Ab initio electronic structure calculation of hollandite vanadate K2V8O16

Abstract

An ab initio electronic structure calculation based on the generalized gradient approximation in the density functional theory is carried out to study the basic electronic states of hollandite vanadate K2V8O16. We find that the states near the Fermi energy consist predominantly of the three t2g-orbital components and the hybridization with oxygen 2p orbitals is small. The dyz and dzx orbitals are exactly degenerate and are lifted from the dxy orbital. The calculated band dispersion and Fermi surface indicate that the system is not purely one-dimensional but the coupling between the VO double chains is important. Comparison with available experimental data suggests the importance of electron correlations in this system.