Local Structure, Dynamics, and the Mechanisms of Oxide Ionic Conduction in Bi26Mo10O69

We report the results of a computational and experimental study into the stabilized fluorite-type δ-Bi2O3-related phase Bi26Mo10O69 aimed at clarifying the local and average structure, for which two distinct models have previously been proposed, and the oxide ionic diffusion mechanism, for which thr...

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Bibliographic Details
Published in:Chemistry of materials 2012-12, Vol.24 (23), p.4607-4614
Main Authors: Ling, Chris D, Miiller, Wojciech, Johnson, Mark R, Richard, Didier, Rols, Stéphane, Madge, Jim, Evans, Ivana R
Format: Article
Language:English
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Summary:We report the results of a computational and experimental study into the stabilized fluorite-type δ-Bi2O3-related phase Bi26Mo10O69 aimed at clarifying the local and average structure, for which two distinct models have previously been proposed, and the oxide ionic diffusion mechanism, for which three distinct models have previously been proposed. Concerning the structure, we propose a new model in which some molybdenum atoms have higher coordination numbers than 4; that is, some MoO5 trigonal bipyramids coexist with MoO4 tetrahedra. This accounts for the additional oxygen required to achieve the nominal composition (a tetrahedron-only model gives Bi26Mo10O68) without invoking a previously proposed unbonded interstitial site, which we found to be energetically unfavorable. All these MoO x units are rotationally disordered above a first-order transition at 310 °C, corresponding to a first-order increase in conductivity. Concerning oxide ionic diffusion above that transition temperature, we found excellent agreement between the results of ab initio molecular dynamics simulations and quasielastic neutron scattering experiments. Our results indicate a mechanism related to that proposed by Holmes et al. (Chem. Mater. 2008, 20, 3638), with the role previously assigned to partially occupied interstitial oxygen sites played instead by transient but stable MoO5 trigonal bipyramids and with more relaxed requirements in terms of the orientation and timing of the diffusive jumps.
ISSN:0897-4756
1520-5002
DOI:10.1021/cm303202r