Preferential occupation of alkaline-earth metal sites in a seemingly disordered solid solution of Ca_11−xSr_xSb₁₀: single crystal structures of Ca_8.63(5)Sr_2.37Sb₁₀ and Ca_3.66(7)Sr_7.34Sb₁₀

Abstract

Two new antimony based intermetallic phases, Ca_8.63(5)Sr_2.37Sb₁₀ (1) and Ca_3.66(7)Sr_7.34Sb10 (2), crystallizing in Ho₁₁Ge₁₀ structure type (tetragonal, I4/mmm) have been synthesized and characterized. Although both Ca₁₁Sb₁₀ and Sr₁₁Sb₁₀ are known to be isostructural (Ho₁₁Ge₁₀ structure type) and hence all Ca sites should be accessible to Sr as well, it appears that certain sites are preferentially ordered by Ca in the mixed (Ca/Sr)₁₁Sb₁₀ compounds reported here. The crystal structure of Ca_8.63(5)Sr_2.37Sb₁₀ and Ca_3.66(7)Sr_7.34Sb₁₀ has been solved from single crystal X-ray data using direct methods and refined using full-matrix least-squares method. The structure can be described as bonded network of A-Sb (A=Ca, Sr) with Sb existing as isolated Sb³⁻, diantimony Sb₂⁴⁻ and Sb₄⁴⁻ square units. Simple valence electron count reveals these compounds to be Zintl phases. It is found that the larger Sr or Sr/Ca ions preferentially occupy sites that are closer to the diantimony anions as compared to the smaller Ca ions.