Abstract: 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.

Abstract: 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.

Abstract: 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.

Abstract: 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 are annealed and therefore converted and interchanged into an aluminum-silicon alloy film and a p+ poly-crystalline silicon film, respectively. In a low-temperature plasma-based deposition process, a p? poly-crystalline silicon film is coated on the p+ poly-crystalline silicon film, and an n+ poly-crystalline silicon film is coated on the p? poly-crystalline silicon film. An ohmic contact is provided on the transparent and conductive ITO film. Other ohmic contacts are provided on the n+ poly-crystalline silicon film. An anti-reflection film is coated on the n+ poly-crystalline silicon film.

Abstract: 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+ poly-crystalline silicon film, respectively. In a low-temperature plasma-based deposition process, a p? poly-crystalline silicon film is coated on the p+ poly-crystalline silicon film, and an n+ poly-crystalline silicon film is coated on the p? poly-crystalline silicon film. An ohm contact is provided on the transparent and conductive ITO film. Other ohm contacts are provided on the n+ poly-crystalline silicon film. An anti-reflection film is coated on the n+ poly-crystalline silicon film.