β-Thorium phosphate diphosphate (β-TPD), considered as a very promising radwaste storage material, was obtained from thorium phosphate hydrogenphosphate hydrate (TPHPH) precursor through dehydration and hydrogen phosphate condensation. The structures of TPHPH, intermediate α-thorium phosphate diphosphate (α-TPD) and its hydrate (α-TPDH) have been resolved ab initio by Rietveld analysis of their synchrotron diffraction patterns. All were found orthorhombic (space group Cmcm) and similarly composed of [ThPO4]44+ slabs alternating with disordered layers hosting either [HPO4·H2O]24- (TPHPH), [P2O7·2H2O]4- (α-TPDH), or [P2O7]4- (α-TPD), unlike the 3D structure of β-TPD. The diphosphate groups of α-TPD and α-TPDH are strongly bent. The irreversible transition to the final β-TPD consists in a shearing of the slabs and a reduction of the interslabs cavities that explains the stability of this high-temperature form. © 2006 Elsevier Inc. All rights reserved.
CITATION STYLE
Wallez, G., Clavier, N., Dacheux, N., Quarton, M., & van Beek, W. (2006). From thorium phosphate hydrogenphosphate hydrate to β-thorium phosphate diphosphate: Structural evolution to a radwaste storage ceramic. Journal of Solid State Chemistry, 179(10), 3007–3016. https://doi.org/10.1016/j.jssc.2006.05.027
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