Author
Listed:
- Geoffrey Monet
(Université Paris Saclay)
- Mohamed S. Amara
(Université Paris Saclay)
- Stéphan Rouzière
(Université Paris Saclay)
- Erwan Paineau
(Université Paris Saclay)
- Ziwei Chai
(Beijing Computational Science Research Centre)
- Joshua D. Elliott
(The University of Liverpool
Università degli Studi di Padova)
- Emiliano Poli
(The University of Liverpool
The Abdus Salam International Centre for Theoretical Physics)
- Li-Min Liu
(Beijing Computational Science Research Centre
Beihang University)
- Gilberto Teobaldi
(Beijing Computational Science Research Centre
The University of Liverpool)
- Pascale Launois
(Université Paris Saclay)
Abstract
Determination of the atomic structure of inorganic single-walled nanotubes with complex stoichiometry remains elusive due to the too many atomic coordinates to be fitted with respect to X-ray diffractograms inherently exhibiting rather broad features. Here we introduce a methodology to reduce the number of fitted variables and enable resolution of the atomic structure for inorganic nanotubes with complex stoichiometry. We apply it to recently synthesized methylated aluminosilicate and aluminogermanate imogolite nanotubes of nominal composition (OH)3Al2O3Si(Ge)CH3. Fitting of X-ray scattering diagrams, supported by Density Functional Theory simulations, reveals an unexpected rolling mode for these systems. The transferability of the approach opens up for improved understanding of structure–property relationships of inorganic nanotubes to the benefit of fundamental and applicative research in these systems.
Suggested Citation
Geoffrey Monet & Mohamed S. Amara & Stéphan Rouzière & Erwan Paineau & Ziwei Chai & Joshua D. Elliott & Emiliano Poli & Li-Min Liu & Gilberto Teobaldi & Pascale Launois, 2018.
"Structural resolution of inorganic nanotubes with complex stoichiometry,"
Nature Communications, Nature, vol. 9(1), pages 1-9, December.
Handle:
RePEc:nat:natcom:v:9:y:2018:i:1:d:10.1038_s41467-018-04360-z
DOI: 10.1038/s41467-018-04360-z
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