The phase stabilities of Y2Ti2O7 and Y2Zr2O7 under high pressure were investigated by ab initio methods. Pyrochlore-structured Y2Ti2O7 and defect-fluorite Y2Zr2O7 exhibit different responses to high pressure. Both the defect-fluorite and defect-cotunnite structures are energetically more stable at high pressure in Y2Ti2O7, but comparison with experimental results suggest that only the transformation to the defect-fluorite structure is kinetically favored. For Y2Zr2O7, the defect-fluorite phase should undergo a structural transformation to the defect-cotunnite state under high pressure.
Revised: January 14, 2010 |
Published: December 31, 2009
Citation
Xiao H.Y., F. Gao, and W.J. Weber. 2009.Ab initio investigation of phase stability of Y2Ti2O7 and Y2Zr2O7 under high pressure.Physical Review. B, Condensed Matter and Materials Physics 80, no. 21:Art. No. 212102.PNNL-SA-69949.doi:10.1103/PhysRevB.80.212102