D. Gascoigne scite author profile

The structure of Zr(OH)2SO4.3H2O has been determined ab initio by conventional powder diffractometry using monochromatic X‐rays. The pattern was indexed using the successive‐dichotomy method yielding cell dimensions a = 8.3645 (4), b = 15.1694 (9), c = 5.4427 (3) Å, and β = 103.145 (5)°. The space group is P21/c with Z = 2. 519 integrated intensities were extracted by whole‐pattern fitting and these were used to calculate the heavy‐atom positions by the Patterson method. Successive Fourier syntheses located the nine O atoms. Rietveld refinement was carried out over an angular range of 15 to 135°(2θ) and this converged with RF = 0.030, RB = 0.066, Rp = 0.085 and Rwp = 0.109. The structure consists of zigzag chains in the direction of [001] formed by edge‐sharing eightfold‐coordinated zirconium polyhedra in the shape of a bicapped trigonal prism. Sulfate tetrahedra bridge within chains whilst a network of hydrogen bonding stabilizes interchain interactions to form `corrugated sheets' parallel to the (100) plane; between these sheets lie `free' water molecules that do not take part in the polyhedra but do play a major role in the hydrogen‐bonding network. The ICDD Powder Diffraction File No. is 44–1493.

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D. Gascoigne

Synchrotron-related studies on the dynamic and structural aspects of zirconia synthesis for ceramic and catalytic applications

Ab initiostructure determination of Zr(OH)₂SO₄.3H₂O using the conventional monochromatic X-ray powder diffraction

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D. Gascoigne

Synchrotron-related studies on the dynamic and structural aspects of zirconia synthesis for ceramic and catalytic applications

Ab initiostructure determination of Zr(OH)2SO4.3H2O using the conventional monochromatic X-ray powder diffraction

Contact Info

Product

Resources

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Ab initiostructure determination of Zr(OH)₂SO₄.3H₂O using the conventional monochromatic X-ray powder diffraction