Abstract
Apatite-type silicates, R E 10 − x ( Si O 4 ) 6 O ′ 2 + y (RE = La, Nd, Gd and Dy), were prepared by mechanical milling (MM) starting from stoichiometric mixtures of the constituent oxides, RE 2O 3 and SiO 2. XRD patterns collected after grinding the starting mixtures in a planetary ball mill for 9 h contain only the characteristic reflections of the target materials. The electrical properties were analyzed on sintered pellets by using impedance spectroscopy and the isothermal conductivity data were successfully fitted to a Jonscher-type empirical expression σ′( ω) ∝ ω n with a decreasing fractional exponent n as the RE 3+ cation size increases. Activation energies for oxygen migration were found to decrease and conductivity to increase as the size of the RE 3+ cation increases with the highest conductivity values obtained for the apatite-type lanthanum silicate. In addition, we also show that the electrical properties of the as-prepared materials are influenced by the silicon source used in their synthesis.
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