| 摘要 |
A composite film for a superstrate solar cell or a substrate solar cell has a transparent conductive film and a conductive reflective film, wherein the transparent conductive film is formed by using a wet coating method to apply a transparent conductive film composition or dispersion containing microparticles of a conductive oxide, the conductive reflective film is formed by using a wet coating method to apply a conductive reflective film composition containing metal nanoparticles, the average diameter of holes occurring at the contact surface of the conductive reflective film on either the side of the photovoltaic layer or the side of the transparent conductive film is not more than 100 nm, the average depth at which the holes are positioned is not more than 100 nm, and the number density of the holes is not more than 30 holes/μm2. |
| 主权项 |
1. A composite film for a superstrate thin-film solar cell, having two layers composed of a transparent conductive film formed on a photovoltaic layer of a superstrate thin-film solar cell, and a conductive reflective film formed on top of said transparent conductive film,
wherein said transparent conductive film is formed by using a wet coating method to apply a transparent conductive film composition comprising microparticles of a conductive oxide and either one or both of a polymeric binder and a non-polymeric binder that cure upon heating, said polymeric binder is one or more selected from acrylic resins, polycarbonates, polyesters, alkyd resins, polyurethanes, acrylic urethanes, polystyrenes, polyacetals, polyamides, polyvinyl alcohols, polyvinyl acetates, and celluloses, said non-polymeric binder is one or more selected from metal soaps, metal complexes, metal alkoxides, 2-alkoxyethanols, β-diketones, and alkyl acetates, metal contained within said metal soap, said metal complex, or said metal alkoxide is aluminum, titanium, chromium, manganese, iron, cobalt, nickel, silver, copper, zinc, molybdenum, tin, indium, or antimony, said conductive reflective film is formed by using a wet coating method to apply a conductive reflective film composition comprising metal nanoparticles, an average diameter of holes occurring at a surface of said conductive reflective film in direct contact with said transparent conductive film is not more than 100 nm, an average depth at which said holes are positioned is not more than 100 nm, and a number density of said holes is not more than 30 holes/μm2, said conductive reflective film comprises one or more materials selected from the group consisting of polyvinylpyrrolidones, polyvinylpyrrolidone copolymers and water-soluble celluloses, and said composite film is manufactured by a method comprising: forming a transparent conductive coating by applying said transparent conductive film composition to said photovoltaic layer and drying an applied coating at a temperature of 20 to 120° C.; forming a conductive reflective coating by applying said conductive reflective film composition to said transparent conductive coating and drying an applied coating at a temperature of 20 to 120° C.; and baking both of said transparent conductive coating and said conductive reflective coating at a temperature of 130 to 400° C. in a state where said conductive reflective coating is directly on said transparent conductive coating. |
