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Hind Ahmed and Ahmed Hashim
Exploring the Optical, Electronic and Thermal Characteristics of (PEO/Cu/Ag/H2O) New Nanostructures to Use in Solar Collectors
0951–0962 (2022)
PACS numbers: 42.79.Ek, 71.15.Nc, 71.20.Rv, 78.30.Jw, 78.40.Me, 78.67.Sc, 81.07.Pr
The present paper aims to design of new (PEO–Cu–Ag–H2O) nanostructures to use it in solar collectors with high dispersion of metallic particles, good solar energy absorption and high corrosion resistance. The theoretical method of DFT offers nanostructures and energies. The structural stability and electronic properties of the nanostructures are studied in relations of the calculated energy, ionization potentials, HOMO–LUMO gap, and electron affinity. A dipole moment of (PEO–Cu–Ag–H2O) nanostructures is also determined. The results show that the (PEO–Cu–Ag–H2O) nanostructures have good structure, optical, electronic and thermal properties. The PEO–Cu–Ag–H2O nanostructures have high absorption of solar energy at wavelength in a range 200–350 nm. Finally, the results indicate that PEO–Cu–Ag–H2O structures may be used in renewable energy field for solar collectors.
Key words: PEO, copper, solar collectors, polarizability, absorption, electronic properties.
https://doi.org/10.15407/nnn.20.04.951
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