Nanoporous Titanium (Oxy)nitride Films as Broadband Solar Absorbers
Beatrice Roberta Bricchi, Luca Mascaretti, Simona Garattoni, Matteo Mazza, Matteo Ghidelli, Alberto Naldoni, Andrea Li Bassi
Abstract
) films by increasing the background gas deposition pressure. The nanoporous hierarchical films exhibit a tree-like morphology, a strong broadband solar absorption (∼90% from the UV to the near-infrared range), and could generate temperatures of ∼475 °C under moderate light concentration (17 Suns). The high heat generation achieved by treelike films is ascribed to their porous morphology, nanocrystalline structure, and oxynitride composition, which overall contribute to a superior light trapping and dissipation to heat. These properties pave the way for the implementation of such films as solar absorber structures.
Topics & Concepts
Materials scienceNanoporousTitanium nitrideNanocrystalline materialOptoelectronicsTinAbsorption (acoustics)NitrideNanotechnologyComposite materialLayer (electronics)MetallurgySolar-Powered Water Purification MethodsZnO doping and propertiesThermal properties of materials