SR1.8ND1.2MN2O7 - SYNTHESIS, CRYSTAL-STRUCTURE, AND PHYSICAL-PROPERTIES

A detailed investigation into the preparation of powder samples of the n = 2 Ruddlesden-Popper (RP) oxide Sr1.8Nd1.2Mn2O7 is presented. This material is of interest as it displays colossal magntoresistance (CMR ) without three-dimensional ferromagnetic long-range order. It is show n that Rietveld refinement of high-resolution powder X-ray and neutron diffraction data is essential to assess the outcomes of syntheses bec ause of the potential coexistence of two very similar Ruddlesden-Poppe r phases. Phase coexistence or significant temperature-dependent aniso tropic strain can be indicated by the broadening of the {0 0 10} refle ction at 5 K, This suggests that a more subtle form of the previously reported phase separation at x = 0 is also difficult to avoid at the x = 0.2 composition. Precise attention to reaction temperature and time is required to prepare samples containing only one n = 2 Ruddlesden-P opper phase, and contamination by small quantities of the n = infinity perovskite is a pervasive problem. Neutron powder diffraction structu ral analysis of the highest quality sample allows a comparison with th e three-dimensional ferromagnet Sr1.8La1.2Mn2O7. The structure suggest s that only slight changes in the Mn-O bond lengths are required to ra dically alter the electronic structure of n = 2 Ruddlesden-Popper phas es.