Crystal Growth and Structure of AlSr2YCu2O7

Abstract

Millimeter-size crystals of AlSr2YCu2O7 were synthesized by the flux method in alumina crucibles. Different mixtures of SrO:CuO (ranging from 25:75 to 12:88 mol ratio) were used as flux. No aluminum was added to the reagents. Depending on the flux composition and cooling rate, crystals different in morphology and size were obtained. The crystals appear to be tetragonal, space group P4/mmm. However, electron diffraction photographs, in agreement with Ramı́rez-Castellanos et al. (1), reveal that the symmetry is othorhombic with a cell a=2at, b=4at, and c=2ct (the subscript t refers to the YBCO tetragonal cell). The structural refinement was based on X-ray data collected with a KCCD Nonius diffractometer equipped with a graphite monochromator and AgKα radiation. One hundred and ninety-seven independent reflections with respect to the space symmetry quoted above, with I>3σ, were used. The arrangement is that of a YBCO structure in which the chain Cu cations have been replaced by Al. This substitution induces the movement of the oxygen atoms in the basal layer in such a way as to form, together with the apical oxygen atoms, corner-sharing zig-zag chains of oxygen tetrahedra centered around the Al cations and running parallel to the a-axis either tetragonally or orthorhombically. The b- and c-axes are quadrupled and doubled, respectively, because the zig-zag chains are out of phase perpendicularly to these directions. The additional distortion results in the shift of Al to xx0 (x≈0.056) from 000, O1 to xxz (x≈0.073) from 00z, and O3 to (0.5, y, 0) (y≈0.116) from (0.5, 0, 0).