Affiliation:
1. Chemistry of the Ukrainian NAS
2. Fluorures Université du Maine
Abstract
Solid solutions with defect perovskite structure have been obtained in the systems Li0,5-уNayLa0,5TiO3, Li0.5-yNayLa0.5◊Nb2O6 and Li0.5-yNayLa0.5◊Та2O6 at 0 ≤ y ≤ 0.5. Their structure has been shown to undergo partial disordering with increasing sodium content in the system Li0.5-yNayLa0.5◊Nb2O6 as in the system Li0.5-yNayLa0.5◊Та2O6 structure has been ordering. Lithium diffusion in system Li0,5-уNayLa0,5TiO3 follows a percolation model for the lithium diffusion. The ionic conductivity as a function of sodium content in the system Li0.5-yNayLa0.5◊Nb2O6 has a maximum. The ionic conductivity of Li0.5-yNayLa0.5◊Ta2O6 samples decreases with sodium content.
Publisher
Trans Tech Publications, Ltd.
Subject
Condensed Matter Physics,General Materials Science,Atomic and Molecular Physics, and Optics
Reference20 articles.
1. A.G. Belous, V.I. Butko, G.N. Novitskaya, et al., Electrical Conductivity of La2/3-xМ3xTiO3 Perovskites, Ukr. Fiz. Zh. (Russ. Ed. ) 31 (1986) 576-581.
2. A.G. Belous, Properties of Heterosubstituted Titanates with Perovskite Structure, 3rd Euro Ceramics 2 (1993) 341-346.
3. J. Ibarra, A. Varez, C. Leon, et al., Influence of Composition on the Structure and Conductivity of the Fast Ionic Conductors La2/3-xLi3xTiO3 (0. 03 ≤ x ≤ 0. 167), Solid State Ionics 134 (2000) 219-228.
4. O. N. Gavrilenko, A. G. Belous, L. L. Kovalenko, Ye.V. Pashkova, Effect of the A-site substitution on the structure peculiarities and ionic conductivity of solid electrolytes La2/3-x-yLi3x-ySr2y4/3-2xNb2O6. Mater. Manuf. Process 23 (2008) 607-610.
5. A.G. Belous, E.B. Novosadova, I.R. Diduh et al., Formation of cationic conductivity in complex niobium containing materials with defect perovskite structure, Ionic melts and electrolytes (Russ. Ed. ) 4 (1986) 68-73.
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