Refinement of the crystal structure of fresnoite, Ba 2 TiSi 2 O 8 , from Löhley (Eifel district, Germany); Gladstone-Dale compatibility, electronic polarizability and vibrational spectroscopy of minerals and inorganic compounds with pentacoordinated Ti IV and a titanyl bond

Refinement of the crystal structure of fresnoite, Ba 2 TiSi 2 O 8 , from Löhley (Eifel district, Germany); Gladstone-Dale compatibility, electronic polarizability and vibrational spectroscopy of minerals and inorganic compounds with pentacoordinated Ti IV and a titanyl bond

Most known compounds with five-coordinated Ti are natural and synthetic titanosilicates. The crystal structure of natural fresnoite, Ba TiSi O [tetragonal, space group P4bm, a = 8.510 (1) Å, c = 5.197 (1) Å, V = 376.4 (1) Å , Z = 2], has been refined to R = 0.011 on the basis of 807 unique single-cr...

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Bibliographic Details
Published in:Acta crystallographica Section B, Structural science, crystal engineering and materials Vol. 79; no. Pt 2; pp. 184 - 194
Main Authors: Chukanov, Nikita V, Kazheva, Olga N, Fischer, Reinhard X, Aksenov, Sergey M
Format: Journal Article
Language:English
Published: England 01-04-2023
Subjects:
fresnoite
electronic polarization
pentacoordinated titanium
optical properties
titanyl bond
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Summary:Most known compounds with five-coordinated Ti are natural and synthetic titanosilicates. The crystal structure of natural fresnoite, Ba TiSi O [tetragonal, space group P4bm, a = 8.510 (1) Å, c = 5.197 (1) Å, V = 376.4 (1) Å , Z = 2], has been refined to R = 0.011 on the basis of 807 unique single-crystal reflections with I > 2σ(I). Titanium has fivefold coordination with one short (`titanyl') bond of 1.692 (5) Å. Bonds in the TiO polyhedron are discussed in comparison to analogous coordination polyhedra in other minerals and compounds. A review of all known compounds with Ti O polyhedra shows that most of them are titanosilicates in which titanium forms a short Ti-O bond (∼1.61 to ∼1.77 Å). Poor Gladstone-Dale compatibility between chemical composition, optical characteristics and density of these compounds is explained by the anomalous contribution of Ti to the optical properties as shown by calculations based on the relationship between electronic polarizabilities and refractive indices. An improved Gladstone-Dale coefficient of 0.29 is suggested for TiO with Ti . A negative correlation between `titanyl' bond lengths and wavenumbers of the bands of Ti-O stretching vibrations (in the range of 890-830 cm ) in infrared and Raman spectra is observed.
ISSN:2052-5206
2052-5206
DOI:10.1107/S2052520622012045