Self-flux-grown Ba(4)Fe(4)ClO(9.5−x) crystals exhibiting structures with tunable modulation

The synthesis and X-ray structural study of the new family of compounds Ba(4)Fe(4)ClO(9.5−x) with tunable structural modulation are reported. The framework of the structure has the Ba(2)Fe(4)O(9.5−x) composition, with open hexagonal channels extending along the c-axis. The channels are filled with linear [Ba–Cl–Ba] triplets. The oxygen stoichiometry and the oxidation state of iron both are controlled by the redox conditions during crystal preparation. The modulation of the crystal structure arises from the distribution of the oxygen atoms in the framework and iron coordination polyhedra are a combination of FeO(4)-tetrahedra, FeO(5)-bipyramids, and FeO(6)-octahedra. The structure modulation also originates from the ordered or disordered distribution of the [Ba–Cl–Ba] triplets filling the channels which is also affected by the conditions of the thermal treatment of the crystals. The structure investigation reveals a composition variation from Ba(4)Fe(4)ClO(9.5) (x = 0), in which Fe exhibits a 3+ oxidation state, to Ba(4)Fe(4)ClO(8) (x = 1.5) with the framework built exclusively of FeO(4) tetrahedra.