115 research outputs found
Growth of Antiperovskite Oxide Ca3SnO Films by Pulsed Laser Deposition
We report the epitaxial growth of Ca3SnO antiperovskite oxide films on
(001)-oriented cubic yttria-stabilized zirconia (YSZ) substrates by using a
conventional pulsed laser deposition (PLD) technique. In this work, a sintered
Ca3SnO pellet is used as the ablation target. X-ray diffraction measurements
demonstrate the (001) growth of Ca3SnO films with the antiperovskite structure
and a cube-on-cube orientation relationship to the YSZ substrate. The
successful synthesis of the antiperovskite phase is further confirmed by x-ray
photoemission spectroscopy. These results strongly suggest that
antiperovskite-oxide films can be directly grown on substrates from the target
material using a PLD technique
Redetermination of the distorted perovskite Nd0.53Sr0.47MnO3
Neodymium strontium manganese oxide with ideal composition Nd0.5Sr0.5MnO3 was reported to have two different structure models. In one model, the x coordinate of an O atom is at x > 1/2, while in the other model the x-coordinate of this atom is at x < 1/2. Difference-density maps around this O atom obtained from the current redetermination clearly show that the structure with the O atom at x < 1/2 result in a more satisfactory model than that with x > 1/2. The title compound with a refined composition of Nd0.53 (5)Sr0.47 (5)MnO3 is a distorted perovskite-type structure with site symmetries 2mm for the statistically occupied (Nd, Sr) site and for the above-mentioned O atom, .2/m. for the Mn atom and ..2 for a second O-atom site. In contrast to previous studies, the displacement factors for all atoms were refined anisotropically
Charge-Order Pattern of the Low-Temperature Phase of NaV2O5 Uniquely Determined by Resonant X-Ray Scattering from Monoclinic Single Domain
The present resonant x-ray scattering from each of monoclinically-split
single domains of NaV2O5 has critically enhanced contrast between V4+ and V5+
ions strong enough to lead to unambiguous conclusion of the charge-order
pattern of its low-temperature phase below Tc = 35 K. The zig-zag type
charge-order patterns in the -plane previously confirmed have four kinds of
configurations (A, A', B and B') and the stacking sequence along the c-axis is
determined as the AAA'A' type by comparison with model calculations. By
assigning the A and A' configurations to Ising spins, one can reasonably
understand the previously discovered "devil's staircase"-type behavior with
respect to the modulation of the layer-stacking sequences at high pressures and
low temperatures, which very well resembles the global phase diagram
theoretically predicted by the ANNNI model.Comment: 4 pages, 3 figure
High-temperature thermoelectric properties of the double-perovskite ruthenium oxide (SrLa)ErRuO
We have prepared polycrystalline samples of (SrLa)ErRuO
and (SrLa)YRuO, and have measured the resistivity, Seebeck
coefficient, thermal conductivity, susceptibility and x-ray absorption in order
to evaluate the electronic states and thermoelectric properties of the doped
double-perovskite ruthenates. We have observed a large Seebeck coefficient of
-160 V/K and a low thermal conductivity of 7 mW/cmK for =0.1 at 800 K
in air. These two values are suitable for efficient oxide thermoelectrics,
although the resistivity is still as high as 1 cm. From the
susceptibility and x-ray absorption measurements, we find that the doped
electrons exist as Ru in the low spin state. On the basis of the
measured results, the electronic states and the conduction mechanism are
discussed.Comment: 6 pages, 4 figures, J. Appl. Phys. (accepted
X-ray Anomalous Scattering of Diluted Magnetic Oxide Semiconductors: Possible Evidence of Lattice Deformation for High Temperature Ferromagnetism
We have examined whether the Co ions crystallographically substitute on the
Ti sites in rutile and anatase Ti_{1-x}_{x}_{2-delta}K_{1-x}_{x}_{2-delta}_2_{1-x}_{x}$O thin films and
obtained direct evidence that the Co ions are indeed substituted on the Zn
sites.Comment: 5 pages, 4 figures, accepted in PR
Novel Charge Ordering in the Trimer Iridium Oxide BaIrO3
We have prepared polycrystalline samples of the trimer Ir oxide BaIrO3 with
face-shared Ir3O12 trimers, and have investigated the origin of the phase
transition at 182 K by measuring resistivity, thermopower, magnetization and
synchrotron x-ray diffraction. We propose a possible electronic model and
transition mechanism, starting from a localized electron picture on the basis
of the Rietveld refinement. Within this model, BaIrO3 can be basically regarded
as a Mott insulator, when the Ir3O12 trimer is identified to one pseudo-atom or
one lattice site. The transition can be viewed as a transition from the Mott
insulator phase to a kind of charge ordered insulator phase.Comment: 8 pages 5 figures, Crystals (in press
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