Abstract:
Provided is a nano-structured light-emitting device including: a first type semiconductor layer; a plurality of nanostructures which are formed on the first type semiconductor layer and include nanocores, and active layers and second type semiconductor layers that enclose surfaces of the nanocores; an electrode layer which encloses and covers the plurality of nanostructures; and a plurality of resistant layers which are formed on the electrode layer and respectively correspond to the plurality of nanostructures.
Abstract:
A nano-structured light-emitting device includes a plurality of light-emitting nanostructures each having a resistant layer disposed thereon. The device includes a first semiconductor layer of a first conductivity type, and a plurality of nanostructures disposed on the first semiconductor layer. Each nanostructure includes a nanocore, and an active layer and a second semiconductor layer of a second conductivity type that enclose surfaces of the nanocores. An electrode layer encloses and covers the plurality of nanostructures A plurality of resistant layers are disposed on the electrode layer and each corresponds to a respective nanostructure of the plurality of nanostructures.
Abstract:
A light-emitting device includes a substrate including a top surface and a first side surface, wherein an area of the top surface is larger than an area of the first side surface, and a light-emitting structure on the first side surface of the substrate, the light-emitting structure having a first-conductivity-type semiconductor layer, a second-conductivity-type semiconductor layer, and an active layer between the first-conductivity-type semiconductor layer and the second-conductivity-type semiconductor layer, wherein the light-emitting structure emits a first light having a first peak wavelength, and wherein an emission area of a first light emitted through the top surface of the substrate is larger than an emission area of a first light emitted through the first side surface of the substrate.
Abstract:
A nano-structured light-emitting device including a first semiconductor layer; a nano structure formed on the first semiconductor layer. The nano structure includes a nanocore, and an active layer and a second semiconductor layer that are formed on a surface of the nanocore, and of which the surface is planarized. A conductive layer surrounds sides of the nano structure, a first electrode is electrically connected to the first semiconductor layer and a second electrode is electrically connected to the conductive layer.
Abstract:
A light-emitting diode (LED) package includes a light-emitting structure, an optical wavelength conversion layer on the light-emitting structure, and an optical filter layer on the optical wavelength conversion layer. The light-emitting structure includes a first-conductivity-type semiconductor layer, an active layer on the first-conductivity-type semiconductor layer, and a second-conductivity-type semiconductor layer on the active layer, and emits first light having a first peak wavelength. The optical wavelength conversion layer absorbs the first light emitted from the light-emitting structure and emits second light having a second peak wavelength different from the first peak wavelength. The optical filter layer reflects the first light emitted from the light-emitting structure and transmits the second light emitted from the optical wavelength conversion layer.
Abstract:
A three-dimensional (3D) light-emitting device may include a plurality of 3D light-emitting structures formed apart from one another, each 3D light-emitting structure including: a semiconductor core vertically grown on one surface and doped in a first conductive type; an active layer formed so as to surround a surface of the semiconductor core; and a first semiconductor layer formed so as to surround a surface of the active layer and doped in a second conductive type. The 3D light-emitting device may include: a first porous insulating layer formed between lower corner portions of the 3D light-emitting structures so as to expose upper end portions of the 3D light-emitting structures; a first electrode electrically connected to the first semiconductor layer; and a second electrode electrically connected to the semiconductor core.
Abstract:
A light-emitting diode (LED) package includes a light-emitting structure, an optical wavelength conversion layer on the light-emitting structure, and an optical filter layer on the optical wavelength conversion layer. The light-emitting structure includes a first-conductivity-type semiconductor layer, an active layer on the first-conductivity-type semiconductor layer, and a second-conductivity-type semiconductor layer on the active layer, and emits first light having a first peak wavelength. The optical wavelength conversion layer absorbs the first light emitted from the light-emitting structure and emits second light having a second peak wavelength different from the first peak wavelength. The optical filter layer reflects the first light emitted from the light-emitting structure and transmits the second light emitted from the optical wavelength conversion layer.
Abstract:
A method of manufacturing a light-emitting diode (LED) includes preparing a substrate, forming a plurality of semiconductor light-emitting units on the substrate, each of the plurality of semiconductor light-emitting units protruding from the substrate and including a first conductive semiconductor layer, and an active layer and a second conductive semiconductor layer, the active layer and the second conductive semiconductor layer sequentially covering the first conductive semiconductor layer, dipping the semiconductor light-emitting units into an aqueous solution containing metal salt and an alkaline ligand compound, and forming an electrode layer on the plurality of semiconductor light-emitting units, wherein the forming the electrode layer includes maintaining a temperature of the aqueous solution between about 40° C. and about 200° C.
Abstract:
A nano-structured light-emitting device including a first semiconductor layer; a nano structure formed on the first semiconductor layer. The nano structure includes a nanocore, and an active layer and a second semiconductor layer that are formed on a surface of the nanocore, and of which the surface is planarized. A conductive layer surrounds sides of the nano structure, a first electrode is electrically connected to the first semiconductor layer and a second electrode is electrically connected to the conductive layer.
Abstract:
A light-emitting device includes a first conductive semiconductor layer formed on a substrate, a mask layer formed on the first conductive semiconductor layer and having a plurality of holes, a plurality of vertical light-emitting structures vertically grown on the first conductive semiconductor layer through the plurality of holes, a current diffusion layer surrounding the plurality of vertical light-emitting structures on the first conductive semiconductor layer, and a dielectric reflector filling a space between the plurality of vertical light-emitting structures on the current diffusion layer.