Layered Compounds BaM₂Ge₄Ch₆ (M = Rh, Ir and Ch = S, Se) with Pyrite-Type Building Blocks and Ge–Ch Heteromolecule-Like Anions

Abstract

The structures and chemical features of layered compounds BaM₂Ge₄Ch₆ (M = Rh, Ir; Ch = S, Se) synthesized by high-pressure and high-temperature methods have been systematically studied. These compounds crystallize in an orthorhombic phase with space group <i>Pbca</i> (No. 61). These compounds have the remarkable structural feature of M–Ge–Ch pyrite-type building units, stacking with Ba–Ch layers alternatively along the <i>c</i> axis. It is very rare and novel that pyrite-type subunits are the building blocks in layered compounds. Theoretical calculations and experimental results indicate that there are strongly polarized covalent bonds between Ge and Ch atoms, forming heteromolecule-like anions in these compounds. Moreover, Ge atoms in this structure exhibit an unusual valence state (∼+1) due to the tetrahedral coordination environment of Ge atoms along with M and Ch atoms simultaneously