Novel arachno-type X₅^6- zintl anions in Sr₃Sn₅, Ba₃Sn₅, and Ba₃Pb₅ and charge influence on zintl clusters

Two new binary Zintl phases, Sr₃Sn₅ and Ba₃Sn₅ were synthesized and structurally characterized. The revised structure of Ba₃Pb₅ is also reported. All three compounds are isotypic and crystallize with a modified Pu₃Pd₅ structure type. The anionic substructure is composed of X₅^6- square pyramidal clusters (X = Sn, Pb), which are described as arachno clusters according to the Wade-Mingos electron counting rules. The electronic structure of the pyramidal Zintl anions and the influence of the number of skeletal electrons of these clusters are investigated using the electron localization function (ELF). The structural relationship between Ba₃Sn₅ and the Zintl phases Ba₃Si₄ and Ba₃Ge₄ are analyzed. Additionally, two new Zintl phases Ba₃Ge_2.82Sn_2.18 and Ba₃Ge_3.94Sn_0.06, have been synthezised and their structures are reported, which directly show that the exchange of tin against germanium leads to a change from the M₃X₅ to the M₃X₄ structure type. This effect is traced back to the maximal charge acquisition property of the Zintl anions of heavier and lighter tetralides.