Patent application number | Description | Published |
20150064463 | GRAPHENE FIBER AND METHOD OF MANUFACTURING THE SAME - The present invention discloses a graphene fiber and a method of manufacturing the same. The graphene fiber is manufactured by oxidizing graphite, dispersing, spinning, drying and heat treatment, and has a diameter less than 100 μm, a ratio of length to diameter greater than 10, and a ratio of carbon to oxygen greater than 5. The graphene fiber is formed of a plurality of graphene sheets, which envelop an axis and are coaxially stacked one by one from the axis. The thickness of the graphene sheet is less than 3 nm, and chemical bonds are formed to tightly bond the graphene sheets to exhibit excellent mechanical and thermally/electrically conductive properties. The method of the present invention is implemented by simple steps so as to greatly reduce poisonous chemicals possibly generated in the manufacturing environment, thereby improving the safety of manufacturing and reducing the whole processing time and cost. | 03-05-2015 |
20150064571 | CURRENT COLLECTOR STRUCTURE - A current collector structure includes a metal foil substrate and a graphene conductive layer provided on at least one surface of the metal foil substrate. The graphene conductive layer includes a plurality of graphene sheets and a polymer binder used to bind the graphene sheets together and to adhere the graphene sheets onto the metal foil substrate. The conductive layer has a thickness of 0.1 μm to 5 μm and a resistance less than 1 Ω-cm. The polymer binder increases the adhesion force, such that the integrated conductive network is thus formed. Since the polymer binder is well compatible with the binder as the active material contained in the electrochemical element. The active material of the electrochemical element is thus tightly bound with the graphene conductive layer so as to minimize the contact resistance and greatly improve the performance of the electrochemical element. | 03-05-2015 |
20150118554 | GRAPHENE-CONTAINING ELECTROCHEMICAL DEVICE - A graphene-containing electrochemical device includes cathode/anode current collectors, cathode/anode active layers and a separator. The cathode/anode active layers are formed on the cathode/anode current collectors, and include a metal foil substrate and a graphene conductive layer. The graphene conductive layer includes several first graphene sheets and the polymer binder used to bind the first graphene sheets. The cathode/anode active layers include several second graphene sheets and cathode/anode active particles. The second graphene sheets and the cathode/anode active particles are bound by the polymer binder and further adhered to the graphene conductive layer. The second graphene sheets are blended among the cathode/anode active particles. The graphene conductive layer is employed to increase the compatibility between the cathode/anode active material and the metal foil substrate, and to reduce the junction resistance, thereby forming an integrated conductive network and improving the performance of the elements in the device. | 04-30-2015 |
Patent application number | Description | Published |
20090261339 | GATE DRIVER ON ARRAY OF A DISPLAY AND METHOD OF MAKING DEVICE OF A DISPLAY - In a method of making device of a display, an insulating layer, a semiconductor layer, an ohmic contact layer, a second conductive layer, and a photoresist pattern are consecutively formed on a first conductive structure. The photoresist pattern includes a first thickness region, and a second thickness region outside the first thickness region. The thickness of the second thickness region is smaller than that of the first thickness region. In addition, in a gate driver on array (GOA) of a display, it includes a gate driver on array structure with a pull-down transistor. The pull-down transistor has a gate electrode, a semiconductor island, a source electrode and a drain electrode. The semiconductor island extends out of the edges of the gate electrode, the source electrode, and the drain electrode. | 10-22-2009 |
20110018001 | GATE DRIVER ON ARRAY OF A DISPLAY - A gate driver on array of a display includes a substrate having a peripheral region, and a gate driver on array structure formed in the peripheral region. The gate driver on array structure includes a pull-down transistor, and the pull-down transistor has a gate electrode, an insulating layer, a semiconductor island, a source electrode, and a drain electrode. The semiconductor island extends out of both edges of the gate electrode, and extends out of an edge of the source electrode and an edge of the drain electrode. | 01-27-2011 |
20110091006 | SHIFT REGISTER CIRCUIT - A shift register circuit includes plural shift register stages for providing plural gate signals to plural gate lines. Each shift register stage includes a pull-up unit, an input unit for receiving an input signal, an energy-store unit for providing a driving control voltage in response to the input signal, a discharging unit, a couple unit and a pull-down unit. The pull-up unit pulls up a first gate signal in response to the driving control voltage. The discharging unit performs a discharging operation for pulling down the driving control voltage. The couple unit is utilized for coupling the energy-store unit with a succeeding shift register circuit stage so that the falling edge of a second gate signal generated by the succeeding shift register stage is capable of shifting down the driving control voltage. The pull-down unit pulls down the first gate signal in response to the second gate signal. | 04-21-2011 |
Patent application number | Description | Published |
20080279176 | BASE STATION SYSTEM AND MOBILE STATION SUPPORTING DTMF PROTOCOL - A protocol is proposed for a mobile station to transmit Dual Tone Multi-Frequency (DTMF) to another mobile station. When a user presses a key on a source mobile station, which is connected to a target mobile station, DTMF data are transmitted via a digital channel to a base station first. Instead of converting the received DTMF data to a corresponding analog voice to the target mobile station, the base station forwards the DTMF data to the target station via a digital channel. The target mobile station parses the DTMF data and activates certain operation in response to the key pressed by the user. | 11-13-2008 |
20080280599 | CALL PROCESSING METHOD AND SYSTEM - A mobile communication terminal is provided. A storage unit stores a disconnect cause associated with caller information. A communication unit receives an incoming call. A controller determines whether the incoming call is associated with the caller information, disconnects the incoming call if the incoming call is associated with the caller information, and sends a disconnect message indicating the disconnect cause to a network station relaying the incoming call. | 11-13-2008 |
20100130159 | METHOD OF SENDING AND RECEIVING CALL WITH SPECIFIC REQUEST - A specific code indicative of a specific request is used to provide a communication device with an ability to send specific calls, such as emergency calls and silent calls, and the ability to distinguish the specific calls from the received calls. A method of sending a call includes generating a specific code indicative of a specific request, adding the specific code to a call, and then sending the call to a receiver for notifying the receiver of the specific request. A method of receiving a call includes determining whether a received call comprises a specific code indicative of a specific request, and generating an indication in response to the specific request when the received call is determined to comprise the specific code. | 05-27-2010 |
Patent application number | Description | Published |
20130127718 | Method for Operating Computer Objects and Computer Program Product Thereof - A method for operating computer objects and the computer program product thereof are disclosed, and they are utilized to a computer. The computer includes an operating interface which comprises defining a work region, function instruction list and a plurality of computer objects, and parts of the computer objects are chosen. The steps of the method comprises: an input device which is connected to a processing device in the computer for defining the position information of the input device, and a computer object which is chosen on the work region of the operating interface is clicked for operating the computer object; wherein a function instruction, which comprises actions of rotation, zoom in/zoom out, movement, of the computer object, is clicked for users to operate the computer object. | 05-23-2013 |
20130127745 | Method for Multiple Touch Control Virtual Objects and System thereof - A multi-user operating system through a multi-touch panel comprises a processor; a storage medium coupled to the processor; a multiple touch panel coupled to the processor to sense multi-touch event by at least one user, followed by displaying instruction result corresponding to the multi-touch event; a display dividing module coupled to the processor to divide the multiple touch panel into at least two sub-display areas; multiple user operation module being stored in the storage medium to instruct the display dividing module to execute a multiple user mode or a single user mode, thereby allowing the multiple user manipulate virtual objects on the at least two sub-display areas, simultaneously. | 05-23-2013 |
20130205201 | Touch Control Presentation System and the Method thereof - A method of operating presentation through a multi-touch panel, comprises steps of providing a presenting module having a format transformation module, user interface generator and presenting/reading mode switching module to a system; activating the presenting module and display interface generated by the user interface generator on a multiple-touch panel of the system, wherein the interface generated by the user interface generator includes a shrinkage image area to display the non-activated file, an operation area to display file which is activated and a buffer zoon to allow a user drag file in the shrinkage image area to the operation area, thereby activating the dragged file. | 08-08-2013 |