Patent application number | Description | Published |
20090167663 | Liquid Crystal Display Apparatus and Bandgap Reference Circuit Thereof - A liquid crystal display apparatus comprises a system-on-glass (SOG) and a bandgap reference (BGR) circuit. The BGR circuit, which is formed on the SOG, comprises a current mirror set and a diode set. The current mirror set is configured to generate a plurality of fixed currents. The diode set, which is formed by a plurality of diode-connected thin film transistors (TFT), is configured to generate a BGR voltage according to the fixed currents. | 07-02-2009 |
20110159171 | Method for preparing organic light emitting diode and device thereof - A method for fabricating an organic light emitting diode and a device thereof are provided. The method includes: providing a substrate; dispensing to the substrate a second organic molecule solution resulting from dissolving a second organic molecule in a solvent; applying the second organic molecule solution to a surface of the substrate so as to form a wet film layer; and heating the wet film layer by a heating unit to remove the solvent therefrom and thereby form a second organic molecule film. The method is effective in fabricating a uniform multilayer structure for use in fabrication of large-area photoelectric components. | 06-30-2011 |
20110284949 | VERTICAL TRANSISTOR AND A METHOD OF FABRICATING THE SAME - A vertical transistor and a method of fabricating the vertical transistor are provided. The vertical transistor has a substrate, a first electrode formed on the substrate, a first insulation layer formed on the first electrode, with a portion of the first electrode exposed from the first insulation layer and having a thickness greater than 50 nm and no more than 300 nm, a grid electrode formed on the first insulation layer, a semiconductor layer formed on the first electrode, and a second electrode formed on the semiconductor layer. | 11-24-2011 |
20120018718 | Self-aligned top-gate thin film transistors and method for fabricating same - A self-aligned top-gate thin film transistor and a fabrication method thereof. The method includes preparing a substrate having sequentially formed thereon an oxide semiconductor layer, a dielectric layer, and a metallic layer, wherein the oxide semiconductor layer includes first and second connecting regions that are not covered by the dielectric layer and the metallic layer thereon respectively, the first and second connecting regions having a property of a conductor after undergone a heating process or an ultraviolet irradiation; and a source electrode and a drain electrode formed on the substrate and connected to the first and second connecting regions, respectively. Therefore, the contact resistance of the first and second connecting regions can be reduced without the process of ion dopants as required by prior art techniques, thereby simplifying the manufacturing process. Also, the source electrode and the drain electrode can be exactly relocated and further increase performance of the device. | 01-26-2012 |
20120086431 | VERTICAL TYPE SENSOR - The present invention provides a vertical type sensor, including a substrate; a first electrode formed on the substrate; a sensing layer formed on the first electrode layer and reactive to a target substance, wherein the first electrode layer is interposed between the substrate and the sensing layer; and a second electrode layer formed on the sensing layer and having a plurality of openings, wherein the sensing layer is interposed between the first electrode layer and the second electrode layer, and the target substance contacts the sensing layer via the plurality of openings. The vertical type sensor of the present invention provides instant, sensitive and rapid detection. | 04-12-2012 |
20120188627 | SMART WINDOW AND SMART WINDOW SYSTEM USING THE SAME - A smart window includes a windowpane, at least one sensor and a wireless signal transceiver. The sensor is disposed on the windowpane and configured for detecting an environmental factor and accordingly outputting a sensing signal. The wireless signal transceiver is disposed on the windowpane and electrically connected to the sensor. The wireless signal transceiver is configured for further transmitting the sensing signal from the sensor. A smart window system includes the aforementioned smart window. The smart window and the smart window system adopt wireless communication manner to transmit the sensing signals, and thereby the smart window system has an overall modulation to an environmental factor. | 07-26-2012 |
20120235120 | VERTICAL ELECTRO-OPTICAL COMPONENT AND METHOD OF FABRICATING THE SAME - A vertical electro-optical component and a method for forming the same are provided. The vertical electro-optical component includes a substrate, a first electrode layer formed on the substrate, a patterned insulating layer formed on the first electrode layer, a metal layer formed on the patterned insulating layer, a semiconductor layer formed on the first electrode layer, and a second electrode layer formed on the semiconductor layer, wherein the semiconductor layer encapsulates the patterned insulating layer and the metal layer. The vertical electro-optical component thus has a low operational voltage of a vertical transistor and a high reaction speed of a photo diode, and may be used to form light-emitting transistors. | 09-20-2012 |
20120325318 | SOLAR CELL AND FABRICATION METHOD THEREOF - A solar cell is provided that an extremely thin light absorber is formed between a n-type semiconductor layer and a p-type semiconductor layer such that the light absorber is used to absorb solar energy, while the p-type semiconductor layer may not absorb light. After separation of electrons and holes, the carriers will not recombine during the conduction, in order to avoid energy loss. | 12-27-2012 |
20130045567 | METHODS FOR MANUFACTURING A METAL-OXIDE THIN FILM TRANSISTOR - Disclosed herein is a method for manufacturing a metal-oxide thin film transistor. The method includes the steps of: (a1) forming a gate electrode on a substrate; (a2) forming a gate insulating layer over the gate electrode; (a3) forming a metal-oxide semiconductor layer having a channel region on the gate insulating layer; (a4) forming a source electrode and a drain electrode on the metal-oxide semiconductor layer, wherein the source electrode is spaced apart from the drain electrode by a gap exposing the channel region; (a5) forming a mobility-enhancing layer on the channel region, wherein the mobility-enhancing layer is not in contact with the source electrode and the drain electrode; and (a6) annealing the metal-oxide semiconductor layer and the mobility-enhancing layer in an environment at a temperature of about 200° C. to 350° C. | 02-21-2013 |
20130146868 | FIELD EFFECT TRANSISTOR - A field effect transistor (FET) is provided. The active layer of this FET is composed of at least two different amorphous metal oxide semiconductor layer stacked together. Therefore, the two opposite surfaces of the active layer can have different band gap values. | 06-13-2013 |
20130153891 | THIN FILM TRANSISTOR AND METHOD FOR MANUFACTURING THE SAME - Disclosed herein is a thin film transistor, which includes a metal oxide semiconductor layer, an insulating layer, a gate electrode, a source electrode and a drain electrode. The metal oxide semiconductor layer includes a channel region having at least one first region and a second region. The first region has an oxygen vacancy concentration greater than an oxygen vacancy concentration of the second region. The second region surrounds the first region. A method for manufacturing the thin film transistor is disclosed as well. | 06-20-2013 |
20140034944 | DISPLAY PANEL, THIN FILM TRANSISTOR AND METHOD OF FABRICATING THE SAME - A thin film transistor (TFT) including a gate, a dielectric layer, a metal-oxide semiconductor channel, a source, and a drain is provided. The gate and the metal-oxide semiconductor channel are overlapped. The gate, the source, and the drain are separated by the dielectric layer. Besides, the source and the drain are respectively located on two opposite sides of the metal-oxide semiconductor channel. The metal-oxide semiconductor channel includes a metal-oxide semiconductor layer and a plurality of nano micro structures disposed in the metal-oxide semiconductor layer and separated from one another. In another aspect, a display panel including the TFT and a method of fabricating the TFT are also provided. | 02-06-2014 |
20140209883 | VERTICAL ELECTRO-OPTICAL COMPONENT AND METHOD OF FABRICATING THE SAME - A vertical electro-optical component and a method for forming the same are provided. The vertical electro-optical component includes a substrate, a first electrode layer formed on the substrate, a patterned insulating layer formed on the first electrode layer, a metal layer formed on the patterned insulating layer, a semiconductor layer formed on the first electrode layer, and a second electrode layer formed on the semiconductor layer, wherein the semiconductor layer encapsulates the patterned insulating layer and the metal layer. The vertical electro-optical component thus has a low operational voltage of a vertical transistor and a high reaction speed of a photo diode, and may be used to form light-emitting transistors. | 07-31-2014 |
20140213006 | METHOD FOR FORMING VERTICAL TYPE SENSOR - The present invention provides a vertical type sensor, including a substrate; a first electrode formed on the substrate; a sensing layer formed on the first electrode layer and reactive to a target substance, wherein the first electrode layer is interposed between the substrate and the sensing layer; and a second electrode layer formed on the sensing layer and having a plurality of openings, wherein the sensing layer is interposed between the first electrode layer and the second electrode layer, and the target substance contacts the sensing layer via the plurality of openings. The vertical type sensor of the present invention provides instant, sensitive and rapid detection. | 07-31-2014 |
20140326989 | ACTIVE DEVICE - An active device provided by the invention is disposed on a substrate and includes a gate, a gate insulating layer, an oxide semiconductor channel layer, a plurality of nano conductive wires, a source and a drain. The gate insulating layer is disposed between the gate and the oxide semiconductor channel layer. The nano conductive wires are distributed in the oxide semiconductor channel layer, in which the nano conductive wires do not contact the gate insulating layer and the nano conductive wires are arranged along a direction and not intersected with each other. The source and the drain are disposed on two sides opposite to each other of the oxide semiconductor channel layer, in which a portion of the oxide semiconductor channel layer is exposed between the source and the drain. | 11-06-2014 |
20140367707 | DISPLAY PANEL AND MANUFACTURING METHOD THEREOF - A manufacturing method of a display panel including following steps is provided. An active device substrate including a first plate, active devices disposed on the first plate and pixel electrodes electrically connected to the active devices is provided. A display medium substrate including a second plate and a display medium disposed on the second plate is provided. The pixel electrodes are electrically connected to the display medium by a conductor. Moreover, a display panel manufactured by the manufacturing method is also provided. | 12-18-2014 |