In:
Zeitschrift für Kristallographie - Crystalline Materials, Walter de Gruyter GmbH, Vol. 232, No. 12 ( 2017-11-27), p. 815-825
Kurzfassung:
The formation of polycrystalline Na 2 Ca 4 Mg 2 Si 4 O 15 from solid state reactions has been studied between 800 and 1050°C. Single crystals of the compound have been grown in a closed platinum capsule by slow cooling in the temperature range between 1300 and 1000°C. Basic crystallographic data are as follows: monoclinic symmetry, space group P 12/ c 1, a =7.1717(3) Å, b =5.3512(2) Å, c =16.4789(7) Å, β=90.911(4)°, V=632.33(4) Å 3 , Z=2. A conspicuous feature of the crystals is an intensive lamellar non-merohedral twinning clearly observable already under a petrographic microscope. The diffraction pattern can be explained as a superposition of two reciprocal lattices with a two-fold axis parallel to [001] being the twin element. Using synchrotron radiation it was possible to solve the crystal structure of Na 2 Ca 4 Mg 2 Si 4 O 15 from a twinned data set. Least-squares refinements resulted in a residual of R(|F|)=0.031 for 2899 observed reflections with I 〉 2σ(I) and 127 parameters. The crystal structure contains both [Si 2 O 7 ]-dimers and insular [SiO 4 ]-moieties. Tetrahedra and [MgO 6 ]-octahedra form a three-dimensional framework whose topological characteristics have been studied. The remaining calcium and sodium cations are distributed among four crystallographically independent positions located in voids of the network. On a microscopic scale the twinning observed in the diffraction experiments could be explained by the existence of a 2 1 -screw axis parallel to [001] in (¼, 0, z ) mapping both domains onto each other. A comparison with related compounds having an A + 2 B 2+ 6 Si 4 O 15 stoichiometry is presented. More than 25 years after its first observation in refractories our investigation clarifies the crystal structure of a silicate that is of relevance for both Materials science and high pressure research.
Materialart:
Online-Ressource
ISSN:
2196-7105
,
2194-4946
DOI:
10.1515/zkri-2017-2063
Sprache:
Englisch
Verlag:
Walter de Gruyter GmbH
Publikationsdatum:
2017
SSG:
13
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