First-principles DFT+U study of structural and electronic properties of PbCrO3

Abstract

We have performed a systematic first-principles investigation to calculate the structural, electronic, and magnetic properties of PbCrO3, CrPbO3 as well as their equiproportional combination. The local density approximation (LDA)+U and the generalized gradient approximation+U theoretical formalisms have been used to account for the strong on-site Coulomb repulsion among the localized Cr 3d electrons. By choosing the Hubbard U parameter around 4 eV, ferromagnetic, and/or antiferromagnetic ground states can be achieved and our calculated lattice constants, bulk moduli, and equation of states are in good agreement with recent experiments [W. Xiao et al., PNAS 107, 14026 (2010)]. The bonding nature of B-O bonds in these ABO3 compounds exhibit evident covalent character and our electron transferring study indicates that the ionicity shows decreasing trend with increasing fraction of CrO6/2 octahedron within the PbCrO3-CrPbO3 random compounds. The lengthes of B-O bonds determine their lattice parameters, thus, clearly indicates that the abnormally large volume and compressibility is due to the contain of CrPbO3 in the experimental sample and the transition of PbO6/2 octahedron to CrO6/2 upon compression.