Wei-Tse
Wei-Tse Chang, Taipei TW
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20140033374 | SYSTEM FOR FABRICATING NANOSCALE PROBE AND METHOD THEREOF - Disclosed is a method for fabricating a nanoscale probe. A first conductor and a second conductor are immersed into an electrolyte contained in an electrolytic tank. The first conductor and the second conductor are connected to a power source respectively. An electrolytic reaction is established when an electrical circuit is established between the first conductor and the second conductor. The second conductor is configured to output electrons. The first conductor is configured to receive electrons. Therefore, the first conductor is etched when the electrical circuit is established between the first conductor and the second conductor. A necking portion is created at the first conductor approximately near the surface of the electrolyte. A nanoscale probe is fabricated when first conductor breaks at the necking portion. | 01-30-2014 |
Wei-Tse Cheng, Taipei TW
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20090209299 | ELECTRONIC DEVICE PROVIDED WITH A BATTERY UNIT - An electronic device includes a printed circuit board having a first ground contact and a second ground contact; an antenna unit having a ground contact end coupled to the first ground contact of the printed circuit board; and a battery unit. The battery unit includes a cell body, a cell cover having an internal surface defining a first chamber for confining the cell body therein and an external surface defining a second chamber that projects from the first chamber. The cell cover is connected electrically to the second ground contact of the printed circuit board. A protection printed circuit board is contained within the second chamber in such a manner to electrically connect with the cell cover. An electric coupler interconnects the protection printed circuit board to the first ground contact of the printed circuit board. | 08-20-2009 |
Wei-Tse Hsu, Houli Township TW
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20100206375 | THIN FILM SOLAR CELL HAVING OPAQUE AND HIGHLY REFLECTIVE PARTICLES AND MANUFACTURING METHOD THEREOF - A thin film solar cell having opaque and highly reflective particles and a manufacturing method thereof are provided. The thin film solar cell at least includes a substrate, a front electrode layer, a first photo-electric converting layer, a second photo-electric converting layer, and a back electrode layer. The particles are made of a highly conductive material, disposed between the first photo-electric converting layer and the second photo-electric converting layer, and distributed in a discontinuous manner. When an incident light strikes the surfaces of the particles, the incident light is reflected within the first photo-electric converting layer and the second photo-electric converting layer so as to increase the propagation path of the incident light through the first photo-electric converting layer and the second photo-electric converting layer. | 08-19-2010 |
20100319772 | THIN FILM SOLAR CELL WITH LIGHT TRANSMISSION - The present invention relates to a thin film solar cell with light transmission. The thin film solar cell comprises a substrate, a front electrode layer, an absorption layer, a back electrode layer, a light-transmittance enhancing layer and an encapsulation layer, stacked in a sequence. Part of the back electrode layer is removed in depth so as to form a plurality of light-transmittance regions. Part of the light-transmittance enhancing layer and part of the encapsulation layer are disposed within each light-transmittance region. The light-transmittance enhancing layer has a refractive index between that of a first medium overlaid by the part of the light-transmittance enhancing layer disposed within each light-transmittance region and that of a second medium overlaying the part of the light-transmittance enhancing layer disposed within each light-transmittance region. | 12-23-2010 |
Wei-Tse Hsu, Hsinchu TW
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20090161054 | Method for Forming Multiple Alignment Films on a Substrate and Pixel Structure of a Liquid Crystal Display - A method for forming the alignment films on the substrate and a pixel structure of a liquid crystal display are disclosed. The pixel structure comprises a plurality of pixel units arranged in arrays. Each of the pixel units comprises a first substrate, a second substrate, two first alignment films and two second alignment films. The first alignment film is different from the second alignment film. The second substrate is disposed opposite to the first substrate. The two first alignment films and the two second alignment films are individually disposed on the first substrate and the second substrate, while each of the first alignment films is disposed substantially opposite to one of the second alignment films. The method for forming the alignment films comprises the following steps: (1) forming a trench on the substrate to divide each of the pixel units into a first sub-pixel area and a second sub-pixel area, (2) forming the first alignment film on the first sub-pixel area of the substrate and then, (3) forming a second alignment film on the second sub-pixel area of the substrate at last. | 06-25-2009 |
20130063689 | Method for Forming Multiple Alignment Films on a Substrate and Pixel Structure of a Liquid Crystal Display - A method for forming the alignment films on the substrate and a pixel structure of a liquid crystal display are disclosed. The pixel structure comprises a plurality of pixel units arranged in arrays. Each of the pixel units comprises a first substrate, a second substrate, two first alignment films and two second alignment films. The first alignment film is different from the second alignment film. The second substrate is disposed opposite to the first substrate. The two first alignment films and the two second alignment films are individually disposed on the first substrate and the second substrate, while each of the first alignment films is disposed substantially opposite to one of the second alignment films. The method for forming the alignment films comprises the following steps: (1) forming a trench on the substrate to divide each of the pixel units into a first sub-pixel area and a second sub-pixel area, (2) forming the first alignment film on the first sub-pixel area of the substrate and then, (3) forming a second alignment film on the second sub-pixel area of the substrate at last. | 03-14-2013 |