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Real Structure, Magnetism and Chemical Bonding of SmSi3−x

MPS-Authors
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Neziraj,  Teuta
Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Prots,  Yurii
Yuri Prots, Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Carrillo-Cabrera,  Wilder
Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Ormeci,  Alim
Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Wirth,  Steffen
Steffen Wirth, Physics of Correlated Matter, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Burkhardt,  Ulrich
Ulrich Burkhardt, Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Grin,  Yuri
Juri Grin, Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Schwarz,  Ulrich
Ulrich Schwarz, Chemical Metal Science, Max Planck Institute for Chemical Physics of Solids, Max Planck Society;

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Citation

Neziraj, T., Prots, Y., Carrillo-Cabrera, W., Ormeci, A., Wirth, S., Fitch, A., et al. (2024). Real Structure, Magnetism and Chemical Bonding of SmSi3−x. European Journal of Inorganic Chemistry, 27(13): e202300738, pp. 1-10. doi:10.1002/ejic.202300738.


Cite as: https://hdl.handle.net/21.11116/0000-000F-3C5A-A
Abstract
New metastable SmSi3−x (x=0–0.05) is obtained by high-pressure high-temperature synthesis (9.5 GPa, 870–1270 K). Powder diffraction data refinements reveal that the crystal structure of SmSi3 is isotypic to that of YbSi3 (space group I4/mmm, a=7.23634(5) Å, c=11.0854(1) Å). In the crystal structure, two types of Si2 dumbbells agglomerate into layers, which embed the samarium atoms. At ambient pressure, SmSi3 decomposes exothermally upon heating into Si and SmSi2−x. Single-crystal structure refinements of a specimen SmSi3−x (x=0.05) reveal considerable electron density, which is not accounted for by the YbSi3-type model. The additional maxima can be assigned to disorder which affects the samarium positions and induces silicon vacancies. Scanning transmission electron microscopy experiments evidence that the disorder can be attributed to extended defects. Magnetic measurements on SmSi3−x reveal van Vleck paramagnetic behavior and antiferromagnetic ordering at low temperatures. Computations within the local spin density approximation (LSDA and LSDA+U) on the crystal structure of SmSi3 reproduce the antiferromagnetic coupling as the favored long-range order. Quantum chemical analysis of the chemical bonding in SmSi3 reveals two-center two-electron bonds within the Si2 dumbbells plus a total of a little less than four electrons in lone pairs at each silicon atom. © 2024 The Authors. European Journal of Inorganic Chemistry published by Wiley-VCH GmbH.