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Ionic conductivity of La(Sr)Ga(Mg,M)O3− (M=Ti, Cr, Fe, Co, Ni): effects of transition metal dopants

2000; Elsevier BV; Volume: 132; Issue: 1-2 Linguagem: Inglês

10.1016/s0167-2738(00)00696-2

1872-7689

В.В. Хартон, A.P. Viskup, Aleksey A. Yaremchenko, Richard T. Baker, B. Gharbage, Glenn C. Mather, Filipe M. Figueiredo, E.N. Naumovich, F.M.B. Marques,

Electronic and Structural Properties of Oxides

Oxygen-ion conductivity of the perovskite-type solid solutions (La,Sr)Ga1−zM2O3−δ (M=Ti, Cr, Fe, Co; z=0–0.20), LaGa1−y−zMgyMzO3−δ (M=Cr, Fe, Co; y=0.10–0.20, z=0.35–0.60) and LaGa1−zNizO3−δ (z=0.20–0.50) was studied using the techniques of oxygen permeation, Faradaic efficiency, ion-blocking electrode and the e.m.f. of oxygen concentration cells. Oxygen-ion transference numbers vary from 2×10−6 to 0.98 throughout the series and p-type electronic conductivity increases with increasing transition metal content. Substitution of Ga with higher valence cations (Ti, Cr) decreases ionic conductivity whereas small amounts of Fe or Co (∼5%) increase ionic conductivity. For higher transition metal contents, lower levels of oxygen-ion conductivity and an increase in the activation energy, EA, for ionic transport, from 60 (5%-doped) to 230 kJ/mol (>40%-doped) are observed. In heavily doped phases, EA tends to decrease with temperature and, above 1170 K, values are similar to the undoped phase suggesting that an order–disorder transition takes place. Factors affecting the observed ionic conductivity trends are discussed.