Revealing the site selective local electronic structure of Co3O4 using 2p3d resonant inelastic X-ray scattering

Abstract

We investigate mixed-valence oxide Co3O4 using Co 2p3d resonant inelastic X-ray scattering (RIXS). By setting resonant edges at Co2+ and Co3+ ions, the dd excitations on the two Co sites are probed selectively, providing detailed information on the local electronic structure of Co3O4. The 2p3d RIXS result reveals the 4T2 excited state of tetrahedral Co2+ site at 0.5 eV beyond the discriminative power of optical absorption spectroscopies. Additionally, the 3T2g excited stated at 1.3 eV is uniquely identified for the octahedral Co3+ site. Guided by cluster multiplet simulations, the ground-state character of the Co2+ and Co3+ site is determined to be high-spin 4A2(Td) and low-spin 1A1g(Oh), respectively. This indicates that only the Co2+ site is magnetically active site at low-temperatures in Co3O4. The ligand-to-metal charge transfer analysis suggests a formation of a strong covalent bonding between Co and O ions at the Co3+ site, while Co2+ is rather ionic.