Provided by the Springer Nature SharedIt content-sharing initiative The fabrication of novel oxide glass is a challenging topic in glass science. Alumina (Al2O3) glass cannot be fabricated by a conventional melt–quenching method, since Al2O3 is not a glass former.
In brief, fabricated porous interconnected network of aluminium oxide nanoflakes holds a great promise as cover glass for solar panels with anti-reflective and self-cleaning superhydrophobic characteristics. 4. Conclusions
The photovoltaic performance of commercially available solar cells covered with uncoated glass substrate and aluminium oxide coated glass substrate was measured under various conditions (such as – fabricated, artificially contaminated and self – cleaned conditions) and the results were compared.
The fabrication of novel oxide glass is a challenging topic in glass science. Alumina (Al2O3) glass cannot be fabricated by a conventional melt–quenching method, since Al2O3 is not a glass former. We found that amorphous Al2O3 synthesized by the electrochemical anodization of aluminum metal shows a glass transition.
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Fabrication and characterization of solar cells based on multicrystalline silicon (mc-Si) thin films are described and synthesized from low-cost soda-lime glass (SLG). The …
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T1 - Optical Performance and Durability of Solar Reflectors Protected by an Alumina Coating N2 - Solar thermal electric power systems use large solar reflectors to concentrate sunlight to …
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This article gives a clear account of alumina-based materials used in solar thermal energy systems. It covers solar thermal conversion, how high stability materials are important, …
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Abstract Superhydrophobic surfaces based on aluminium oxide coatings had been developed on glass substrates via solution based approach for solar panel cover glass …
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The objective of this study has been twofold: i) to investigate different strategies for CPV module glass surface modification, in particular preparing hydrophilic and hydrophobic …
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The uncoated glass substrate and aluminium oxide coated superhydrophobic glass substrate recovered the efficiency of saw dust contaminated solar panel by 67% and 91%, …
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Abstract In this work, high-alumina glass and glass-ceramics were enhanced through dual modification with Zn 2+ and the effects of Zn 2+ on the crystallization behavior, …
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Robust encapsulation is indispensable for flexible organic solar cells (OSCs) moving into practical applications because the materials and interfaces …
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The temperature-dependent optical properties of the alumina–silica-based ceramic materials determined in this study are useful for transient radiative transfer calculations in solar …
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The uncoated glass substrate and aluminium oxide coated superhydrophobic glass substrate recovered the efficiency of saw dust contaminated solar panel by 67% and 91%, …
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The addition of Al 2 O 3 during synthesis can enhance several key features of glass, including optical, electrical, mechanical, and chemical stability [3, 4]. Alumina serves as …
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Abstract Glass provides mechanical, chemical, and UV protection to solar panels, en-abling these devices to withstand weathering for decades. The increasing demand for solar …
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Over the last few years, the influence of low temperature (≤80 °C) and, in particular, of room temperature, atomic layer deposited alumina (ALD-Al 2 O 3) on the …
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The application of an alumina nanomaterial-based anti-soiling coating on the glass substrates using the spin coating technique significantly reduced the surface energy and …
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