The present application discloses a nitride semiconductor light-emitting device and a manufacture method thereof. The nitride semiconductor light-emitting device includes an epitaxial structure, wherein the epitaxial structure has a first face and a second face opposite to the first face, the first face is a (0001) nitrogen face and located at the n type side of the epitaxial structure, the second face is located at the p type side of the epitaxial structure, the n type side of the epitaxial structure is electrically contacted with an n type electrode, the p type side is electrically contacted with a p type electrode, and a ridge waveguide structure is formed on the first face. The nitride semiconductor light-emitting device, especially a III-V nitride semiconductor laser or a super-radiance light-emitting diode, of the present application, has the advantages of low resistance, low internal loss, small threshold current, small thermal resistance and good stability and reliability and the like, and meanwhile the preparation process is simple and is easily implemented.

A semiconductor light emitting apparatus includes a semiconductor light emitting element having a first electrode and a second electrode; a substrate having first and second wiring pattern layers electrically-connected to the first and second electrodes, respectively, and multiple conductive bonding layer elements provided between the first electrode and the first wiring pattern layer and/or between the second electrode and the second wiring pattern layer.

A semiconductor light emitting apparatus includes a semiconductor light emitting element having a first electrode and a second electrode; a substrate having first and second wiring pattern layers electrically-connected to the first and second electrodes, respectively, and multiple conductive bonding layer elements provided between the first electrode and the first wiring pattern layer and/or between the second electrode and the second wiring pattern layer.

A light-emitting device includes a light-emitting element having a first upper surface serving as a light-extracting surface. A first light-transmissive member includes an inorganic material and a wavelength conversion member and has a plate shape including a first lower surface bonded to the first upper surface and a second upper surface. An outer periphery of the first lower surface is outside of an outer periphery of the first upper surface. The second upper surface is opposite to the first lower surface in a height direction along a height of the light-emitting device. The second light-transmissive member includes an inorganic material and includes a second lower surface bonded to the second upper surface and a third upper surface opposite to the second lower surface in the height direction. An outer periphery of the third upper surface is within an outer periphery of the second upper surface.

An electronic device is provided, including a substrate, a plurality of bonding pads, and a plurality of light emitting members, wherein the bonding pads are disposed on the substrate, and the light emitting members are disposed on the bonding pads. The light emitting members include a first pair of adjacent light-emitting members, a second pair of adjacent light-emitting members, and a third pair of adjacent light-emitting members. The first pair of adjacent light-emitting members, the second pair of adjacent light-emitting members, and the third pair of adjacent light-emitting members are arranged along the first direction in sequence. The first pair of adjacent light-emitting members has a first pitch, the second pair of adjacent light-emitting members has a second pitch, and the third pair of adjacent light-emitting members has a third pitch. The third pitch is greater than the second pitch, and the second pitch is greater than the first pitch.

An electronic device is provided, including a substrate, a plurality of bonding pads, and a plurality of light emitting members, wherein the bonding pads are disposed on the substrate, and the light emitting members are disposed on the bonding pads. The light emitting members include a first pair of adjacent light-emitting members, a second pair of adjacent light-emitting members, and a third pair of adjacent light-emitting members. The first pair of adjacent light-emitting members, the second pair of adjacent light-emitting members, and the third pair of adjacent light-emitting members are arranged along the first direction in sequence. The first pair of adjacent light-emitting members has a first pitch, the second pair of adjacent light-emitting members has a second pitch, and the third pair of adjacent light-emitting members has a third pitch. The third pitch is greater than the second pitch, and the second pitch is greater than the first pitch.

The present invention provides a light-emitting device comprising a first light-emitting element that emits red light, a second light-emitting element that emits green light, a third light-emitting element that emits blue light, and a color filter, where the color filter comprises a first coloring layer that selectively transmits red light, a second coloring layer that selectively transmits green light, and a third coloring layer that selectively transmits blue light, the first to third light-emitting elements respectively correspond to the first to third coloring layers, wherein each of the first to third light-emitting elements has a first electrode, an electroluminescent layer on the first electrode, and a second electrode on the electroluminescent layer, and wherein the electroluminescent layer includes a layer in contact with the second electrode, and a metal oxide or a benzoxazole derivative is included in the layer in contact with the second electrode.

The present invention provides a light-emitting device comprising a first light-emitting element that emits red light, a second light-emitting element that emits green light, a third light-emitting element that emits blue light, and a color filter, where the color filter comprises a first coloring layer that selectively transmits red light, a second coloring layer that selectively transmits green light, and a third coloring layer that selectively transmits blue light, the first to third light-emitting elements respectively correspond to the first to third coloring layers, wherein each of the first to third light-emitting elements has a first electrode, an electroluminescent layer on the first electrode, and a second electrode on the electroluminescent layer, and wherein the electroluminescent layer includes a layer in contact with the second electrode, and a metal oxide or a benzoxazole derivative is included in the layer in contact with the second electrode.

A light-emitting device includes: a substrate; a first light-emitting element row disposed on the substrate; a first wire disposed on the substrate and passing between two light-emitting elements adjacent in the first light-emitting element row; and a first bonding wire which has one end connected to one of the two light-emitting elements and another end connected to the other of the two light-emitting elements, and crosses over the first wire.

A light-emitting device includes: a substrate; a first light-emitting element row disposed on the substrate; a first wire disposed on the substrate and passing between two light-emitting elements adjacent in the first light-emitting element row; and a first bonding wire which has one end connected to one of the two light-emitting elements and another end connected to the other of the two light-emitting elements, and crosses over the first wire.