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Nanocomposite structure of two-line ferrihydrite powder from total scattering.


ABSTRACT: Ferrihydrite is one of the most important iron-containing minerals on Earth. Yet determination of its atomic-scale structure has been frustrated by its intrinsically poor crystallinity. The key difficulty is that physically-different models can appear consistent with the same experimental data. Using X-ray total scattering and a nancomposite reverse Monte Carlo approach, we evaluate the two principal contending models-one a multi-phase system without tetrahedral iron(III), and the other a single phase with tetrahedral iron(III). Our methodology is unique in considering explicitly the complex nanocomposite structure the material adopts: namely, crystalline domains embedded in a poorly-ordered matrix. The multi-phase model requires unphysical structural rearrangements to fit the data, whereas the single-phase model accounts for the data straightforwardly. Hence the latter provides the more accurate description of the short- and intermediate-range order of ferrihydrite. We discuss how this approach might allow experiment-driven (in)validation of complex models for important nanostructured phases beyond ferrihydrite.

SUBMITTER: Funnell NP 

PROVIDER: S-EPMC9814407 | biostudies-literature | 2020 Feb

REPOSITORIES: biostudies-literature

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Nanocomposite structure of two-line ferrihydrite powder from total scattering.

Funnell Nicholas P NP   Fulford Maxwell F MF   Inoué Sayako S   Kletetschka Karel K   Michel F Marc FM   Goodwin Andrew L AL  

Communications chemistry 20200221 1


Ferrihydrite is one of the most important iron-containing minerals on Earth. Yet determination of its atomic-scale structure has been frustrated by its intrinsically poor crystallinity. The key difficulty is that physically-different models can appear consistent with the same experimental data. Using X-ray total scattering and a nancomposite reverse Monte Carlo approach, we evaluate the two principal contending models-one a multi-phase system without tetrahedral iron(III), and the other a single  ...[more]

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