Structural organization and thermal behavior of the compounds Rb 3  (SbF 3 )(Zr 2 F 11 ) · 0.5H 2 O and Rb 3  (SbF 3 )(Zr 2 F 11 )

А. V. Gerasimenko; Герасименко А. В.; T. F. Antokhina; Антохина Т. Ф.; N. N. Savchenko; Савченко Н. Н.

doi:10.31857/S0044457X24090109

Structural organization and thermal behavior of the compounds Rb₃ (SbF₃)(Zr₂F₁₁) · 0.5H₂O and Rb₃ (SbF₃)(Zr₂F₁₁)

Authors: Gerasimenko А.V.¹, Antokhina T.F.¹, Savchenko N.N.¹
Affiliations:
1. Institute of Chemistry FEB RAS
Issue: Vol 69, No 9 (2024)
Pages: 1296-1307
Section: КООРДИНАЦИОННЫЕ СОЕДИНЕНИЯ
URL: https://journals.rcsi.science/0044-457X/article/view/280497
DOI: https://doi.org/10.31857/S0044457X24090109
EDN: https://elibrary.ru/JSTPGS
ID: 280497

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Abstract

The compound Rb₃(SbF₃)(Zr₂F₁₁)·0.5H₂O has been synthesized, its structure and the structure of its dehydration product have been studied. The Rb₃(SbF₃)(Zr₂F₁₁)·0.5H₂O compound has a unique fluoridozirconate framework structure built from circular tetrameric fragments (Zr₄F₂₄) linked to each other at the vertices by bridging fluorine atoms. Inside the tetrameric fragments, the ZrF₈-polyhedra are linked to each other along common edges. The zirconium framework $_{\infty}^{3}$ [Zr₂F₁₁]^3– is linked by fluoride bridges Zr–F–Sb from the second coordination sphere of antimony atoms. The structure of the dehydrated compound Rb₃(SbF₃)(Zr₂F₁₁) is a three-dimensional framework consisting of infinite chains of the $_{\infty}^{1}$ [Zr₂F₁₁]^3– composition of ZrF₇-polyhedra bonded along the edges and vertices. The chains are linked to each other into a 3D framework by Zr–F–Sb bridges from the second coordination sphere of antimony atoms. In the temperature range 247–256 K, the compound Rb₃(SbF₃)(Zr₂F₁₁) undergoes a reversible phase transition from partially disordered high-temperature α-phase to ordered low-temperature β-phase. Taking into account fluorine atoms of the second coordination sphere and the lone electron pair coordination polyhedra are formed in structures around the antimony atoms in the form of distorted octahedra (SbEF₅) and capped octahedra (SbEF₆).

Keywords

fluoridocirconate, crystal structure, crystallohydrate, dehydration, phase transition

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About the authors

А. V. Gerasimenko

Institute of Chemistry FEB RAS

Author for correspondence.
Email: gerasimenko@ich.dvo.ru
Russian Federation, Vladivostok, 690022

T. F. Antokhina

Institute of Chemistry FEB RAS

Email: gerasimenko@ich.dvo.ru
Russian Federation, Vladivostok, 690022

N. N. Savchenko

Institute of Chemistry FEB RAS

Email: gerasimenko@ich.dvo.ru
Russian Federation, Vladivostok, 690022

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2. Fig. 1. Fragment of the zirconium-antimonium framework in structure I (the bonds of the second coordination sphere of Sb atoms are shown as dotted lines)

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3. Fig. 2. Projection of the crystal structure of I onto the ab plane (the bonds of the second coordination sphere of Sb atoms are shown as dotted lines)

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4. Fig. 3. Fragment of the zirconium-antimonium framework in structure II (the bonds of the second coordination sphere of Sb atoms are shown as dotted lines)

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5. Fig. 4. Projection of the crystal structure II onto the ab plane (the bonds of the second coordination sphere of Sb atoms are shown as dotted lines)

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6. Fig. 5. Fragments of two types of zirconium chains in structure III: (a), (b)

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7. Fig. 6. Projection of the crystal structure III onto the ab plane (the bonds of the second coordination sphere of Sb atoms are shown as dotted lines)

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Vol 70, No 2 (2025)

Vol 70, No 2 (2025)

Structural organization and thermal behavior of the compounds Rb3 (SbF3)(Zr2F11) · 0.5H2O and Rb3 (SbF3)(Zr2F11)

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Abstract

Keywords

Full Text

About the authors

А. V. Gerasimenko

T. F. Antokhina

N. N. Savchenko

References

Supplementary files

Structural organization and thermal behavior of the compounds Rb₃ (SbF₃)(Zr₂F₁₁) · 0.5H₂O and Rb₃ (SbF₃)(Zr₂F₁₁)