A coupled electron diffraction and rigid unit mode (RUM) study of the crystal chemistry of some zeotypic AlPO4 compounds

Date

2005

Authors

Withers, Raymond
Liu, Yun

Journal Title

Journal ISSN

Volume Title

Publisher

Academic Press

Abstract

Electron diffraction and lattice dynamical calculations are used to investigate the unit cells, space group symmetries and inherent displacive flexibility of the room-temperature average structures of AlPO4-8, AlPO4-16 and AlPO4-tridymite. The zero-frequency rigid unit modes (RUMs) of the idealized high-symmetry polymorphs thereof are also investigated along with their relationship to the lower-temperature polymorphism of these zeotypic aluminophosphates. The clear presence of G±12c* satellite reflections in addition to the Bragg reflections (G) of the underlying Cmc21 parent structure in the case of AlPO4-8 shows that the true unit cell of the room-temperature polymorph has a doubled c-axis due to a condensed RUM mode. Structured diffuse scattering is also observed which can be related to the thermal excitation of RUM modes. In the case of AlPO 4-tridymite, a complex F1 triclinic polymorph is observed and related to soft RUM modes while, in the case of AlPO4-16, a soft q=0 RUM mode is shown to be responsible for an observed phase transition in the case of the all SiO2 analogue of AlPO4-16. A large number of additional zero-frequency RUM modes also exist in the case of AlPO 4-16.

Description

Keywords

Keywords: Crystal atomic structure; Crystal lattices; Electron diffraction; Electron reflection; Heat treatment; Silica; Characteristic diffuse distributions; Correlated tetrahedral rotation; Dynamical disorder; Microporous aluminophosphates; Aluminum compounds Characteristic diffuse distributions; Correlated tetrahedral rotations; Dynamical disorder; Microporous aluminophosphates

Citation

Source

Journal of Solid State Chemistry

Type

Journal article

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2037-12-31