A semiconductor device is provided, which includes an active structure, a first semiconductor layer, a second semiconductor layer, an insulating layer, and a conductive layer. The active region has two sides and includes an active region. The first semiconductor layer and the second semiconductor layer respectively located on the two sides of the active structure. The insulating layer covers a portion of the first semiconductor layer. The conductive layer covers the insulating layer and physically contacts the first semiconductor layer. The second semiconductor layer includes a first dopant and the first semiconductor layer includes a second dopant different from the first dopant. The first semiconductor layer includes a quaternary III-V semiconductor material, and the active region includes a quaternary semiconductor material, and the semiconductor device emits a radiation having a peak wavelength between 800 nm and 2000 nm.

The present disclosure provides a light-emitting device, comprising: a light-emitting stack; a first semiconductor layer on the light-emitting stack; a first electrode formed on the first semiconductor layer and comprising an inner segment, an outer segment, and a plurality of extending segments electrically connecting the inner segment with the outer segment.

A semiconductor light-emitting device comprises an epitaxial structure for emitting a light and comprises an edge, a first portion and a second portion surrounding the first portion, wherein a concentration of a doping material in the second portion is higher than that of the doping material in the first portion, a main light-extraction surface on the epitaxial structure and comprises a first light-extraction region corresponding to the first portion and a second light-extraction region corresponding to the second portion and an edge, wherein the second portion is between the edge and the first portion.

The present disclosure provides a light-emitting device, comprising: a light-emitting stack comprising an active layer, wherein the active layer is configured to emit light; a first semiconductor layer on the light-emitting stack; a first electrode formed on the first semiconductor layer and comprising an inner segment, an outer segment, and a plurality of extending segments electrically connecting the inner segment with the outer segment; and a light-absorbing layer having a first portion surrounding the first semiconductor layer in a top view.

Disclosed are a light emitting device and a light emitting device package. The light emitting device includes a light emitting structure including a first conductive semiconductor layer, an active layer on the first conductive semiconductor layer and a second conductive semiconductor layer on the active layer; a first electrode pad on the first conductive semiconductor layer; a second electrode pad on the second conductive semiconductor layer; and a current blocking pattern overlapping an edge of at least one of the first and second electrode pads.

LED structures are disclosed to reduce non-radiative sidewall recombination along sidewalls of vertical LEDs including p-n diode sidewalls that span a top current spreading layer, bottom current spreading layer, and active layer between the top current spreading layer and bottom current spreading layer.

The present invention relates to a light-emitting diode (LED) which comprises multiple point-like transparent conductive electrodes, a dielectric layer, and an epitaxial composite layer. The dielectric layer is disposed around each point-like transparent conductive electrode. The epitaxial composite layer comprises a carbon-doped gallium arsenide epitaxial layer. The carbon-doped gallium arsenide epitaxial layer is disposed both on each point-like transparent conductive electrode and the dielectric layer and electrically connected to each point-like transparent conductive electrode.

The present disclosure provides a light-emitting device, comprising: a light-emitting stack comprising an active layer, wherein the active layer is configured to emit light; a first semiconductor layer on the light-emitting stack; a first electrode formed on the first semiconductor layer and comprising an inner segment, an outer segment, and a plurality of extending segments electrically connecting the inner segment with the outer segment; and a light-absorbing layer having a first portion surrounding the first semiconductor layer in a top view.

Provided is a semiconductor light device comprising a semiconductor substrate having a first conduction type; a first cladding layer having the first conduction type deposited above the semiconductor substrate; an active layer; a second cladding layer having a second conduction type; and a contact layer. The active layer includes a window portion that is disordered via diffusion of vacancies and a non-window portion having less disordering than the window portion, and the contact layer includes a first region and a second region that is below the first region and has greater affinity for hydrogen than the first region.

A light emitting device includes an active layer capable of producing light when current is injected thereinto, a first cladding layer and a second cladding layer that sandwich the active layer, a first electrode electrically connected to the first cladding layer, and a second electrode electrically connected to the second cladding layer. The active layer forms an optical waveguide that guides the light produced in the active layer. The optical waveguide has a window section that is provided in an end portion of the optical waveguide and has a band gap wider than the band gap of the active layer. The carrier concentration of a first layer provided between the window section and the second electrode is lower than the carrier concentration of the second cladding layer.