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Zirconia xps peak3/31/2024 Moreover, the nanocrystalline ZrO 2 thin films exhibits the most prominent absorption phenomenon in the visible range and the irradiation cause significant decrease in band gap to 3.69 eV compare to the virgin ZrO 2 sample (3.86 eV). The characteristic A g and B g Raman modes of monoclinic and tetragonal ZrO 2 are obtained at different positions. The intensity of obtained emission bands varies with fluence which is interpreted in terms of generation and annihilation of defect centers. Photoluminescence measurements confirm the blue emission of virgin and irradiated sample recorded at excitation wavelength 270 to 310 nm. Zirconium oxide thin films exhibit the same thickness (195 nm) of virgin and irradiated samples and whereas the nanocrystalline thin films have the elemental composition in proper stoichiometry (1:2) as analyzed by rutherford backscattering spectroscopy (RBS). X-ray diffraction analysis affirms the monoclinic to tetragonal phase transformation and diminishing of peak at higher fluence 1 × 10 14 and 2 × 10 14 ions/cm 2 induced by electronic excitation caused by SHI. Swift heavy ions (SHI) irradiation of Nickel (Ni) beam with different ions fluence bring the modifications in the functional properties of radio frequency (RF) grown zirconium oxide (ZrO 2) nanocrystalline thin films.
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