A light-emitting element includes: an anode; a hole transport layer of a p-type semiconductor; a n-type semiconductor layer containing a Group 13 element; a light-emitting layer containing quantum dots; an electron transport layer; and a cathode, arranged in this order.

A light-emitting device includes a substrate comprising a base member, a first wiring, a second wiring, and a via hole; at least one light-emitting element electrically connected to and disposed on the first wiring; and a covering member having light reflectivity and covering a lateral surface of the light-emitting element and a front surface of the substrate. The base member defines a plurality of depressed portions separated from the via hole in a front view and opening on a back surface and a bottom surface of the base member. The substrate includes a third wiring covering at least one of inner walls of the plurality of depressed portions and electrically connected to the second wiring. A depth of each of the plurality of depressed portions defined from the back surface toward the front surface is larger on a bottom surface side than on an upper surface side of the base member.

A light-emitting device includes a substrate comprising a base member, a first wiring, a second wiring, and a via hole; at least one light-emitting element electrically connected to and disposed on the first wiring; and a covering member having light reflectivity and covering a lateral surface of the light-emitting element and a front surface of the substrate. The base member defines a plurality of depressed portions separated from the via hole in a front view and opening on a back surface and a bottom surface of the base member. The substrate includes a third wiring covering at least one of inner walls of the plurality of depressed portions and electrically connected to the second wiring. A depth of each of the plurality of depressed portions defined from the back surface toward the front surface is larger on a bottom surface side than on an upper surface side of the base member.

Reflective bank structures for light emitting devices are described. The reflective bank structure may include a substrate, an insulating layer on the substrate, and an array of bank openings in the insulating layer with each bank opening including a bottom surface and sidewalls. A reflective layer spans sidewalls of each of the bank openings in the insulating layer.

Reflective bank structures for light emitting devices are described. The reflective bank structure may include a substrate, an insulating layer on the substrate, and an array of bank openings in the insulating layer with each bank opening including a bottom surface and sidewalls. A reflective layer spans sidewalls of each of the bank openings in the insulating layer.

An optoelectronic device includes an optoelectronic semiconductor chip having a first and a second semiconductor layer having a first and second conductivity type, respectively; a first and a second current spreading layer; a dielectric reflective layer; and a plurality of first electrical connecting elements. The first semiconductor layer and the second semiconductor layer are stacked. The first current spreading layer and the second current spreading layer are arranged on a side of the first semiconductor layer facing away from the second semiconductor layer. The dielectric reflective layer is arranged between the first semiconductor layer and the first current spreading layer. The plurality of first electrical connecting elements extends through the dielectric reflective layer and is suitable to electrically connect the first semiconductor layer to the first current spreading layer. The second current spreading layer is electrically connected to the second semiconductor layer.

An optoelectronic device includes an optoelectronic semiconductor chip having a first and a second semiconductor layer having a first and second conductivity type, respectively; a first and a second current spreading layer; a dielectric reflective layer; and a plurality of first electrical connecting elements. The first semiconductor layer and the second semiconductor layer are stacked. The first current spreading layer and the second current spreading layer are arranged on a side of the first semiconductor layer facing away from the second semiconductor layer. The dielectric reflective layer is arranged between the first semiconductor layer and the first current spreading layer. The plurality of first electrical connecting elements extends through the dielectric reflective layer and is suitable to electrically connect the first semiconductor layer to the first current spreading layer. The second current spreading layer is electrically connected to the second semiconductor layer.

A light emitting device includes a substrate, a light emitting element, and a light reflecting member. The substrate includes a base material having a rectangular planar shape, a connection terminal disposed on a first main surface of the base material, and an outer connection portion disposed on a second main surface of the base material opposite to the first main surface. The connection terminal includes a protruding portion, and the connection terminal is connected to the outer connection portion via a through hole defined in the base material. The light emitting element is connected to the connection terminal on the first main surface of the base material via a molten bonding material. The light reflecting member covers the light emitting element.

A light emitting device includes a substrate, a light emitting element, and a light reflecting member. The substrate includes a base material having a rectangular planar shape, a connection terminal disposed on a first main surface of the base material, and an outer connection portion disposed on a second main surface of the base material opposite to the first main surface. The connection terminal includes a protruding portion, and the connection terminal is connected to the outer connection portion via a through hole defined in the base material. The light emitting element is connected to the connection terminal on the first main surface of the base material via a molten bonding material. The light reflecting member covers the light emitting element.

Disclosed is a semiconductor light emitting device including: a body with a bottom part having at least one hole formed therein; a semiconductor light emitting device chip to be placed in each of the at least one hole, with the semiconductor light emitting device chip being comprised of a plurality of semiconductor layers including an active layer for generating light by electron-hole recombination, and an electrode electrically connected to the plurality of semiconductor layers; and an encapsulating member for covering the semiconductor light emitting device chip, wherein a holedefining inner face of the bottom part has a plurality of angles of inclination.