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Philosophical Magazine Volume 86, 2006 - Issue 15: Interfacial Processes and Properties of Advanced Materials, Caen, France, 28–30 June 2004, Guest Editors: Paul Bristowe and Pierre Ruterana
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Original Articles

First-principles structural stability in the strontium–titanium–oxygen system

O. Le Bacq Laboratoire de Thermodynamique et de Physico-Chimie Métallurgiques, Domaine Universitaire, UMR 5614 (CNRS, INPG, UJF), B.P. 75, 38402 St Martin d'Hères Cedex, France
,
E. Salinas Laboratoire de Thermodynamique et de Physico-Chimie Métallurgiques, Domaine Universitaire, UMR 5614 (CNRS, INPG, UJF), B.P. 75, 38402 St Martin d'Hères Cedex, France
,
A. Pisch Laboratoire de Thermodynamique et de Physico-Chimie Métallurgiques, Domaine Universitaire, UMR 5614 (CNRS, INPG, UJF), B.P. 75, 38402 St Martin d'Hères Cedex, France
,
C. Bernard Laboratoire de Thermodynamique et de Physico-Chimie Métallurgiques, Domaine Universitaire, UMR 5614 (CNRS, INPG, UJF), B.P. 75, 38402 St Martin d'Hères Cedex, France
&
A. Pasturel Laboratoire de Physique et Modélisation des Milieux Condensés (LPMMC), Maison des magistères – CNRS, BP166, 38042 Grenoble Cedex 09, FranceCorrespondence[email protected]
Pages 2283-2292 | Received 17 Oct 2005, Accepted 06 Dec 2005, Published online: 21 Feb 2007
 
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Abstract

First principles calculations have been made to theoretically interpret the structural stability of SrTiO3 as a function of pressure or strain. We show that the orthorhombic Pbnm structure is more stable than the ideal perovskite one due to rotations of TiO6 octahedrons at high pressures or deformations of TiO6 octahedrons at low pressures. Such a study is extended to the structural stability of the Ruddlesden–Popper Sr n +1Ti n O3 n +1 phases for n = 1, 2 and 3, in which the lattice constraints are induced by the intercalation of SrO layers in the perovskite structure.

Acknowledgments

We acknowledge Laboratoire de Physique et Modélisation des Milieux Condensés for computational resources on the PC cluster PHYNUM (CIMENT, Grenoble).

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