A new high-pressure strontium germanate, SrGe2O5

A new high-pressure strontium germanate, SrGe2O5

The Sr–Ge–O system has an earth‐scientific importance as a potentially good low‐pressure analog of the Ca–Si–O system, one of the major components in the constituent minerals of the Earth's crust and mantle. However, it is one of the germanate systems that has not yet been fully examined in the...

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Published in:Acta crystallographica. Section C, Crystal structure communications Vol. 72; no. 10; pp. 716 - 719
Main Authors: Nakatsuka, Akihiko, Sugiyama, Kazumasa, Ohkawa, Makio, Ohtaka, Osamu, Fujiwara, Keiko, Yoshiasa, Akira
Format: Journal Article
Language:English
Published: 5 Abbey Square, Chester, Cheshire CH1 2HU, England International Union of Crystallography 01-10-2016
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Subjects:
cation size
covalency
crystal structure
Crystallization
high-pressure phase
Materials science
Minerals
single-crystal X-ray diffraction
SrGe2O5
strontium germanate
Studies
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Summary:The Sr–Ge–O system has an earth‐scientific importance as a potentially good low‐pressure analog of the Ca–Si–O system, one of the major components in the constituent minerals of the Earth's crust and mantle. However, it is one of the germanate systems that has not yet been fully examined in the phase relations and structural properties. The recent findings that the SrGeO3 high‐pressure perovskite phase is the first Ge‐based transparent electronic conductor make the Sr–Ge–O system interesting in the field of materials science. In the present study, we have revealed the existence of a new high‐pressure strontium germanate, SrGe2O5. Single crystals of this compound crystallized as a co‐existent phase with SrGeO3 perovskite single crystals in the sample recovered in the compression experiment of SrGeO3 pseudowollastonite conducted at 6 GPa and 1223 K. The crystal structure consists of germanium–oxygen framework layers stacked along [001], with Sr atoms located at the 12‐coordinated cuboctahedral site; the layers are formed by the corner linkages between GeO6 octahedra and between GeO6 octahedra and GeO4 tetrahedra. The present SrGe2O5 is thus isostructural with the high‐pressure phases of SrSi2O5 and BaGe2O5. Comparison of these three compounds leads to the conclusion that the structural responses of the GeO6 and GeO4 polyhedra to cation substitution at the Sr site are much less than that of the SrO12 cuboctahedron to cation substitution at the Ge sites. Such a difference in the structural response is closely related to the bonding nature. A new strontium germanate, SrGe2O5, was crystallized at 6 GPa and 1223 K. The effect of cation size on the crystal structure is discussed in terms of bonding nature.
Bibliography:istex:34F87625C549813D721746D0BE8C28F502FB4592
ark:/67375/WNG-FDPVD9TH-F
ArticleID:AYC2LG3193
ObjectType-Article-1
SourceType-Scholarly Journals-1
ObjectType-Feature-2
content type line 23
ISSN:2053-2296
0108-2701
2053-2296
1600-5759
DOI:10.1107/S205322961601353X