Issue 32, 2017

Tracer diffusion of 96Zr and 134Ba in polycrystalline BaZrO3

Abstract

Cation tracer diffusion in polycrystalline cubic BaZrO3 perovskites was studied using the stable isotopes 134Ba and 96Zr in air at 1015–1200 and 1300–1500 °C, respectively. Thin films of 134BaO and 96ZrO2 were deposited on polished BaZrO3 pellets by drop casting of aqueous precursor solutions containing the tracers. Isotope distribution profiles were recorded using secondary ion mass spectrometry. All the depth profiles exhibited two distinct regions, which enabled the assessment of both lattice and grain boundary diffusion using Fick's second law and Whipple–Le Clair's equation. The grain boundary diffusion of both cations was several orders of magnitude higher than the lattice diffusion. The lattice diffusion of Ba2+ was found to be significantly faster than the lattice diffusion of Zr4+, while the activation energies were comparable, respectively 395 ± 44 and 435 ± 67 kJ mol−1. Activation energies for the diffusion of Ba2+ and Zr4+ through a Ba2+ vacancy were calculated by density functional theory using the nudged elastic band method. The calculated and experimental activation energies were in excellent agreement. The cation diffusion data in BaZrO3 are compared to previous data on A and B-site diffusivity in perovskites. Finally, the diffusivity of Zr4+ in compounds with perovskite and fluorite crystal structures is discussed in relation to the chemical stability of BaZrO3-based materials.

Graphical abstract: Tracer diffusion of 96Zr and 134Ba in polycrystalline BaZrO3

Supplementary files

Article information

Article type
Paper
Submitted
15 Jun 2017
Accepted
25 Jul 2017
First published
25 Jul 2017

Phys. Chem. Chem. Phys., 2017,19, 21878-21886

Tracer diffusion of 96Zr and 134Ba in polycrystalline BaZrO3

R. Sažinas, I. Sakaguchi, I. Hasle, J. M. Polfus, R. Haugsrud, M. Einarsrud and T. Grande, Phys. Chem. Chem. Phys., 2017, 19, 21878 DOI: 10.1039/C7CP04039C

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