Article ID | Journal | Published Year | Pages | File Type |
---|---|---|---|---|
1296226 | Solid State Ionics | 2011 | 16 Pages |
The variation of the oxygen content, xO, of synthetic fayalite (Fe2SiO4) single crystals was investigated thermogravimetrically at 1130 °C as a function of the oxygen activity, aO2 (= PO2/PO2° ≈ fO2/fO2° with PO2° ≈ fO2° = 1 bar ≈ 1 atm). It was found that xO varies less in fayalite single crystals than in polycrystalline Fe2SiO4 studied earlier. The majority defects are most likely cation vacancies, (VMe2+)″, ferric ions on M-sites, (Fe3+Me2+), and ferric ions on Si-sites, (Fe3+Si4+)′. Furthermore, the diffusion of iron in synthetic olivine single crystals ((FexMg1 − x)2SiO4) was studied at 1130 °C as a function of orientation, oxygen activity, and cationic composition. The observed oxygen activity dependencies suggest that cations move via different types of cation vacancies, most likely isolated vacancies, (VFe2+)″, and possibly neutral associates, {2(Fe3+Me2+) ⋅ (VMe2+)′ ′}x, the latter being minority defects. In addition, the electrical conductivity, σ, of fayalite single crystals was investigated as a function of orientation and oxygen activity within the stability field of fayalite at 1130 °C. The observed oxygen activity dependencies are compatible with (VMe2+)′ ′, (Fe3+Me2+), and (Fe3+Si4+)′ being the majority point defects at high aO2 and with h⋅ and e′ as the majority defects at low aO2. The electrical conduction in fayalite is governed by contributions of electrons and holes. This extended point defect model for fayalite is also compatible with data for the variation of the oxygen content and for the iron tracer diffusion.
Research highlights► We investigated relations between point defects and transport of matter in fayalite. ► Investigated were variations in the oxygen content with oxygen activity. ► Study of orientation dependence of cation tracer diffusion and electrical conduction. ► A defect model compatible with multiple experimental results was developed.