Metal-insulator transition and the Pr3+/Pr4+ valence shift in (Pr1-yYy)0.7Ca0.3CoO3

Abstract

The magnetic, electric and thermal properties of the (Ln1-yYy)0.7Ca0.3CoO3 perovskites (Ln~=~Pr, Nd) were investigated down to very low temperatures. The main attention was given to a peculiar metal-insulator transition, which is observed in the praseodymium based samples with y=0.075 and 0.15 at TM-I=64 and 132~K, respectively. The study suggests that the transition, reported originally in Pr0.5Ca0.5CoO3, is not due to a mere change of cobalt ions from the intermediate- to the low-spin states, but is associated also with a significant electron transfer between Pr3+ and Co3+/Co4+ sites, so that the praseodymium ions occur below TM-I in a mixed Pr3+/Pr4+ valence. The presence of Pr4+ ions in the insulating phase of the yttrium doped samples (Pr1-yYy)0.7Ca0.3CoO3 is evidenced by Schottky peak originating in Zeeman splitting of the ground state Kramers doublet. The peak is absent in pure Pr0.7Ca0.3CoO3 in which metallic phase, based solely on non-Kramers Pr3+ ions, is retained down to the lowest temperature.