| Abstrakt: |
In this study, we investigate the oxygen defects in cobalt niobate (CoNb2O6) by using Raman scattering and FTIR spectroscopy. Columbite niobate compounds, such as CoNb2O6, are known for their unique dielectric, magnetic, and photocatalytic properties, making them suitable for various applications, including microwave resonators and filters, Li-ion batteries, and white LED technologies. The CoNb2O6structure comprises NbO6and CoO6octahedra with oxygen atoms classified into terminal, bridge, and chain positions based on their bonding environment. Our measurements reveal the activation of symmetry-forbidden oxygen-related phonon modes, specifically a Raman-forbidden mode (B2usymmetry) at 782 cm–1in Raman spectra and an IR-forbidden mode (Agsymmetry) at ∼875 cm–1in FTIR spectra, indicating the presence of oxygen-related defects. Furthermore, Raman mapping shows a random distribution of intensities for the defect mode, particularly near sample cracks, suggesting an association with oxygen vacancies. These findings enhance our understanding of the impact of defects on the spectral features of CoNb2O6and provide insight into the distribution of defects in this material. |
