Measurement of reduction kinetics in Nb 2O 5-doped SrTiO 3 by use of a new technique of liquid film migration

Abstract

To investigate the reduction kinetics of Nb 2O 5-doped SrTiO 3, which has previously been difficult because of its low diffusivity, we have developed a new technique for the measurement of chemical diffusivity using the phenomenon of liquid film migration. 0.2 mol%-Nb 2O 5-doped SrTiO 3 powder compacts were sintered in air and then annealed at various temperatures and for various periods of time in 95N 2/5H 2. During the annealing the surface of individual grains was reduced and the thickness of the reduced layer varied with the annealing temperature and time. As a CuO melt was infiltrated into the annealed samples, liquid film migration occurred and eventually stopped when the reduced layer was swept. It was therefore possible to measure the thicknesses of the reduced layers under different annealing conditions. Based on the measured migration thicknesses, the chemical diffusion coefficient, D chem, during reduction of 0.2 mol%-Nb 2O 5-doped SrTiO 3 was determined to be D chem = 4.6 × 10 4 exp [ − ( 489 ± 118 kJ ) / R T ] (cm 2 s −1). Comparing the diffusion coefficient and activation energy with previous data showed that the reduction was governed by the diffusion of Sr ions. The present investigation demonstrates a new technique for the study of oxidation/reduction kinetics in systems where the lattice parameter varies with oxygen partial pressure.