Structure determination of Sr(1.25)Bi(0.75)O(3) and Sr(0.4)K(0.6)BiO(3) as a function of temperature from synchrotron X-ray powder diffraction dataстатья
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Аннотация:The structures of Sr(1.25)Bi(0.75)O(3) and superconducting Sr(0.4)K(0.6)BiO(3) have been determined from synchrotron X-ray powder diffraction data between 4 K and the decomposition temperature, at 973 and 573 K, respectively. The symmetry remains monoclinic(a approximate to root 2a(p), b approximate to root 2a(p), c approximate to 2a(p), beta approximate to 90 degrees, P2(1)/n space group with two Bi sites allowing charge localization) for the undoped compound, and tetragonal (a approximate to root 2a(p), c approximate to 2a(p), I4/mcm space group with a unique Bi site implying a charge delocalization) for the K-doped phase, over the whole temperature range. In both cases the distortion from cubic symmetry decreases as temperature increases. Above 400 K, Sr(0.4)K(0.6)BiO(3) progressively loses oxygen until it reaches the Sr(0.4)K(0.6)BiO(2.5) stoichiometry, after which it decomposes. (C) 2000 Academic Press.