Patent application number | Description | Published |
20130313515 | LIGHT EMITTING DIODE WITH MULTIPLE QUANTUM WELL STRUCTURE - An exemplary light emitting diode includes a first type semiconductor layer, a second type semiconductor layer, and a multi quantum well layer sandwiched between the first and second type semiconductor layers. The multi quantum well layer includes a first barrier layer, a second barrier layer, two well layers sandwiched between the first and second barrier layers, and a third barrier layer sandwiched between the two well layers. The first and second barrier layers each have an energy level of conduction band higher than that of the third barrier layer. The first and second barrier layers each have an energy level of valence band higher than that of the third barrier layer. | 11-28-2013 |
20140014899 | MULTI-QUANTUM WELL STRUCTURE AND LIGHT EMITTING DIODE HAVING THE SAME - A multi-quantum well structure includes two first barrier layers, two well layers sandwiched between the two first barrier layers, and a doped second barrier layer sandwiched between the two well layers. The second barrier layer has its conduction band and forbidden band gradually transiting to those of one of the well layers, and a dopant concentration of the second barrier layer gradually changes along a direction from one well layer to the other. The invention also relates to a light emitting diode structure having the multi-quantum well structure. | 01-16-2014 |
20140021486 | LIGHT EMITTING DIODE AND MANUFACTURING METHOD THEREOF - A light emitting diode (LED) includes a substrate and an eputaxial layer on the substrate. The epitaxial layer includes a N-type GaN-based layer, a light emitting layer, and a P-type GaN-based layer. The LED further includes a first electrode on the N-type GaN-based layer and a second electrode on the P-type GaN-based layer. The P-type GaN-based layer has a inactive portion, and the second electrode is located and covers the inactive portion. | 01-23-2014 |
20140065743 | METHOD OF MANUFACTURING LIGHT EMITTING DIODE DIE - An exemplary method of manufacturing a light emitting diode (LED) die includes steps: providing a preformed LED structure, the LED structure including a first substrate, and a nucleation layer, a buffer layer, an N-type layer, a muti-quantum well layer and an P-type layer formed successively on the first substrate; forming at least one insulation block on the P-type layer; forming a mirror layer on the on the P-type layer and covering the insulation block; forming a conductive second substrate on the mirror layer; removing the first substrate, the nucleation layer and the buffer layer and exposing a bottom surface of the N-type layer; and disposing one N-electrode on the exposed surface of the N-type layer. The N-electrode is located corresponding to the insulation block. | 03-06-2014 |
20140073077 | METHOD FOR EPITAXIAL GROWTH OF LIGHT EMITTING DIODE - A method for epitaxial growth of a light emitting diode, includes following steps: providing a substrate; forming a buffer layer on the substrate; forming a first epitaxial layer on the buffer layer in a first temperature; forming a second epitaxial layer on the first epitaxial layer in a second temperature lower than the first temperature, thereby forming a first rough surface on the second epitaxial layer; etching the second epitaxial layer and the first epitaxial layer until a second rough surface is formed on the first epitaxial layer; forming a mask layer on the rough surface of the first epitaxial layer; partly etching the mask layer to form a plurality of protrusions with the first epitaxial layer exposed thereamong; and forming an N-type epitaxial layer, an active layer and a P-type epitaxial layer on the first epitaxial layer in sequence. | 03-13-2014 |
20140131727 | LIGHT EMITTING DIODE CHIP AND METHOD FOR MANUFACTURING THE SAME - A method for manufacturing a light emitting diode chip includes following steps: providing a sapphire substrate, the sapphire substrate having a plurality of protrusions on an upper surface thereof; forming an un-doped GaN layer on the upper surface of the sapphire substrate, the un-doped GaN layer having an upper part covering top ends of the protrusions; forming a distributed bragg reflective layer on the un-doped GaN layer until the distributed bragg reflective layer totally covering the protrusions and the un-doped GaN layer; etching the distributed bragg reflective layer and the upper part of the un-doped GaN layer to expose the top ends of the protrusions; and forming an n-type GaN layer, an active layer, and a p-type GaN layer sequentially on the top ends of the protrusions and the distributed bragg reflective layer. An LED chip formed by the method described above is also provided. | 05-15-2014 |
20140134774 | METHOD FOR MAKING LIGHT EMITTING DIODE CHIP - A method for making a light emitting diode chip includes following steps: providing a sapphire substrate, the sapphire substrate having a plurality of protrusions on an upper surface thereof; forming an un-doped GaN layer on the upper surface of the sapphire substrate, the un-doped GaN layer partly covering the protrusions to expose a part of each of the protrusions; etching the un-doped GaN layer to expose a top end of each of the protrusions; and forming an n-type GaN layer, an active layer, and a p-type GaN layer sequentially on the top ends of the protrusions and the un-doped GaN layer. | 05-15-2014 |
20140141553 | METHOD FOR MANUFACTURING LIGHT EMITTING DIODE CHIP - A method for manufacturing a light emitting diode chip includes following steps: providing a sapphire substrate, the sapphire substrate having a plurality of protrusions on an upper surface thereof; forming an un-doped GaN layer on the upper surface of the sapphire substrate, the un-doped GaN layer totally covering the protrusions; forming a plurality of semiconductor islands on an upper surface of the un-doped GaN layer by self-organized growth, gaps being formed between two adjacent semiconductor islands to expose a part of the upper surface of the un-doped GaN layer; forming an n-type GaN layer on the exposed part of the upper surface of the un-doped GaN layer, the n-type GaN layer being laterally grown to totally cover the semiconductor islands; forming an active layer on an upper surface of the n-type GaN layer; and forming a p-type GaN layer on the active layer. | 05-22-2014 |
20140183445 | LIGHT EMITTING DIODE CHIP AND METHOD FOR MANUFACTURING THE SAME - An LED package includes a substrate, a buffer layer formed on the substrate, an epitaxial structure formed on the buffer layer, and a plurality of carbon nanotube bundles formed in the epitaxial structure. | 07-03-2014 |
20150034965 | LIGHT EMITTING DIODE AND METHOD FOR MANUFACTURING SAME - An LED includes a substrate and a semiconductor structure mounted on the substrate. A plurality of first holes and a plurality of second holes are defined in the semiconductor structure. The second holes are located above the first holes and communicate with the first holes. A method for manufacturing the LED is also provided. | 02-05-2015 |
20150287763 | PIXEL ARRAY - A pixel array includes a substrate and color filter patterns. The substrate has pixel areas. Each of the pixel areas has a first sub-pixel region, a second sub-pixel region, a third sub-pixel region and a fourth sub-pixel region. The first, the second, the third and the fourth sub-pixel regions are arranged sequentially in the clockwise direction. The color filter patterns are disposed on the pixel areas of the substrate and located in the first, the second, the third and the fourth sub-pixel regions. The color filter patterns located in the first, the second, the third and the fourth sub-pixel regions of each of the pixel areas respectively have different colors. The color filter patterns respectively disposed in four adjacent pixel areas and located in the first, the second, the third and the fourth sub-pixel regions adjacent to each other and arranged in the clockwise direction have the same color. | 10-08-2015 |
20160064613 | LIGHT EMITTING DIODE AND METHOD FOR MANUFACTURING THE SAME - A light emitting diode includes a first electrode, a second electrode and an epitaxial structure. The epitaxial structure is arranged on the first electrode, and electrically connects with the first electrode and the second electrode. The second electrode surrounds periphery of the epitaxial structure to reflect light from the epitaxial structure to emit out from the top of the epitaxial structure. This disclosure also relates to a method for manufacturing the light emitting diode. The light emitting diode and the method help solve the problem of low light efficiency of the light emitting diode. | 03-03-2016 |
Patent application number | Description | Published |
20120075882 | LIGHT EMITTING DIODE MODULE - An LED module includes an LED and a light-guiding board. The light-guiding board includes a light-incident face facing the LED, a light-emergent face, a light-reflecting face opposite to the light-emergent face, and a light-converting layer containing phosphors therein. Light emitted from the LED sequentially moves the light-incident face, the light-converting layer and the light-emergent face to leave the light-guiding board. The light-converting layer has a uniform thickness. | 03-29-2012 |
20120153332 | EPITAXIAL STRUCTURE OF AN LED AND MANUFACTURING METHOD THEREOF - An epitaxial structure of a light emitting diode (LED) includes a substrate, an epitaxial layer, and a light capturing microstructure. The substrate has a top surface. The epitaxial layer is grown on the top surface of the substrate and has a P-type semiconductor layer, an active layer, and an N-type semiconductor layer in sequence. The light capturing microstructure is positioned on an upper portion of the epitaxial layer which is distant from the substrate. A manufacturing method of an epitaxial structure of an LED is also disclosed. The light capturing microstructure includes at least a concave and an insulating material filled in the at least a concave. | 06-21-2012 |
20120164764 | METHOD FOR FABRICATING SEMICONDUCTOR LIGHTING CHIP - A method for fabricating a semiconductor lighting chip includes steps of: providing a substrate with a first block layer dividing an upper surface of the substrate into a plurality of epitaxial regions; forming a first semiconductor layer on the epitaxial regions; forming a second block layer partly covering the first semiconductor layer; forming a lighting structure on an uncovered portion of the first semiconductor layer; removing the first and the second block layers thereby defining clearances at the bottom surfaces of the first semiconductor layer and the lighting structure; and permeating etching solution into the first and second clearances to etch the first semiconductor layer and the lighting structure, thereby to form each of the first semiconductor layer and the lighting structure with an inverted frustum-shaped structure. | 06-28-2012 |
20120164773 | METHOD FOR FABRICATING SEMICONDUCTOR LIGHTING CHIP - A method for fabricating a semiconductor lighting chip includes steps of: providing a substrate; forming a first etching layer on the substrate; forming a connecting layer on the first etching layer; forming a second etching layer on the connecting layer; forming a lighting structure on the second etching layer; and etching the first etching layer, the connecting layer, the second etching layer and the lighting structure, wherein an etching rate of the first etching layer and the second etching layer is lager than that of the connecting layer and the lighting structure, thereby to form the connecting layer and the lighting structure each with an inverted frustum-shaped structure. | 06-28-2012 |
20120175628 | LIGHT EMITTING DIODES AND METHOD FOR MANUFACTURING THE SAME - An exemplary LED includes an electrode layer, an LED die, a transparent electrically conductive layer, and an electrically insulating layer. The electrode layer includes a first section and a second section electrically insulated from the first section. The LED die is arranged on and electrically connected to the second section of the electrode layer. The transparent electrically conductive layer is formed on the LED die and electrically connects the LED die to the first section of the electrode layer. The electrically insulating layer is located between the LED die and the transparent electrically conductive layer to insulate the transparent electrically conductive layer from the second section of the electrode layer. | 07-12-2012 |
20120175630 | LIGHT EMITTING DIODES AND METHOD FOR MANUFACTURING THE SAME - An LED comprises an electrode layer comprising a first a second sections electrically insulated from each other; an electrically conductive layer on the second section, an electrically conductive pole protruding from the electrically conductive layer; an LED die comprising an electrically insulating substrate on the electrically conductive layer, and a P-N junction on the electrically insulating substrate, the P-N junction comprising a first electrode and a second electrode, the electrically conductive pole extending through the electrically insulating substrate to electrically connect the first electrode to the second section; a transparent electrically conducting layer on the LED die, the transparent electrically conducting layer electrically connecting the second electrode to the first section; and an electrically insulating layer between the LED die, the electrically conductive layer, and the transparent electrically conducting layer, wherein the electrically insulating layer insulates the transparent electrically conducting layer from the electrically conductive layer and the second section. | 07-12-2012 |
20120196391 | METHOD FOR FABRICATING SEMICONDUCTOR LIGHTING CHIP - A method for fabricating a semiconductor lighting chip includes steps: providing a substrate with an epitaxial layer, the epitaxial layer comprising a first semiconductor layer, a second semiconductor layer and an active layer located between the first semiconductor layer and the second semiconductor layer; dipping the epitaxial layer into an electrolyte to etch surfaces of the epitaxial layer and form a number of holes on the epitaxial layer; and forming electrodes on the epitaxial layer. | 08-02-2012 |
20130001508 | LIGHT EMITTING DIODE - An LED comprises a substrate, a buffer layer, an epitaxial layer and a conductive layer. The epitaxial layer comprises a first N-type epitaxial layer, a second N-type epitaxial layer, and a blocking layer with patterned grooves sandwiched between the first and second N-type epitaxial layers. The first and second N-type epitaxial layers make contact each other via the patterned grooves. Therefore, the LED enjoys a uniform current distribution and a larger light emitting area. A manufacturing method for the LED is also provided. | 01-03-2013 |
20130032779 | LIGHT EMITTING DIODE AND MANUFACTURING METHOD THEREOF - A light emitting diode (LED) comprises a substrate, an epitaxial layer and an aluminum nitride (AlN) layer sequentially disposed on the substrate. The AlN layer comprises a plurality of stacks separated from each other, wherein the epitaxial layer entirely covers the plurality of stacks of the AlN layer. The AlN layer with a plurality of stacks reflects upwardly light generated by the epitaxial layer and downwardly toward the substrate to an outside of LED through a top plan of the LED. A method for forming the LED is also disclosed. | 02-07-2013 |
20130033857 | LED LIGHT BAR - An LED light bar comprises a housing, a circuit board with a plurality of separated portions located on the housing, a plurality of LED package devices disposed on the circuit board and electrically connecting to the circuit board, and a plurality of power dispensers respectively electrically connecting to the separated portions of the circuit board. The plurality of LED package devices is divided into a plurality of groups respectively on the plurality of separated portions of the circuit board, wherein the plurality of LED package devices of each of the groups forms a closed loop. Each separated portion of the circuit board includes a metal layer on the housing, an insulating layer on the metal layer and a circuit layer on the insulating layer. Each group of the LED package devices is on a corresponding circuit layer. | 02-07-2013 |
20130119421 | LIGHT EMITTING DIODE EPITAXIAL STRUCTURE AND MANUFACTURING METHOD OF THE SAME - An LED epitaxial structure includes a substrate, a buffer layer, a functional layer and a light generating layer. The buffer layer is located on a top surface of the substrate. The functional layer includes a plurality of high-temperature epitaxial layers and low-temperature epitaxial layers alternatively arranged between the buffer layer and light generating layer. A textured structure is formed in the low-temperature epitaxial layer. A SiO2 layer including a plurality of convexes is located on the textured structure to increase light extraction efficiency of the LED epitaxial structure. A manufacturing method of the LED epitaxial structure is also disclosed. | 05-16-2013 |
20130161652 | LIGHT EMITTING DIODE AND MANUFACTURING METHOD THEREOF - A light emitting diode (LED) includes a substrate, a buffer layer and an epitaxial structure. The substrate has a first surface with a patterning structure formed thereon. The patterning structure includes a plurality of projections. The buffer layer is arranged on the first surface of the substrate. The epitaxial structure is arranged on the buffer layer. The epitaxial structure includes a first semiconductor layer, an active layer and a second semiconductor layer arranged on the buffer layer in sequence. The first semiconductor layer has a second surface attached to the active layer. A distance between a peak of each the projections and the second surface of the first semiconductor layer is ranged from 0.5 μm to 2.5 μm. | 06-27-2013 |
20130234150 | LIGHT EMITTING DIODE AND MANUFACTURING METHOD THEREOF - A light emitting diode includes a substrate, a transitional layer on the substrate and an epitaxial layer on the transitional layer. The transitional layer includes a planar area with a flat top surface and a patterned area with a rugged top surface. An AlN material includes a first part consisting of a plurality of spheres and a second part consisting of a plurality of slugs. The spheres are on a top surface of the transitional layer, both at the planar area and the patterned area. The slugs are in grooves defined in the patterned area. Air gaps are formed between the slugs and a bottom surface of the epitaxial layer. The spheres and slugs of the AlN material help reflection of light generated by the epitaxial layer to a light output surface of the LED. | 09-12-2013 |
20140065745 | METHOD FOR MANUFACTURING LIGHT EMITTING DIODE - A manufacturing method for an LED (light emitting diode) includes following steps: providing a substrate; disposing a transitional layer on the substrate, the transitional layer comprising a planar area with a flat top surface and a patterned area with a rugged top surface; coating an aluminum layer on the transitional layer; using a nitriding process on the aluminum layer to form an AlN material on the transitional layer; disposing an epitaxial layer on the transitional layer and covering the AlN material, the epitaxial layer contacting the planar area and the patterned area of the transitional layer, a plurality of gaps being defined between the epitaxial layer and the slugs of the second part of the AlN material in the patterned area of the transitional layer. | 03-06-2014 |
20140106485 | METHOD FOR MANUFACTURING LIGHT EMITTING DIODES - An LED manufacturing method includes following steps: providing an LED die; providing an electrode layer having a first section and a second section electrically insulated from the first section, and arranging the LED die on the second section wherein an electrically conductive material electrical connects a bottom of the LED die with second section; forming a transparent conductive layer to electrically connect a top of the LED die with the first section; providing a base and coating an outer surface of the base with a layer of electrically conductive material, defining a continuous gap in the electrically conductive material to divide the electrically conductive material into a first electrode part, and a second electrode part, arranging the electrode layer on the base so that the first section contacts the first electrode part, and the second section contacts the second electrode part. | 04-17-2014 |
20140131656 | LIGHT EMITTING DIODE CHIP AND METHOD FOR MANUFACTURING THE SAME - A light emitting diode chip includes a sapphire substrate and a plurality of carbon nano-tubes arranged on an upper surface of the sapphire substrate. Gaps are formed between two adjacent carbon nano-tubes to expose parts of the upper surface of the sapphire substrate. An un-doped GaN layer is formed on the exposed parts of the upper surface of the sapphire substrate and covers the carbon nano-tubes. An n-type GaN layer, an active layer and a p-type GaN layer are formed on the un-doped GaN layer in sequence. A method for manufacturing the light emitting diode chip is also provided. | 05-15-2014 |
20140242738 | MANUFACTURING METHOD FOR AN LED - A manufacturing method for an LED includes providing a substrate having a buffer layer and a first N-type epitaxial layer, forming a blocking layer on the first N-type epitaxial layer, and etching the blocking layer to form patterned grooves penetrating the blocking layer to the first N-type epitaxial layer. A second N-type epitaxial layer is then formed on the blocking layer to contact the first N-type epitaxial layer; a light emitting layer, a P-type epitaxial layer and a conductive layer are thereafter disposed on the second N-type epitaxial layer; an N-type electrode is formed to electrically connect with the first N-type epitaxial layer, and a P-type electrode is formed on the conductive layer. The N-type electrode is disposed on the blocking layer and separated from the second | 08-28-2014 |
20140291689 | LIGHT EMITTING DIODE WITH WAVE-SHAPED BRAGG REFLECTIVE LAYER AND METHOD FOR MANUFACTURING SAME - An exemplary light emitting diode includes a substrate and a first undoped GaN layer formed on the substrate. The first undoped GaN layer has ion implanted areas on an upper surface thereof. A plurality of second undoped GaN layers is formed on the first undoped GaN layer. Each of the second undoped GaN layers is island shaped and partly covers at least one corresponding ion implanted area. A Bragg reflective layer is formed on the second undoped GaN layer and on portions of upper surfaces of the ion implanted areas not covered by the second undoped GaN layers. An n-type GaN layer, an active layer and a p-type GaN layer are formed on an upper surface of the Bragg reflective layer in that sequence. A method for manufacturing the light emitting diode is also provided. | 10-02-2014 |
20140306176 | LIGHT EMITTING DIODE AND METHOD FOR MANUFACTURING LIGHT EMITTING DIODES - An exemplary light emitting diode includes a substrate and a first undoped gallium nitride (GaN) layer formed on the substrate. The first undoped GaN layer defines a groove in an upper surface thereof. A distributed Bragg reflector is formed in the groove of the first undoped GaN layer. The distributed Bragg reflector includes a plurality of second undoped GaN layers and a plurality of air gaps alternately stacked one on the other. An n-type GaN layer, an active layer and a p-type GaN layer are formed on the distributed Bragg reflector and the first undoped GaN layer. A p-type electrode and an n-type electrode are electrically connected with the p-type GaN layer and the n-type GaN layer, respectively. A method for manufacturing plural such light emitting diodes is also provided. | 10-16-2014 |
20140327036 | LIGHT EMITTING DIODE CHIP AND MANUFACTURING METHOD THEREOF - A light emitting diode (LED) chip includes an N-type semiconductor layer, a compensation layer arranged on the N-type semiconductor layer, an active layer arranged on the compensation layer; and a P-type semiconductor layer arranged on the active layer. During growth of the compensation layer, atoms of an element (i.e., Al) of the compensation layer move to fill epitaxial defects in the N-type semiconductor layer, wherein the epitaxial defects are formed due to lattice mismatch when growing the N-type semiconductor. A method for manufacturing the chip is also disclosed. The compensation layer is made of a compound having a composition of Al | 11-06-2014 |
20140329347 | METHOD FOR MANUFACTURING LIGHT EMITTING DIODES - An exemplary method for manufacturing a light emitting diode includes following steps: providing a substrate; growing an undoped GaN layer on the substrate, the undoped GaN layer comprising an upper surface away from the substrate and a lower surface contacting the substrate; etching the upper surface of the undoped GaN layer to form a plurality of cavities; growing an Distributed Bragg Reflector layer on the upper surface of the undoped GaN layer; and forming sequentially an N-type GaN layer, an active layer and a P-type GaN layer on the Distributed Bragg Reflector layer. | 11-06-2014 |
20150041823 | LED DIE AND METHOD OF MANUFACTURING THE SAME - An LED die includes a substrate, a first buffer layer, a second buffer layer, a plurality of nanospheres, a first semiconductor layer, an active layer and a second semiconductor layer. The first buffer layer, the second buffer layer, the first semiconductor layer, the active layer and the second semiconductor layer are formed successively on the substrate. The substrate has a plurality of protrusions formed on a surface thereof. The nanospheres are located on the first buffer layer formed on the protrusions and covered by the second buffer layer. The present disclosure also provides a method of manufacturing an LED die. | 02-12-2015 |
20150048302 | LIGHT EMITTING DIODE HAVING CARBON NANOTUBES THEREIN AND METHOD FOR MANUFACTURING THE SAME - A light emitting diode includes a substrate, an un-doped GaN layer, a plurality of carbon nanotubes, an N-type GaN layer, an active layer formed on the N-type GaN layer, and a P-type GaN layer formed on the active layer. The substrate includes a first surface and a second surface opposite and parallel to the first surface. A plurality of convexes is formed on the first surface of the substrate. The un-doped GaN layer is formed on the first surface of the substrate. The plurality of carbon nanotubes is formed on an upper surface of the un-doped GaN layer. The plurality of carbon nanotubes is spaced from each other to expose a portion of the upper surface of the un-doped GaN layer. The N-type GaN layer is formed on the exposed portion of the upper surface of the un-doped GaN layer and covering the carbon nanotubes therein. | 02-19-2015 |
20150054012 | LED DIE AND METHOD OF MANUFACTURING THE SAME - An LED die includes a substrate, a first buffer layer, a second buffer layer, a plurality of nanospheres, a first semiconductor layer, an active layer and a second semiconductor layer. The first buffer layer, the second buffer layer, the first semiconductor layer, the active layer and the second semiconductor layer are formed successively on the substrate. The substrate has a plurality of protrusions on a surface thereof. The nanospheres are located on the protrusions and covered by the second buffer layer and located in the second buffer layer. The present disclosure also provides a method of manufacturing an LED die. | 02-26-2015 |
20150069323 | SINGLE PHOTON SOURCE DIE AND METHOD OF MANUFACTURING THE SAME - A single photon source die includes a first semiconductor layer, a plurality of columnar structures formed on the first semiconductor layer, a second semiconductor layer formed on the columnar structures. Each columnar structure includes a bottom layer, a single photon point layer and a connecting layer. The single photon point layer includes a plurality of single photon points. | 03-12-2015 |
20150115218 | OPTOELECTRONIC MODULE AND METHOD FOR MANUFACTURING THE SAME - An optoelectronic module includes a substrate, an LED and a laser LED formed on the substrate, simultaneously. A method for manufacturing an optoelectronic module includes following steps: providing a sapphire substrate, and forming two adoped GaN layers, an N-type GaN layer, an active layer and a P-type GaN layer on the sapphire substrate in sequence; providing a substrate and forming a metallic adhering layer on the substrate; forming an ohmic contact layer and a reflecting layer on the P-type GaN layer in series; arranging the reflecting layer on the adhering layer; stripping the sapphire substrate and the two doped GaN layers from the N-type GaN layer to form a semiconductor structure; etching a top end of the semiconductor structure to divide the semiconductor structure into a laser LED region and an LED region; forming two N-type electrodes on the LED region and an LED region, respectively. | 04-30-2015 |
20150311413 | FLIP CHIP LIGHT EMITTING DIODE AND METHOD FOR MANUFACTURING THE SAME - A flip-chip light emitting diode, including a substrate, an N-type semiconductor layer, a light emitting layer and a P-type semiconductor layer series mounted along a height direction of the flip-chip light emitting diode. A P electrode is formed on the P-type semiconductor layer and an N electrode is formed on the N-type semiconductor. A top surface of the substrate is away from the light emitting layer. A plurality of micron main portions is formed on the top surface. An outer surface of each main body has a plurality of nanometer protrusions. A method for manufacturing the flip chip light emitting diode is also provided. | 10-29-2015 |
20160064606 | EPITAXIAL SUBSTRATE, METHOD OF MANUFACTURING THE EPITAXIAL SUBSTRATE AND LIGHT EMITTING DIODE HAVING EPITAXIAL SUBSTRATE - An epitaxial substrate for growing a lighting emitting structure of a light emitting diode, includes a transparent base, a first buffer layer and a second buffer layer formed on the transparent base. The transparent base includes a first surface and a second surface opposite to the first surface. Plural protrusions are formed on the first surface of the transparent base. Each first buffer layer is formed on the outer surfaces of the plural protrusions. The second buffer layer fills in the recesses defined between two adjacent protrusions, and covers the first buffer layer. The refractive index of the first buffer layer is larger than that of the transparent base, and is less than that of the second buffer layer. This disclosure also relates a method for manufacturing the epitaxial substrate and a light emitting diode having the same. | 03-03-2016 |
20160079469 | LIGHT EMITTING DIODE CHIP AND METHOD OF MANUFACTURING SAME - A light emitting diode (LED) chip includes a first semiconductor layer, a first light emitting layer formed on the first semiconductor layer, a second light emitting layer formed on the first light emitting layer, and a second semiconductor layer formed on the second light emitting layer. The first light emitting layer emits light having a first color. The second light emitting layer emits light having a second color different from the first color. | 03-17-2016 |
20160087151 | LIGHT EMITTING DIODE DIE AND MANUFACTURING METHOD THEREOF - An LED die includes a substrate, a pre-growth layer, a first insulating layer and a light emitting structure. The pre-growth layer, the first insulating layer and the light emitting structure are formed on the structure that order. The substrate includes a first electrode, a second electrode and an insulating part. The insulating part is formed between the first electrode and the second electrode. The LED die further includes a second insulating layer and a metal layer which are formed around the pre-growth layer. The present disclosure includes a method for manufacturing the LED die. | 03-24-2016 |
20160093767 | LIGHT EMITTING DIODE AND METHOD FOR MANUFACTURING THE SAME - A light emitting diode includes a base and a semiconductor structure mounted on the base. The base includes a substrate that has a first surface and a second surface located opposite to the first surface. The first surface of the substrate forms a microstructure. The bottom of the microstructure covers the first surface. The microstructure is a plurality of mental portion bended continuously and includes a plurality of protruding structures. A top surface of each protruding structure is a flat plate. A method for manufacturing the light emitting diode is also provided. | 03-31-2016 |