Enhanced magnetic and optical properties of oxygen deficient TiO2-δ nanoparticles synthesized by environment-friendly green route using whole plant extract of Phyllanthus niruri
Abstract
We report magnetic, optical and oxidation states of oxygen deficient TiO2-δ nanoparticles (NPs) synthesized by environment-friendly green route using Phyllanthus niruri (PN) whole plant extract instead of leaf extract. Rietveld refinement of room temperature XRD pattern confirms the formation of pure phase anatase TiO2 crystals in a tetragonal structure with space group I41/amd. TEM and SEM microstructure shows agglomerated spherical shape NPs exhibiting average particle size 35~nm. FTIR result confirms the presence of biomolecules and functional group attached to the surface of TiO2 NPs. The core level XPS of O-1s and Ti-2p confirms the presence of oxygen vacancies that leads to the mixed oxidation states of Ti (Ti4+ and Ti3+). UV-vis result shows a strong absorption peak ( 250~nm) along with reduced optical band gap energy Eg 2.75~eV, possibly arises due to the surface plasmon resonance (SPR) caused by lower band gap energy emerging from oxygen vacancies. Magnetization as a function of applied magnetic field shows ferromagnetic nature at room temperature [MS 0.029~emu/g and HC 0.0143~T]. The observed ferromagnetic behaviour can be understood by virtual hopping of electrons from Ti3+(3d1) to Ti4+(3d0)-sites, however, vice versa is prohibited.
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