Class / Patent application number | Description | Number of patent applications / Date published |
438038000 | Passivating of surface | 13 |
20090053844 | METHOD FOR FABRICATING PIXEL STRUCTURE - A method for fabricating a pixel structure is provided. A substrate having a gate thereon is provided. Next, a gate dielectric layer is formed to cover the gate. A channel layer is formed on the gate dielectric layer above the gate. A source and a drain are formed on the channel layer at two sides of the gate, wherein the gate, the channel layer, the source and the drain constitute a thin film transistor (TFT). A passivation layer is formed on the gate dielectric layer and the TFT. A first shadow mask exposing parts of the passivation layer is provided thereabove. The drain is exposed by a laser applied via the first shadow mask to partially remove the passivation layer. A conductive layer is formed to cover the passivation layer and the drain. The conductive layer is then automatically patterned by the patterned passivation layer to form a pixel electrode. | 02-26-2009 |
20090311817 | VERTICAL NITRIDE SEMICONDUCTOR LIGHT EMITTING DIODE AND METHOD OF MANUFACTURING THE SAME - A vertical nitride-based semiconductor LED comprises a structure support layer; a p-electrode formed on the structure support layer; a p-type nitride semiconductor layer formed on the p-electrode; an active layer formed on the p-type nitride semiconductor layer; an n-type nitride semiconductor layer formed on the active layer; an n-electrode formed on a portion of the n-type nitride semiconductor layer; and a buffer layer formed on a region of the n-type nitride semiconductor layer on which the n-electrode is not formed, the buffer layer having irregularities formed thereon. The surface of the n-type nitride semiconductor layer coming in contact with the n-electrode is flat. | 12-17-2009 |
20090325333 | DISPLAY DEVICE AND METHOD FOR MANUFACTURING THE SAME - According to one aspect of the present invention, at least one or more of patterns required for manufacturing a display device, such as a conductive layer which forms a wiring or an electrode and a mask, is formed by a droplet discharging method. At that time, a portion of the gate insulating film where is not located under the semiconductor layer is removed during manufacturing steps of the present invention. | 12-31-2009 |
20100291722 | ETCHANT AND METHOD OF MANUFACTURING AN ARRAY SUBSTRATE USING THE SAME - An etchant includes about 0.1 percent by weight to about 30 percent by weight of ammonium persulfate (NH | 11-18-2010 |
20110008922 | METHODS OF FORMING LIGHT EMITTING DEVICES HAVING CURRENT REDUCING STRUCTURES - A light emitting device includes a p-type semiconductor layer, an n-type semiconductor layer, and an active region between the n-type semiconductor layer and the p-type semiconductor layer. A non-transparent feature, such as a wire bond pad, is on the p-type semiconductor layer or on the n-type semiconductor layer opposite the p-type semiconductor layer, and a reduced conductivity region is in the p-type semiconductor layer or the n-type semiconductor layer and is aligned with the non-transparent feature. The reduced conductivity region may extend from a surface of the p-type semiconductor layer opposite the n-type semiconductor layer towards the active region and/or from a surface of the n-type semiconductor layer opposite the p-type semiconductor layer towards the active region. | 01-13-2011 |
20110033965 | VERTICAL NITRIDE SEMICONDUCTOR LIGHT EMITTING DIODE AND METHOD OF MANUFACTURING THE SAME - A vertical nitride-based semiconductor LED comprises a structure support layer; a p-electrode formed on the structure support layer; a p-type nitride semiconductor layer formed on the p-electrode; an active layer formed on the p-type nitride semiconductor layer; an n-type nitride semiconductor layer formed on the active layer; an n-electrode formed on a portion of the n-type nitride semiconductor layer; and a buffer layer formed on a region of the n-type nitride semiconductor layer on which the n-electrode is not formed, the buffer layer having irregularities formed thereon. The surface of the n-type nitride semiconductor layer coming in contact with the n-electrode is flat. | 02-10-2011 |
20110143471 | SURFACE PASSIVATION TECHNIQUES FOR CHAMBER-SPLIT PROCESSING - Surface passivation techniques for chamber-split processing are described. A method includes forming a first Group III-V material layer above a substrate, the first Group III-V material layer having a top surface. A passivation layer is deposited on the top surface of the Group III-V material layer. The passivation layer is removed. Subsequently, a second Group III-V material layer is formed above the first Group III-V material layer. | 06-16-2011 |
20110159623 | Method for Fabricating LED Chip Comprising Reduced Mask Count and Lift-Off Processing - A method for fabricating a light emitting diode chip is provided. In the method, a half-tone mask process, a gray-tone mask process or a multi-tone mask process is applied and combined with a lift-off process to further reduce process steps of the light emitting diode chip. In the present invention, some components may also be simultaneously formed by an identical process to reduce the process steps of the light emitting diode chip. Consequently, the fabricating method of the light emitting diode provided in the present invention reduces the cost and time for the fabrication of the light emitting diode. | 06-30-2011 |
20110195539 | METHOD FOR FORMING SEMICONDUCTOR LAYER AND METHOD FOR MANUFACTURING LIGHT EMITTING DEVICE - A method for manufacturing a light emitting device according to an embodiment of the present invention includes preparing a growth substrate; selectively forming a projection pattern on the growth substrate; forming a first conductive type semiconductor layer on the growth substrate and the projection pattern; forming an active layer on the first conductive type semiconductor layer; forming a second conductive type semiconductor layer on the active layer; and executing an isolation etching for selectively removing the first conductive type semiconductor layer, the active layer, and the second conductive type semiconductor layer including the projection pattern. | 08-11-2011 |
20110318858 | METHOD FOR FABRICATING LIGHT EMITTING DIODE CHIP - A method for fabricating a light emitting diode chip is provided. Firstly, a semiconductor device layer is formed on a substrate. Afterwards, a current spreading layer is formed on a portion of the semiconductor device layer. Then, a current blocking layer and a passivation layer are formed on a portion of the semiconductor device layer not covered by the current spreading layer. Finally, a first electrode is formed on the current blocking layer and the current spreading layer. Moreover, a second electrode is formed on the semiconductor device layer. | 12-29-2011 |
20120264246 | Method of Selective Photo-Enhanced Wet Oxidation for Nitride Layer Regrowth on Substrates - Various embodiments of the present disclosure pertain to selective photo-enhanced wet oxidation for nitride layer regrowth on substrates. In one aspect, a method may comprise: forming a first III-nitride layer with a first low bandgap energy on a first surface of a substrate; forming a second III-nitride layer with a first high bandgap energy on the first III-nitride layer; transforming portions of the first III-nitride layer into a plurality of III-oxide stripes by photo-enhanced wet oxidation; forming a plurality of III-nitride nanowires with a second low bandgap energy on the second III-nitride layer between the III-oxide stripes; and selectively transforming at least some of the III-nitride nanowires into III-oxide nanowires by selective photo-enhanced oxidation. | 10-18-2012 |
20140363914 | METHOD FOR FABRICATING LIQUID CRYSTAL DISPLAY - Method for manufacturing a thin film transistor liquid crystal display is provided. A substrate is provided. A gate electrode, a source electrode, a drain electrode, and a passivation film are formed on the substrate in sequence. The passivation film has a contact hole to expose a part of the drain electrode. A conductive layer is formed by coating nano metal material on the passivation film and in the contract hole from which the drain electrode is exposed. A pixel electrode is formed by patterning the conductive layer. | 12-11-2014 |
20160064616 | TRANSPARENT CONDUCTIVE STRUCTURE, DEVICE COMPRISING THE SAME, AND THE MANUFACTURING METHOD THEREOF - An optical electrical device comprises a base and a transparent conductive structure on the base is disclosed. The base further comprises a light-emitting device and the transparent conductive structure comprises a transparent conductive oxide layer and a passivation layer on the transparent conductive oxide layer. The material of the transparent conductive oxide layer comprises transparent conductive metal oxide, such as ZnO. Furthermore, the transparent conductive metal oxide also comprises impurities, such as a carrier e.g. gallium. | 03-03-2016 |