Pa 3̅ Modified Fluorite-Type Structures in Metal Dioxides at High Pressure

2 February 1996

journal article
other
Published by American Association for the Advancement of Science (AAAS) in Science

Vol. 271 (5249) , 629-631
https://doi.org/10.1126/science.271.5249.629

Abstract

Rutile-structured SnO ₂ , PbO ₂ , and RuO ₂ have long been known to transform to cubic high-pressure phases, for which a fluorite structure has been assumed. Rietveld refinement results from x-ray diffraction studies indicated that these phases have a modified fluorite structure (space group Pa 3̅). Thus, for metal dioxides, all known cubic, postrutile phases have the Pa 3̅ structure, thereby providing experimental examples of the high-pressure structure predicted from theoretical calculations for stishovite (rutile-structured silica). High-pressure transitions in stishovite may have profound implications for the geochemistry of the core-mantle boundary.

Keywords

This publication has 20 references indexed in Scilit:

Transformation of stishovite to a denser phase at lower-mantle pressures
Nature, 1995
Phase transitions in ruthenium dioxide up to 40 GPa: Mechanism for the rutile-to-fluorite phase transformation and a model for the high-pressure behavior of stishovite ${SiO}_{2}$
Physical Review B, 1993
First principles methods for structural trends in oxides: applications to crystalline silica
Journal of Alloys and Compounds, 1993
Structural properties of nine silica polymorphs
Physical Review B, 1992
X-ray study of SnO₂under high pressure and temperature generated with sintered diamond anvils
High Pressure Research, 1990
A new, post-stishovite highpressure polymorph of silica
Nature, 1989
Theoretical evidence for a new ultra-high-pressure phase of SiO2
Nature, 1988
A Fluorite Isotype of SnO ₂ and a New Modification of TiO ₂ : Implications for the Earth's Lower Mantle
Science, 1978
Synthesis of a new high-pressure ohase of tin dioxide and some geophysical implications
Physics of the Earth and Planetary Interiors, 1974
High‐Pressure‐High‐Temperature Polymorphism of the Oxides of Lead
Journal of the American Ceramic Society, 1961