Ab-initio studying of spin states of sodium cobaltate Na2/3CoO2

Abstract

Puzzling properties of sodium cobaltates NaxCoO2 become an issue of numerous recent theoretical and experimental investigations because of very high thermopower and intricate phase diagram of this material. Experiments indicated Na2/3CoO2 to have a kagome-like cobalt sublattice, which implies additional complexity of this strongly correlated system. In the present work we have employed the ab-initio GGA+U modeling method to investigate spin states of Na2/3CoO2, using an exact crystal cell established in the experiment. Stability of sodium imprint for concentration x=2/3 proposed in the publications has been obtained. An AFM-A type magnetic ordering has been recognized as a ground state. Moreover, a competition between low spin state (LS) and intermediate spin state (IS) has been established to depend on on-site Hubbard U correction parameter. LS state has been identified as a ground state of Na2/3CoO2.