Rare-Earth Fluorite-like Li0.42La4.58Mo3O15.76±δF0.42±ε Molybdates: Crystal Growth and Atomic Structure

Rare-Earth Fluorite-like Li0.42La4.58Mo3O15.76±δF0.42±ε Molybdates: Crystal Growth and Atomic Structure

Rare-earth fluorine-containing molybdates of the Ln5Mo3O16+δ oxygen–electron conductor family with the LiLa4Mo3O15F composition were synthesized for the first time as single crystals by the flux method. An accurate X-ray diffraction analysis of the obtained crystals was carried out at 20 and −183 °C...

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Veröffentlicht in:Crystals (Basel) 2023-07, Vol.13 (7), p.1009
Hauptverfasser: Orlova, Ekaterina I., Sorokin, Timofei A., Kvartalov, Vladimir B., Antipin, Alexander M., Novikova, Nataliya E., Kharitonova, Elena P., Sorokina, Nataliya I., Alekseeva, Olga A., Voronkova, Valentina I.
Format: Artikel
Sprache:eng
Schlagworte:
Atomic structure
Crystal growth
crystal structure
Fluorine
fluorine-containing molybdates
Fluorite
Lanthanum
Lithium
Molybdates
Molybdenum
Nd5Mo3O16
oxyfluorides
Oxygen
Phase transitions
Rare earth elements
rare-earth molybdates
Single crystals
Software packages
Solvents
Temperature
X-ray diffraction
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Zusammenfassung:Rare-earth fluorine-containing molybdates of the Ln5Mo3O16+δ oxygen–electron conductor family with the LiLa4Mo3O15F composition were synthesized for the first time as single crystals by the flux method. An accurate X-ray diffraction analysis of the obtained crystals was carried out at 20 and −183 °C. The LiLa4Mo3O15F compound is isostructural to the fluorine-free analogue with a cubic structure (space group Pn3¯n). It is shown that lithium atoms replace one of the two positions of lanthanum in the more distorted LaO8 polyhedron. According to X-ray diffraction analysis, fluorine atoms replace the positions of over-stoichiometric oxygen located in the vast cavities of the structure. So, fluorine anions can promote the interstitial conductivity of F-containing LiLa4Mo3O15F molybdates.
ISSN:2073-4352
2073-4352
DOI:10.3390/cryst13071009