Photonic Cooler Based on Multistacked Thin Films with Near-Infrared Filter Properties.

ACS Omega

HBKU Core Laboratories, Hamad Bin Khalifa University (HBKU), Qatar Foundation, P.O. Box 34110, Doha, Qatar.

Published: January 2024

AI Article Synopsis

  • The study focuses on creating a multistacked photonic cooler for hot and dry climates, utilizing a layered structure with TiO, NiO, and Ag for optimal infrared filtration and light transmittance.
  • The fabrication process involved in situ deposition under vacuum, where the wettability of the TiO layer can be adjusted through oxygen flow, potentially enhancing its self-cleaning abilities.
  • Various layer configurations were tested, and simulations suggest these coatings could efficiently improve silicon solar cells, highlighting their promise for commercial applications through their multifunctional traits.

Article Abstract

We report on the development of a multistacked configuration of a photonic cooler for implementation in sunny and arid regions. The optimized multistacking structure considers TiO as a top layer, NiO as the buffer layer, and Ag as a hot mirror (i.e., a reflective layer of the NIR light spectrum). The entire stacked layers were deposited in situ without breaking the vacuum. The oxide layers were grown reactively under an oxygen medium at a deposition pressure of 2 × 10 Torr. The level of TiO surface wettability was demonstrated to be controlled by the oxygen flow during the film growth process, which may additionally provide a self-cleaning property to the IR filters. By combining low refractive index layers (i.e., TiO) with the high refractive index of the metal oxides (i.e., NiO) along with the metal layers (i.e., Ag, Al), the photonic filtration (i.e., cutoff) of the infrared spectrum was successfully achieved while keeping the light transmittance of the visible (vis) light above 50%. Different structures with different thicknesses have been systematically assessed, including TiO/NiO/Ag, TiO/NiO/Al, TiO/MoO/Ag, and TiO/MoO/Al. Furthermore, numerical simulations were carried out using SCAPS-1D and OptiLayer software to evaluate the application of these filters on silicon solar cells, considering the experimental electrical and optical parameters for each explicit layer of the device. Our results confirm that the development of such coatings with a scalable thin film growth process may have a real commercialization potential due to their multifunctionalities such as IR filtering, antireflection coating in the vis range, and antisoiling properties.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10809257PMC
http://dx.doi.org/10.1021/acsomega.3c05561DOI Listing

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