Clathrate formation in the systems Sr-Cu-Ge and {Ba,Sr}-Cu-Ge
I. Zeiringer, A. Grytsiv, F. Kneidinger, E. Royanian, E. Bauer, G., Giester, M. Falmbigl, P. Rogl

TL;DR
This study investigates the formation, structure, and properties of clathrate phases in Sr-Cu-Ge and Ba-Sr-Cu-Ge systems, revealing new compounds, phase equilibria, and thermal and electrical characteristics.
Contribution
It reports the discovery and detailed characterization of a new clathrate type-I phase in the Sr-Cu-Ge system and explores the extent of Ba-Sr-Cu-Ge clathrate solid solutions.
Findings
Identification of Sr8Cu5.3Ge40.7 as a clathrate type-I phase
Determination of phase equilibria at 700°C for Ge-rich compositions
Measurement of thermal, vibrational, and electrical properties of the clathrates
Abstract
In the ternary system Sr-Cu-Ge, a clathrate type-I phase, Sr8Cu5.3Ge40.7 (a = 1.06311(3), exists close to the Zintl limit in a small temperature interval. Sr8Cu5.3Ge40.7 decomposes eutectoidally on cooling at 730{\deg}C into (Ge), SrGe2 and tau1-SrCu2-xGe2+x. Phase equilibria at 700{\deg}C have been established for the Ge rich part and are characterized by the appearance of only one ternary compound, tau1-SrCu2-xGe2+x, which crystallizes with the ThCr2Si2 structure type and forms a homogeneity range up to x=0.4 (a = 0.42850(4), c = 1.0370(1) nm). Additionally, the extent of the clathrate type-I solid solution Ba8-xSrxCuyGe46-y (5.2 < y < 5.4) has been studied at various temperatures. The clathrate type-I crystal structure (space group ) has been proven by X-ray single crystal diffraction on two single crystals with composition Sr8Cu5.3Ge40.7 (a = 1.06368(2) nm) and Ba4.9Sr3.1Cu5.3Ge40.7…
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