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Κυριακή 27 Αυγούστου 2017

Scalable, “Dip-and-Dry” Fabrication of a Wide-Angle Plasmonic Selective Absorber for High-Efficiency Solar–Thermal Energy Conversion

A galvanic-displacement-reaction-based, room-temperature "dip-and-dry" technique is demonstrated for fabricating selectively solar-absorbing plasmonic-nanoparticle-coated foils (PNFs). The technique, which allows for facile tuning of the PNFs' spectral reflectance to suit different radiative and thermal environments, yields PNFs which exhibit excellent, wide-angle solar absorptance (0.96 at 15°, to 0.97 at 35°, to 0.79 at 80°), and low hemispherical thermal emittance (0.10) without the aid of antireflection coatings. The thermal emittance is on par with those of notable selective solar absorbers (SSAs) in the literature, while the wide-angle solar absorptance surpasses those of previously reported SSAs with comparable optical selectivities. In addition, the PNFs show promising mechanical and thermal stabilities at temperatures of up to 200 °C. Along with the performance of the PNFs, the simplicity, inexpensiveness, and environmental friendliness of the "dip-and-dry" technique makes it an appealing alternative to current methods for fabricating selective solar absorbers.

Thumbnail image of graphical abstract

A simple, room-temperature, "dip-and-dry" technique is demonstrated for fabricating optically selective plasmonic-nanoparticle-coated foils (PNFs) for use as selective solar absorbers (SSAs). The technique, which exploits galvanic displacement reactions between metals, is inexpensive, environmentally friendly, and yields PNFs with an excellent, high wide-angle solar absorptance that exceeds, and low thermal emittance that is on par with, those of previously reported SSAs.



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