首页>
外文期刊>Journal of Advanced Ceramics
>Diffusion coefficient of vacancies and jump length of electrons in CoSubscript1?Emphasis Type="Italic"x/Emphasis/SubscriptZnSubscript Emphasis Type="Italic"x/Emphasis /SubscriptFeSubscript2/SubscriptOSubscript4/Subscript ferrites
【24h】
Diffusion coefficient of vacancies and jump length of electrons in CoSubscript1?Emphasis Type="Italic"x/Emphasis/SubscriptZnSubscript Emphasis Type="Italic"x/Emphasis /SubscriptFeSubscript2/SubscriptOSubscript4/Subscript ferrites
展开▼
机译:Co 1? x Emphasis> Subscript> Zn x Emphasis>的空位扩散系数和电子跃迁长度 Subscript> Fe 2 Subscript> O 4 Subscript>铁氧体
A series of polycrystalline samples of Co1?xZnxFe2O4 where (x = 0.1, 0.2, 0.3, 0.4, 0.5 and 0.6) were prepared by the usual ceramic technique. X-ray diffraction patterns confirmed the spinel cubic structure. The diffusion coefficients of oxygen vacancies were estimated from dc conductivity measurements. It was noticed that the diffusion coefficient decreases with increasing Zn2+ concentrations. An increase of temperature increases the diffusion of lattice vacancies. The Curie temperature, lattice parameter and jump length of electrons were studied as a function of Zn2+ concentration. From the correlation between the ionic radius and the radii of octahedral and tetrahedral sites, the theoretical lattice parameters were calculated and suggested cation distribution for the given ferrites was determined.
展开▼