T. Tanaka et al., EXAFS ANALYSIS AND REINVESTIGATION OF THE STRUCTURE OF A DEFECT FLUORITE-TYPE COMPOUND, Y3TAO7, Journal of solid state chemistry, 114(1), 1995, pp. 79-87
The compositional and positional disorder of constituent atoms in Y3Ta
O7 crystals with the defect-fluorite-type structure have been elucidat
ed through analysis of the extended X-ray absorption fine structure (E
XAFS) and reinvestigation of the crystal structure with single crystal
X-ray diffraction data. EXAFS analysis based on the single shell mode
l gave mean Y-O and Ta-O bond distances of 2.29 and 1.98 Angstrom, res
pectively. X-ray diffraction study revealed that the structure is esse
ntially of the fluorite type, though Y atoms are displaced along [111]
by 0.219(5) Angstrom from the position of Ca in fluorite, and half of
the oxygen atoms are also displaced along [001] by 0.54(4) Angstrom f
rom the position of F. The Ta atom is surrounded by at most eight oxyg
en atoms with Ta-O bond distance of 2.01(2) Angstrom, while the Y atom
is surrounded by at most seven oxygen atoms with mean Y-O bond distan
ce of 2.277(7) Angstrom. The mean bond distances and the coordination
numbers of metal atoms obtained by X-ray diffraction are generally con
sistent with those obtained by EXAFS analysis. Most oxygen vacancies i
n Y3TaO7 appear to concentrate around Y atoms. The local structure aro
und Y atoms in Y3TaO7 is similar to that in Y2O3. Crystal data for Y3T
aO7 are as follows; cubic, Fm (3) over bar m, a = 5.2553(3) Angstrom a
t 24 degrees C, Z = 1, and D-x = 6.41 g/cm(3). (C) 1995 Academic Press
, Inc.