Rong-Ho
Rong-Ho Lee, Chia-Yi County TW
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20090114283 | DYE-SENSITIZED SOLAR CELL - A dye-sensitized solar cell includes a first substrate, a first electrode layer, a photosensitive dye layer, an electrolyte layer, a second electrode layer, and a second substrate. The first electrode layer is disposed on the first substrate. The photosensitive dye layer is disposed on the first electrode layer. The electrolyte layer is disposed on the photosensitive dye layer, and the electrolyte layer is composed of an organic electrolyte material. The second electrode layer is disposed on the electrolyte layer, and the second substrate is disposed on the second electrode layer. A stable and effective oxidation and reduction reaction is performed between the elements by the characteristics of the composition and the structure of the electrolyte material, thus improving the photoelectric conversion efficiency and the stability of the dye-sensitized solar cell. | 05-07-2009 |
Rong-Ho Lee, Min-Hsiung Township TW
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20090020159 | DYE-SENSITIZED SOLAR CELL - A dye-sensitized solar cell includes a first electrode layer, a photosensitive dye layer, a second electrode layer, an energy-level intermediary layer, a first substrate and a second substrate. The photosensitive dye layer is used to receive sunlight and convert the sunlight to electrons and holes for being released. The first electrode layer is disposed on one side of the photosensitive dye layer to receive the electrons generated from the photosensitive dye layer. The second electrode layer is disposed on the other side of the photosensitive dye layer to receive the holes generated from the photosensitive dye layer. The energy-level intermediary layer is positioned between the first electrode layer and the photosensitive dye layer, so as to improve an injection efficiency of electrons and to prevent the generation of counter current, and thereby enhancing photoelectric conversion efficiency of the cell. | 01-22-2009 |
Rong-Ho Yu, Hsinchu TW
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20140377099 | MICRO-GAS PRESSURE DRIVING APPARATUS - A micro-gas pressure driving apparatus includes a miniature gas transportation module and a miniature valve module. The miniature gas transportation module includes a gas inlet plate, a fluid channel plate, a resonance membrane and a piezoelectric actuator. A first chamber is defined between the resonance membrane and the piezoelectric actuator. After the piezoelectric actuator is activated to feed a gas through the gas inlet plate, the gas is transferred to the first chamber through the fluid channel plate and the resonance membrane and then transferred downwardly. Consequently, a pressure gradient is generated to continuously push the gas. The miniature valve module includes a gas collecting plate, a valve membrane and a gas outlet plate. After the gas is transferred from the miniature gas transportation module to the gas-collecting chamber, the gas is transferred in one direction, so that a pressure-collecting operation or a pressure-releasing operation is selectively performed. | 12-25-2014 |