| Patent application number | Description | Published |
|---|
| 20090142877 | Method for making a thin-film poly-crystalline silicon solar cell on an indium tin oxide-glass substrate at a low temperature - A method is disclosed for making a thin-film poly-crystalline silicon solar cell. In the method, there is provided an ITO-glass substrate by coating a glass substrate with a transparent and conductive ITO film. An amorphous silicon film is grown on the ITO-glass substrate. An aluminum film is grown on the amorphous silicon film. The aluminum film and the amorphous silicon film arte annealed and therefore converted into an aluminum-silicon alloy film and a p | 06-04-2009 |
| 20100216266 | Pulsed high-voltage silicon quantum dot fluorescent lamp - In a method for making a pulsed high-voltage silicon quantum dot fluorescent lamp, an excitation source is made by providing a first substrate, coating the first substrate with a buffer layer of titanium, coating the buffer layer with a catalytic layer of a material selected from a group consisting of nickel, aluminum and platinum and providing a plurality of nanometer discharging elements one the catalytic layer. An emission source is made by providing a second substrate, coating the second substrate with a transparent electrode film of titanium nitride and coating the transparent electrode film with a silicon quantum dot fluorescent film comprising silicon quantum dots. A pulsed high-voltage source is provided between the excitation source and the emission source to generate a pulsed field-effect electric field to cause the nanometer discharging elements to release electrons and accelerate the electrons to excite the silicon quantum dots to emit pulsed visible light. | 08-26-2010 |
| 20100216278 | Method for making multi-cystalline film of solar cell - A method is disclosed for making a multi-crystalline silicon film of a solar cell. In the method, a titanium-based film is coated on a ceramic substrate. A back surface field layer is coated on the titanium-based film via providing dichlorosilane and diborane in an atmospheric pressure chemical vapor deposition process at a first temperature. A light-soaking layer is coated on the back surface field layer via providing more dichlorosilane and diborane in the atmospheric pressure chemical vapor deposition process at a second temperature higher than the first temperature. | 08-26-2010 |
| 20100261305 | Method for making multi-cystalline film of solar cell - A method is disclosed to make a multi-crystalline silicon film of a solar cell. The method includes the step of providing a ceramic substrate, the step of providing a titanium-based film on the ceramic substrate, the step of providing a p | 10-14-2010 |
| 20100279029 | Method for coating nanometer particles - There is disclosed a method for coating nanometer metal particles. The step includes three steps. At the first step, a substrate is provided. At the second step, the substrate is coated with a metal layer. At the third step, the metal layer is annealed so that the metal layer is transformed into nanometer metal particles. | 11-04-2010 |
| 20100279453 | Method for making an anti-reflection film of a solar cell - A method is disclosed for making an anti-reflection film of a solar cell. The method includes the step of providing a laminate. The laminate includes a ceramic substrate, a titanium-based compound film, a p | 11-04-2010 |
| 20100291322 | Method for making titanium-based compound film of poly silicon solar cell - A method is disclosed for making a titanium-based compound film of a poly-silicon solar cell. In the method, a ceramic substrate is made of aluminum oxide. The ceramic substrate is coated with a titanium film in an e-gun evaporation system. Dichlorosilane is provided on the titanium film by atmospheric pressure chemical vapor deposition. A titanium-based compound film is formed on the ceramic substrate. | 11-18-2010 |
| 20110003425 | Process for making multi-crystalline silicon thin-film solar cells - Dichlorosilane and diborane are deposited on the titanium-based alloy film to grow a p | 01-06-2011 |
| 20110027931 | Method for making solar cells with sensitized quantum dots in the form of nanometer metal particles - There is disclosed a method for making solar cells with sensitized quantum dots in the form of nanometer metal crystals. Firstly, a first substrate is provided. Then, a silicon-based film is grown on a side of the first substrate. A pattern mask process is executed to etch areas of the silicon-based film. Nanometer metal particles are provided on areas of the first substrate exposed from the silicon-based film. A metal electrode is attached to an opposite side of the first substrate. A second substrate is provided. A transparent conductive film is grown on the second substrate. A metal catalytic film is grown on the transparent conductive film. The second substrate, the transparent conductive film and the metal catalytic film together form a laminate. The laminate is inverted and provided on the first substrate. Finally, electrolyte is provided between the first substrate and the metal catalytic film. | 02-03-2011 |
