a second emission part disposed on the substrate, each comprising a first semiconductor layer of a first conductivity type, a second semiconductor layer of a second conductivity type, and an active layer positioned between the first semiconductor layer and the second semiconductor layer; an insulation layer covering the first emission part and the second emission part and including: a plurality of first openings that includes multiple first openings located above the first semiconductor layer of the first emission part and multiple first openings located above the first semiconductor layer of the second emission part, and a plurality of second openings that include at least one second opening located above the second semiconductor layer of the first emission part and at least one second opening located above the second semiconductor layer of the second emission part.

A multi-color light emitting pixel unit includes a substrate, and a light emitting transistor formed on the substrate. The light emitting transistor includes a bottom conductive layer formed on the substrate and a top conductive layer formed over the bottom conductive layer, an upper light emitting layer formed between the top conductive layer and the bottom conductive layer, at least one lower light emitting layer formed between the upper light emitting layer and the bottom conductive layer, and an electrical connector electrically connecting the at least one lower light emitting layer and the bottom conductive layer.

A light emitting diode (LED) array may include a first pixel and a second pixel on a substrate. The first pixel and the second pixel may include one or more tunnel junctions on one or more LEDs. The LED array may include a first trench between the first pixel and the second pixel. The trench may extend to the substrate.

A light emitting device for a display including a first LED stack, a second LED stack disposed thereunder, a third LED stack disposed thereunder and including first and second conductivity type semiconductor layers, a first bonding layer between the second and third LED stacks, a second bonding layer between the first and second LED stacks, an insulation layer between the second bonding layer and the second LED stack, lower buried layers passing through the second LED stack and the insulation layer and electrically connected to the first and second conductivity type semiconductor layers of the third LED stack, respectively, upper buried layers passing through the first LED stack and the second bonding layer and electrically connected to the lower buried layers, and upper connectors disposed on the first LED stack and including upper connectors covering and electrically connected to the upper buried layers, respectively.

A display apparatus including a display substrate, light emitting devices disposed on the display substrate, circuit electrodes disposed between the light emitting devices and the display substrate, and a transparent layer covering the light emitting devices and the circuit electrodes, in which at least one of the light emitting devices includes a first LED sub-unit configured to emit light having a first wavelength, a second LED sub-unit adjacent to the first LED sub-unit and configured to emit light having a second wavelength, a third LED sub-unit adjacent to the second LED sub-unit and configured to emit light having a third wavelength, and a substrate disposed on the third LED sub-unit, in which a difference in refractive indices between the transparent layer and air is less than a difference in refractive indices between the substrate and a semiconductor layer of the third LED sub-unit.

A light emitting device including a substrate, first and second light emitting diodes (LEDs) each including first and second semiconductor layers, a first upper electrode disposed on the second LED, electrically connected to the first LED, and insulated from the second semiconductor layer of the first LED, and a second upper electrode disposed on the second LED, electrically connected to the second LED, and insulated from the second semiconductor layer of the second LED, in which a portion of the substrate between the LEDs does not overlap the semiconductor layers, the first upper electrode has a portion electrically connected to the second semiconductor layer of the second LED and covering the first portion and portions of the LEDs, and the second upper electrode has a groove partially enclosing the portion of the first upper electrode in a plan view.

A light emitting chip including a first LED sub-unit, a second LED sub-unit disposed on the first LED sub-unit, a third LED sub-unit disposed on the second LED sub-unit, a passivation layer disposed on the third LED sub-unit, and a first connection electrode electrically connected to at least one of the first, second, and third LED sub-units, in which the first connection electrode and the third LED sub-unit form a first angle defined between an upper surface of the third LED sub-unit and an inner surface of the first connection electrode that is less than about 80°.