Patent application number | Description | Published |
20100071759 | Electrochemical Device and Method of Fabricating the Same - A method of forming an electrode including an electrochemical catalyst layer is disclosed, which comprises forming a graphitized porous conductive fabric layer, optionally conditioning the graphitized porous conductive fabric layer, and dipping the graphitized porous conductive fabric layer into a solution containing polymer-capped noble metal nanoclusters dispersed therein. The polymer-capped noble metal nanoclusters as an electrochemical catalyst layer are adsorbed onto the graphitized porous conductive fabric layer. An electrochemical device with the electrode made thereby is also contemplated. | 03-25-2010 |
20100071839 | Electrochemical Device and Method of Fabricating the Same - A method of forming an electrode including an electrochemical catalyst layer is disclosed, which comprises forming a graphitized porous conductive fabric layer, optionally conditioning the graphitized porous conductive fabric layer, and dipping the graphitized porous conductive fabric layer into a solution containing a plurality of polymer-capped noble metal nanoclusters dispersed therein. The polymer-capped noble metal nanoclusters as an electrochemical catalyst layer are adsorbed onto the graphitized porous conductive fabric layer. An electrochemical device with the electrode made thereby is also contemplated. | 03-25-2010 |
20100101623 | PACKAGING STRUCTURE - A packaging structure with a box for containing at least a portable electronic device is provided. The box has plates, which are connected to one another and surrounded to form an opening for the portable electronic device passing through, and a lid selectively covering or exposing the opening. First solar cells each fastened on an inner surface of each plate in the box. At least a cable electrically connects the first solar cells and is operated for electrically connecting the portable electronic device. | 04-29-2010 |
20100101644 | ELECTROLYTE COMPOSITION AND DYE-SENSITIZED SOLAR CELL (DSSC) COMPRISING THE SAME - Disclosed herein is a dye-sensitized solar cell. The dye-sensitized solar cell includes a semiconductor electrode with a dye adsorbed thereon; a counter electrode; and an electrolyte composition provided between the semiconductor electrode and the counter electrode; wherein the electrolyte composition comprises an oxidation-reduction mediator and a eutectic ionic liquid including a choline halide or derivatives thereof mixed with alcohols or urea. | 04-29-2010 |
20100108240 | Method of Forming an Electrode Including an Electrochemical Catalyst Layer - A method of forming an electrode having an electrochemical catalyst layer is disclosed. The method includes etching a surface of a substrate, followed by immersing the substrate in a solution containing surfactants to form a conditioner layer on the surface of the substrate, and immersing the substrate in a solution containing polymer-capped noble metal nanoclusters dispersed therein to form a polymer-protected electrochemical catalyst layer on the conditioner layer. | 05-06-2010 |
Patent application number | Description | Published |
20080301498 | Control device and control method - A control device and a control method for increasing stability of micro controller system are described. The control device comprises a system error detection unit a memory unit, a data error detection unit, an error signal processing unit and a system resetting unit. When the system is error or the data transferred from the memory unit has error, the system error detection unit or the data error detection unit outputs an error signal to the error signal processing unit, and then the error signal processing unit corrects the error data or commands the system resetting unit to reset the system by the error signal for increasing the system stability. | 12-04-2008 |
20080313421 | LOW POWER-CONSUMPTION DATA PROCESSOR - A low power-consumption data processor, wherein instruction decoding is performed on an instruction memory and an instruction register by an instruction decoding unit through an instruction bus, being characterized in that an instruction decoding circuit is disposed between the instruction register, a program counter and an arithmetic logic unit, wherein a new value in an instruction is transmitted on a new instruction bus (NIB) when the decoded result is an operation/jump/call instruction and, otherwise, the new value is transmitted on an original instruction bus (IB). | 12-18-2008 |
20090045837 | APPARATUS FOR DYNAMIC DEPLOYMENT OF PIN FUNCTIONS ON A CHIP - An apparatus for dynamic deployment of pin functions on a chip is disclosed in the present invention. The apparatus comprises: an input pin receiving unit, capable of integrating a plurality of pins and selecting pin functions according to a program; an output pin control unit, capable of issuing a control signal to the plurality of pins; and a signal control unit, controlled by the program and coupled to the input pin receiving unit and the output pin control unit so as to communicate therebetween; wherein the pin functions are designated by the user to select an output signal for each of the plurality of pins according to the program. | 02-19-2009 |
Patent application number | Description | Published |
20140126134 | PORTABLE ELECTRONIC DEVICE WITH HINGE STRUCTURE - portable electronic device includes a host module, a display module and a hinge structure. The hinge structure is pivotally connected to the host module and the display module. The hinge structure includes a support frame, a rotating component and two pivotal components. An end of the rotating component is installed inside the support frame and another end of the rotating component is installed inside the display module, so that the display module is capable of rotating in a first rotating direction relative to the support frame. The two pivotal components are disposed at opposite sides of the support frame and separated from the rotating component. An end of each pivotal component is installed inside the support frame and another end of each pivotal component is installed inside the host module, so that the display module is capable of rotating in a second rotating direction relative to the host module. | 05-08-2014 |
20140162469 | FULLY EMBEDDED ELECTRONIC PLUG-IN CARD - A fully embedded electronic plug-in card pluggable into a slot of a plug-in socket having a plurality of elastic guide arms includes a main body, a plurality of conductive plates and a recessed structure. The main body can be wholly plugged into the plug-in socket without protruding out from the plug-in socket. The conductive plate is mounted onto the main body, and exposed from a side of the main body, and each conductive plate is electrically coupled to each respective elastic guide arm. The recessed structure is disposed on the main body and at a position corresponding to the slot of the plug-in socket. The electronic plug-in card can be plugged into the plug-in socket all the time to save the trouble and inconvenience of plugging the card for use or unplugging the card for removal. | 06-12-2014 |
20140360296 | BIAXIAL PIVOT MECHANISM AND PORTABLE ELECTRONIC DEVICE THEREOF - A biaxial pivoting mechanism for rotating a first casing relative to a second casing is disclosed in the present disclosure. The biaxial pivoting mechanism includes at least one fixing component, a first shaft, a first main gear, a second shaft, a second main gear and a transmission gear set. The fixing component includes a first area and a second area. The first shaft and the second shaft are disposed on the first area and the second area and further connected to the first casing and the second casing respectively. The first main gear and the second main gear are respectively disposed on the first shaft and the second shaft. The transmission gear set is engaged with the first main gear and the second main gear. As the first main gear rotates at a first direction, the second main gear synchronously rotates at a second direction opposite to the first direction. | 12-11-2014 |
20140374231 | KEYBOARD DEVICE - The present invention discloses a keyboard device. The keyboard device includes a sheet, a membrane switch, an actuating component, and a protrusion keycap structure. The membrane switch is disposed on a side of the sheet. The actuating component is disposed on a side of the membrane switch far away from the sheet and is for pressing the membrane switch to actuate the membrane switch. The protrusion keycap structure is disposed on a side of the actuating component far away from the membrane switch and is for driving the actuating component to actuate the membrane switch upon being pressed. The protrusion keycap structure includes a mylar film. | 12-25-2014 |