Unraveling the temperature-responsive charge-disproportionation in BaBiO3

Abstract

This study shows that the charge disproportionation at the Bi site in BaBiO3 alters as a function of temperature. Decreasing the temperature from 300K down to 160K leads to a significant modification of the density of states corresponding to the Bi-O hybridized band near the Fermi level (EF). This modification indicates reduction of Bi 6sp - O 2p hybridization and O 2p spectral weight near EF. The strong decrement of covalency at lower temperatures is accompanied by a decrement in O 2p hole density due to possible charge transfer from Bi 6s to the O 2p band. Bi-charge state analysis from Bi-4f core-level spectra showed that at 300K, δ (charge difference between alternate Bi sites) value in 4δ is much less than at 160K, which reveals the transition towards the ionic nature of CD or static CD in BBO at low temperature. On the other hand, O 1s core-level spectra displayed an asymmetric shape, and temperature-dependent modifications of the asymmetric shape and intensity have been observed. This highlights the significant influence of the O 2p band hole on the dynamical CD at the Bi site.