Flexible nano efficient thin film solar cells
Soft and efficient aluminum foil three-dimensional nano solar cells have high conversion rate.
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Solution maturity
Early adoption / Process verification
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Key innovations
The innovation lies in the preparation of three-dimensional nanostructures on low-cost, flexible aluminum foil substrates, which significantly improve the light absorption and conversion efficiency of solar cells.
Potential economic benefits
Low-cost manufacturing, high-efficiency light conversion and gentle characteristics will significantly reduce production costs, increase power generation, broaden application fields, and bring huge market competitiveness and economic returns.
Potential climate benefits
Efficient, gentle, and low-cost photovoltaic can increase the popularity of renewable energy, replace fossil fuels, significantly reduce carbon emissions from power generation, and reduce energy consumption for transportation and applications.
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International Technology Transfer Collaboration Network
The International Technology Transfer Cooperation Network connects global innovation resources and promotes the efficient transfer and application of cross-border technological achievements.
Shanghai,China
Solution details
Research has found that three-dimensional nanostructures can effectively improve the light absorption of solar cells. In the present invention, the three-dimensional nanostructure is fabricated on an aluminum foil substrate using a low-cost method, and has the characteristics of light weight and good flexibility. Solar cells fabricated from such substrates can have higher light energy conversion efficiency than devices on conventional substrates.
Last updated
11:52:13, Nov 04, 2025
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