Orbital facilitated charge transfer originated phonon mode in Cr-substituted PrFeO3: A brief Raman study

Abstract

We report the possible origin of orbital facilitated new Raman mode in orthorhombic perovskite PrFe1-xCrxO3. For this purpose, resonance and power-dependent Raman spectroscopy measurements have been carried out to understand the origin of local oxygen breathing mode in the mixed Fe–Cr orthorhombic perovskites through the orbital mediated charge transfer mechanism. It has been observed that multi-phonon scattering is highly sensitive to the presence of mixed Fe–Cr ions and is absent in pure iso-structural vacuum annealed PrFeO3. The Raman spectroscopy results infer a scaling in the intensity of octahedral breathing Raman mode around 660 cm−1, which is attributed to the lattice rearrangement due to the transfer of an electron from Cr3+(d3) to Fe3+(d5) and results to d2–d6 (Cr4+–O−2–Fe2+) configuration. The interactions of d2–d6 configuration are different from d3–d5 configuration, which leads to the octahedral lattice rearrangement and activates the new Raman mode. The charge transfer phenomenon is supported through first-principle calculations and valence band spectroscopy. © 2020 John Wiley & Sons, Ltd.