Abstract: Disclosed is a method for removing oxygen from aluminum nitride by carbon. At first, an oven is provided. An aluminum nitride substrate is located in the oven. Nitrogen is introduced into the oven to form an atmosphere of nitrogen. The temperature is increased to the transformation point of the aluminum nitride substrate in the oven. Then, the heating is stopped and quenching is conducted in the oven. Carbon is introduced into the oven in the quenching. Thus, oxygen included in the aluminum nitride substrate reacts with the carbon to produce carbon monoxide or carbon dioxide. The carbon monoxide or carbon is released from the oven as well as the nitrogen. Thus, the aluminum nitride substrate is purified.

Abstract: A preparing method for coating polymethylmethacrylate (PMMA) particles with silicon dioxide is disclosed and includes the following steps of: preparing a silicon dioxide solution by mixing a silicon dioxide powder and a solvent; adding a dispersant-and-interface-modifier agent into the silicon dioxide solution; performing a wet grinding to the silicon dioxide solution with the dispersant-and-interface-modifier agent so as to obtain a plurality of nano-sized silicon dioxide particles with negative charge; performing an interface modification to a plurality of PMMA particles to be charged with positive charge; adding the PMMA particles into the silicon dioxide solution; making the PMMA particles adsorb the nano-sized silicon dioxide particles; and performing a solid-liquid separation process to the silicon dioxide solution so as to obtain the chemical composite particles.

Abstract: An apparatus for making an absorbing layer of a compound solar cell includes a transportation unit, a coating unit, a heat treatment unit, a measurement unit and a control unit. The transportation unit transports a substrate-based laminate. The coating unit provides coating liquid on the substrate-based laminate. The heat treatment unit treats the coated substrate-based laminate with heat to form a film. The measurement unit measures the film and provides correction parameters to the coating unit. The control unit controls the transportation unit, the coating unit, the heat treatment unit and the measurement unit.

Abstract: Disclosed is a method for making a highly thermally conductive composite. At first, paraffin wax is subjected to apparent modification. Expandable graphite is oxidized and organically modified. The modified paraffin wax is melted and mixed with the modified expandable graphite so that the modified expandable graphite is evenly distributed in the modified paraffin wax. With the expandable graphite, which exhibits an excellent heat transfer coefficient, the thermal conductivity of the paraffin wax is improved. The melting and solidifying rates of the paraffin wax are improved.

Abstract: A proportional electromagnet includes a cylindrical shell, first and second covers connected to two ends of the shell by riveting, a metal core inserted through an axial defined in the second cover and formed with a first section located in the shell and a second section located outside the shell, a coil unit provided between the shell and the metal core, a supporting element provided on the first section of the metal core, a bushing provided on the second section of the metal core, a copper ring provided on the first section of the metal core to improve magnetic thrust of the proportional electromagnet, a stop provided on the first section of the metal core, and a magnetic shield provided between the first section of the metal core and the coil unit to direct magnetic flux toward the supporting element and the metal core to stably drive the metal core.

Abstract: The invention discloses a control method of optical cutting. A laser processing module is used to generate a cutting heat source and an auxiliary heat source. The control method of optical cutting includes the steps of determining a cutting path on the work piece first; then calculating a thermal stress distribution along the cutting path according to a heating condition; next determining an irradiation condition for the auxiliary cutting heat source according to the thermal stress distribution induced by the cutting heat source; and irradiating the work piece along the cutting path with the cutting heat source and simultaneously irradiating the work piece with the auxiliary cutting heat source. The cutting of the work piece is therefore finished.

Abstract: A thermo-interface material composite uses a thermo-interface material containing silver nanowires. The silver nanowires have high aspect ratios, high thermo-conductivity coefficients and good anti-oxidation capabilities. Hence, an amount of silver nanowires can be added fewer than that of a traditional metal or ceramic powder. In this way, defects on device surface can be speckled during a dispersal process for improving adhesion between devices. Thus, a thermo-interface material is fabricated to obtain a high thermo-conductivity coefficient for further forming a thermo-channel.

Abstract: Disclosed is a method for bonding stainless steel to aluminum oxide. The method includes the steps of providing a first substrate of the stainless steel, filling solder in the first substrate, providing a second substrate of the aluminum oxide, filling solder in the second substrate, providing a net, pressing the net, locating the net between the first and second substrates to form a laminate and clamping the laminate, locating the laminate in a vacuum oven, increasing the temperature in the vacuum oven, retaining the temperature in the vacuum oven, and decreasing the temperature in the vacuum oven.

Abstract: Disclosed is a method for making a solar cell. In the method, there are provided first and second substrates each including first and second faces. There are provided first and second coating devices and a joining device. The first coating device is used to form a transparent electrode layer on the first face of the first substrate. The second coating device is used to form an absorbing layer on the first face of the second substrate. The second substrate is selenized by hot pressing. The joining device is used to join together the first and second substrates by joining the transparent electrode layer with the absorbing layer. The transparent electrode layer is joined with the absorbing layer by hot pressing. Thus, the solar cell is not made by coating one layer on another. Time for making the solar cell is reduced.

Abstract: A micro driver includes a translational unit, an actuating unit and a rotational unit. The translational unit includes translational elements movable relative to one another. The actuating unit includes two opposite actuators connected to each of the translational elements. The actuators are operable to move the translational elements relative to one another. The rotational unit includes a frame and semi-spheres each located in an aperture defined in the frame and in contact with the uppermost one of the translational elements so that the uppermost translational element rotates the semi-spheres on the frame when the actuators causes the translational elements to move relative to one another.

Abstract: The present invention provides an apparatus for fetching optical images. Images from multiple channels are obtained. A device is used to automatically switch the images. The switching is based on time-sharing multiplexing (TSM). Thus, the images are formed on another device. The images are then integrated and displayed to be used in an optical vehicle safety assistant system.

Abstract: A constant-frequency asynchronous modulation apparatus includes a current feedback control unit connected to a constant-frequency asynchronous modulation unit. The current feedback control unit includes a reference signal generator and an error amplifier. The reference signal generator provides an error. The error amplifier is connected to a reference signal generator, and provides an error-compensating signal based on the error, and adds up a reference signal and the error-compensating signal to provide a compensation reference signal. The constant-frequency asynchronous modulation unit connected to the current feedback control unit, and includes a hysteresis comparator, an integrator connected to the hysteresis comparator, and a hysteresis boundary generator connected to both of the hysteresis comparator and the integrator.

Abstract: Disclosed is a method for lithography etching a glass substrate. The method includes the steps of providing a glass substrate, providing miniature balls on the glass substrate so that the miniature balls become an etching-resistant layer, etching the glass substrate covered by the miniature balls to make a miniature pattern on the glass substrate, and removing the miniature balls from the substrate.

Abstract: An expandable capsule endoscope includes a shell, a membrane and a bag. Inside the shell are a first compartment and a second compartment, and the membrane is disposed between the first compartment and the second compartment. The bag is connected outside the shell. There is a first substance and a second substance respectively disposed in the first compartment and the second compartment. When the membrane is ruined and broken by a heating energy, the first substance and the second substance react to produce a gas filling the bag. The expandable capsule endoscope is applicable to examine an organ with wider diameters and advantageous to capture images of the organ thus providing better reliability and utility.

Abstract: A light-emitting diode apparatus includes a light-emitting diode, a first package layer provided over the light-emitting diode, and a second package layer provided over the first package layer. The first package layer is dosed with phosphor. The second package layer is not dosed with any phosphor. The second package layer is formed with a textured light-emitting surface.

Abstract: Disclosed is a method for making nanometer ITO powder. In the method, first and second reactants are added to a solvent to provide a clear metal ion solution. The solvent is an alcohol or an organic solvent. The clear metal ion solution is added to a hydrolysis concentration solution at a desired ratio to provide a first solution. The hydrolysis concentration solution contains a sour catalyst and water. An aging step is taken on the first solution and the hydrolysis concentration solution to provide a second solution. A solvothermal step is executed on the second solution to provide multi-ingredient transparent conductive ITO powder in the order of nanometer. The solvothermal step includes the steps of locating the second solution in a solvothermal device and heating the second solution to a solvothermal temperature for a solvothermal reaction.

Abstract: A series of curing agents are provided. The curing agents are multi-functional and phosphorus-containing. The curing agents have excellent processability to be used as an epoxy resin curing agent. The curing agents can be cured to obtain a phosphorus-containing epoxy thermoset with flame retardancy characteristic. The epoxy thermosets are very fit for circuit board substrate having high glass transition temperature; semiconductor packaging material; and related materials.

Abstract: Methods for producing dendrons of different generations with hydrophobic functional end-groups, and for producing polyurethanes with the side-chain dendrons are disclosed step-by-step. The dendron with hydrophobic functional end-groups in the polyurethane systems, and the honeycomb-like structure thin films are obtained by a breath-figure process. The structures of dendrons and dendritic side-chain polyurethanes are respectively expressed in the following and the end-groups (R) of the dendron are long alkyl chains or perfluoroalkyl derivatives.

Abstract: An alternate radio transmitter includes a processor, a modulator, a PLL unit and a radio transmission unit. The processor provides a digital signal. The modulator modulates the digital signal, thus providing at least two modulated signals. The PLL unit mixes the modulated signals, thus providing an output signal. The radio transmission unit transmits the output signal.

Abstract: A system for measuring polar substances includes a measurement module, a transfer module, a display module and a store module. The measurement module includes a measurement unit and a transmitter. The measurement unit measures the polar substances and produces a data-related signal. The transmitter transmits the data-related signal. The transfer module includes a receiver and a transmitter. The receiver receives the data-related signal. The transmitter of the transfer module receives the data-related signal from the receiver and transmits the data-related signal. The display module receives the data-related signal from the transmitter of the transfer module and shows the data-related signal. The store module receives the data-related signal from the transmitter of the transfer module and stores the data-related signal.