MOLOKEEV M., S.; BOGDANOV E., V.; MISYUL S., V.; TRESSAUD, Alain; FLEROV, Igor N.

doi:10.1016/j.jssc.2013.01.038

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MOLOKEEV M., S.
L.V. Kirensky Institute of Physics

BOGDANOV E., V.
L.V. Kirensky Institute of Physics
Institute of Energetics and Management of Energetic Sources

MISYUL S., V.
Institute of Physical Engineering and Radioelectronics

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Journal of Solid State Chemistry. 2013, vol. 200, p. 157-164

Elsevier

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For the first time, structural phase transitions induced by the temperature were found in AxMxIIM(1−x)IIIF3 fluorides with the defect pyrochlore structure (FdView the MathML sourcem, Z=8). The room temperature structure of CsFe2F6 was determined using X-ray powder diffraction technique. This phase was found to be ordered with the Pnma space group. The study of the temperature stability of orthorhombic structure by differential scanning calorimeter between 100 K and 700 K has shown a succession of phase transitions. The Pnma (Z=4)→Imma (Z=4)→I41/amd (Z=4)→FdView the MathML sourcem (Z=8) structural sequence was proposed to occur within a rather narrow temperature range 500-560 K. The mechanism of structural transition has been mainly associated with the rotation of (MF6) octahedra and small displacements of some Fe atoms. This assumption is in good agreement with the low experimental entropy value, which is characteristic for displacive transformations.< Réduire

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Phase transitions

Iron fluorides

Defect pyrochlore

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Crystal structure and phase transition mechanisms in CsFe2F6

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