Valence State of Iron and Molybdenum Cations under Conditions of Anionic Deficiency in Sr₂FeMoO_6–δ

Abstract: The activation energy of oxygen diffusion in strontium ferromolybdate Sr2FeMoO6–δ is determined by the Merzhanov technique based on the temperature dependences of the oxygen desorption dynamics. The activation energy has a minimum value of 76.7 kJ mol−1 at δ = 0.005 and a maximum value of 156.3 kJ mol−1 at δ = 0.06. It is suggested that with an increase in the concentration of oxygen vacancies, an interaction occurs between them and the nearest cations, with the subsequent formation of associates of various ty… Show more

“…The important question of the valence state of iron and molybdenum cations under conditions of anionic deficiency in SFMO is addressed in the paper by Nikolay Kalanda et al The dependence of the activation energy of the oxygen diffusion on the oxygen deficiency index δ has been established. An agglomeration of the oxygen vacancies with the nearest cations was suggested.…”

Advanced Magnetic Oxides

“…The important question of the valence state of iron and molybdenum cations under conditions of anionic deficiency in SFMO is addressed in the paper by Nikolay Kalanda et al The dependence of the activation energy of the oxygen diffusion on the oxygen deficiency index δ has been established. An agglomeration of the oxygen vacancies with the nearest cations was suggested.…”

Advanced Magnetic Oxides

Interrelation among superstructural ordering, oxygen nonstoichiometry and lattice strain of double perovskite Sr2FeMoO6−δ materials