Patent application number | Description | Published |
20080277686 | Light emitting device and method for making the same - A light emitting diode includes: an epitaxial substrate having a roughened side and formed with alternately disposed ridges and valleys at the roughened side, each of the ridges having a roughened surface that is formed with a dense concentration of alternately disposed pits and protrusions; and an epitaxial layered structure formed on and covering the ridges and the valleys of the epitaxial substrate. A method for making the light emitting diode involves forming the epitaxial substrate with the ridges and valleys prior to the formation of the epitaxial layered structure. | 11-13-2008 |
20090212276 | LIGHT-EMITTING DIODE DEVICE AND A FABRICATION METHOD THEREOF - The present invention provides a light-emitting diode (LED) device and a fabrication method thereof. The LED device has a double-layered contact layer structure with a surface of one contact layer being patterned to increase ohmic contact area of the double-layered contact layer structure to lower an operation voltage of the LED device, and hence reducing power consumption. | 08-27-2009 |
20090308319 | WAFER CARRIER AND EPITAXY MACHINE USING THE SAME - A wafer carrier comprises a base and a shielding plate positioned on the top surface of the base in a disassembled manner. The top surface of the base is configured to retain a plurality of wafers, and the shielding plate has a plurality of openings exposing the wafers. In particular, the shielding plate shields one portion of the base other than the other portions occupied by the wafers to prevent the reaction gases from conducting the chemical reaction to generate the reactant directly on the surface of the base. Consequently, the base is isolated from the chemical reaction, and it is not necessary to replace the base before conducting the next fabrication process or to clean the reactants on the surface of the base by thermal baking or etching. | 12-17-2009 |
20100059773 | SEMICONDUCTOR LIGHT-EMITTING DEVICE - A semiconductor light-emitting device comprises a substrate, a first conductive type semiconductor layer positioned on the substrate, a light-emitting structure positioned on the first conductive type semiconductor layer, and a second conductive type semiconductor layer positioned on the light-emitting structure. The substrate includes an upper surface and a plurality of protrusions positioned on the upper surface. Each of the protrusions includes a top surface, a plurality of wall surfaces, and a plurality of inclined surfaces sandwiched between the top surface and the wall surfaces. | 03-11-2010 |
20100101496 | WAFER CARRIER AND EPITAXY MACHINE USING THE SAME - A wafer carrier comprises a base and a shielding plate positioned on the top surface of the base in a disassembled manner. The top surface of the base is configured to retain a plurality of wafers, and the shielding plate has a plurality of openings exposing the wafers. In particular, the shielding plate shields one portion of the base other than the other portions occupied by the wafers to prevent the reaction gases from conducting the chemical reaction to generate the reactant directly on the surface of the base. Consequently, the base is isolated from the chemical reaction, and it is not necessary to replace the base before conducting the next fabrication process or to clean the reactants on the surface of the base by thermal baking or etching. | 04-29-2010 |
Patent application number | Description | Published |
20090008624 | Optoelectronic device - The present invention provides an optoelectronic device, which includes a first electrode, a substrate on the first electrode, and a buffer layer on the substrate. The buffer layer further includes a first gallium nitride based compound layer on the substrate, a II-V group compound layer on the first gallium nitride based compound layer, a second gallium nitride based compound layer on the II-V group compound layer, and a third gallium nitride based compound layer on the second gallium nitride based compound layer. Then, a first semiconductor conductive layer is formed on the buffer layer; an active layer is formed on the first semiconductor conductive layer, in which the active layer is an uneven Multi-Quantum Well; a second semiconductor conductive layer on the active layer; a transparent conductive layer on the second semiconductor conductive layer; and a second electrode on the transparent conductive layer. | 01-08-2009 |
20090008625 | Optoelectronic device - The present invention provides an optoelectronic device, which includes a substrate having a first surface and a second surface, and an atomization layer located therebetween; a multi-layer semiconductor layer is formed on the first surface of the substrate, which further includes a first semiconductor structure that is formed on the substrate, a second semiconductor structure, and an active layer is located between the first semiconductor structure and the second semiconductor structure. | 01-08-2009 |
20090008626 | Optoelectronic device - The present invention provides an optoelectronic device which includes a first electrode, a substrate on the first electrode; a buffer layer on the substrate, in which the buffer layer includes a first gallium nitride based compound layer on the substrate, a second gallium nitride based compound layer, and a II-V group compound layer between the first gallium nitride based compound layer and the second gallium nitride based compound layer; a first semiconductor conductive layer on the buffer layer; an active layer on the first semiconductor conductive layer, in which the active layer is an uneven Multi-Quantum Well; a semiconductor conductive layer on the active layer; a transparent layer on the second semiconductor conductive layer; and a second electrode on the transparent layer. | 01-08-2009 |