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On December 25th, the "Application Research of Self-Cleaning Antireflective Nanostructure Coatings in Solar Cell Modules" — a key project under the Chinese Academy of Sciences Knowledge Innovation Program — was officially approved by an expert review panel. This significant achievement was led by the Institute of Physics and Chemistry, Chinese Academy of Sciences.
The acceptance meeting was organized by the Physics and Chemistry Institute on behalf of the Science and Technology Development Bureau of the Chinese Academy of Sciences. A diverse group of experts from various institutions participated, including the National Center for Nanoscience and Technology, the Institute of Electrical Engineering, Shanghai University of Electric Power, Beijing University of Chemical Technology, the Chinese Academy of Sciences Ecological Environment Research Center, and Hebei University. Their collective expertise ensured a thorough evaluation of the project's scientific and technical merits.
During the meeting, the project leader, He Junhui, presented detailed work reports, technical test results, and financial summaries. The expert panel engaged in in-depth discussions and raised critical questions, which were thoroughly addressed. Following the review, the team commended the project’s outstanding performance, noting that all technical specifications exceeded the requirements outlined in the original mission statement. As a result, the project was officially accepted.
This research focused on the development of nanostructured coatings that can control surface wettability and light transmission. The team successfully uncovered the working mechanisms and design principles for self-cleaning and wide-spectrum antireflection nanostructures used in solar cell modules. They also developed advanced techniques for assembling and preparing transparent nano-coatings. These coatings have demonstrated remarkable capabilities, such as ultra-hydrophilic or super-hydrophobic self-cleaning properties on transparent substrates like glass, including photovoltaic glass used in solar modules. The technology shows great potential for industrial application and commercialization, offering a promising solution to enhance the efficiency and durability of solar panels.
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