Structural and Raman spectroscopic characterization of pyroxene-type compounds in the CaCu 1-x Zn x Ge 2 O 6 solid-solution series

Pyroxene-type germanate compounds with the composition CaCuGe O -CaZnGe O have been synthesized via a solid-state ceramic sintering route. Phase-pure polycrystalline and small single-crystal material was obtained all over the series, representing a complete solid-solution series. Differential therma...

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Bibliographic Details
Published in:Acta crystallographica Section B, Structural science, crystal engineering and materials Structural science, crystal engineering and materials, 2017-06, Vol.73 (Pt 3), p.419-431
Main Authors: Redhammer, Günther J, Tippelt, Gerold, Reyer, Andreas, Gratzl, Reinhard, Hiederer, Andreas
Format: Article
Language:English
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Summary:Pyroxene-type germanate compounds with the composition CaCuGe O -CaZnGe O have been synthesized via a solid-state ceramic sintering route. Phase-pure polycrystalline and small single-crystal material was obtained all over the series, representing a complete solid-solution series. Differential thermal analysis, single-crystal X-ray diffraction and Raman spectroscopy were used to characterize phase stability, phase changes and structural alterations induced by the substitution of Cu with Zn . Whereas pure CaCuGe O exhibits P2 /c symmetry with a strong distortion of the M1 octahedra and two different Ge sites, one of them with an unusual fivefold coordination, the replacement of Cu by Zn induces a chemically driven phase change to the C2/c symmetry. The phase change takes place around Zn contents of 0.12 formula units and is associated with large changes in the unit-cell parameters. Here, the increase of c by as much as 3.2% is remarkable and it is mainly controlled by an expansion of the tetrahedral chains. Further differences between the P2 /c and C2/c structures are a more regular chain of edge-sharing M1 octahedra as a consequence of more and more reduced Jahn-Teller distortion and a less kinked, symmetry-equivalent tetrahedral chain. The coordination of the Ca site increases from sevenfold to eightfold with large changes in the Ca-O bond lengths during the phase change. Raman spectroscopy was mainly used to monitor the P2 /c to C2/c phase change as a function of composition, but also as a function of temperature and to follow changes in specific Raman modes throughout the solid-solution series.
ISSN:2052-5206
2052-5206
DOI:10.1107/S205252061700381X