Magnetite Doped with Manganese and Cobalt – (Co x Mn z Fe2z )3±δO4

The chapter presents the diagrams of defects’ concentrations for the spinel (Co _x Mn _z Fe_2z )_3±δO₄ with the cobalt content of x _Co = 0.1–0.333 mol at 1473 K based on the deviation from the stoichiometry data. In the range of higher oxygen pressures cation vacancies [V^‴ _Fe ] dominate, and the character of the dependence of their concentration on the oxygen pressure is analogous to the case of pure magnetite and the spinel MnFe₂O₄ (exponent about 2/3). When the cobalt content in (Co _x Mn _z Fe_2z )_3±δO₄ increases, the concentration of cation vacancies significantly decreases (at the same oxygen pressure). In the range of low oxygen pressures, interstitial cations [Fe ^3• _i] dominate. The ratio of the coefficient of diffusion (mobility) of tracer ions via interstitial cations to the coefficient of diffusion via vacancies (D ^o _I(M)/D ^o _V(M) = b_D ) in the spinel (Co _x Mn _z Fe_2z )_3±δO₄ was calculated based on the concentration of ionic defects and the values of coefficients of self-diffusion of tracers M* (⁵⁹Fe, ⁶⁰Co and ⁵³Mn). It was found that when the cobalt content in the spinel (Co _x Mn _z Fe_2z )_3±δO₄ increases, the mobility of tracer ions via interstitial cations is higher than the mobility via cation vacancies and at the cobalt content of x _Co = 0.1 mol the parameter b _D reaches the highest values. At 1473 K, the values of the parameter b _D for cobalt ions is b _D ≈ 95, for manganese b _D ≈ 31, and for iron ions b _D ≈ 16.