Fabrication and Boosting the Morphological and Optical Properties of PVP/SiC/Ti Nanosystems for Tailored Renewable Energies and Nanoelectronics Fields

The present study objects to synthesize of PVP/SiC/Ti nanostructures as a future and promising nanomaterials for nanoelectronics, energy storage and optical approaches. The morphological and optical properties of PVP/SiC/Ti nanostructures were examined. Results of optical characteristics demonstrated the PVP/SiC/Ti nanostructures have stable absorbance(A) at UV and NIR spectra where the absorbance increased about 65.7% at λ = 400 nm and 65.3% at λ = 760 nm while transmission decreased when the concentration of PVP/SiC/Ti nanostructures increased of 37.5 gm/L, these results can be useful in solar energy fields, optical devices, anti-reflectance coating material, and other modern fields. When the concentration reached of 37.5 gm/L, energy band gap decreased from 3.25 to 2.25 eV, this behaviour makes the PVP/SiC/Ti nanostructures are suitable in numerous optoelectronics fields. The other optical factors of PVP/SiC/Ti nanostructures improved with rising concentration. The thermal energy storage results illustrated to obtain on gain of melting time reached 60%, this result makes the PVP–SiC–Ti–H 2 O nanofluids are multifunctional for renewable energy applications. Finally, the achieved results indicated to the PVP/SiC/Ti nanostructures are potential and promising to utilize in solar energy and optoelectronics approaches with excellent optical factors compared of other nanomaterials.