Abstract
A combination of X-ray techniques [diffraction and Zr K-edge absorption (EXAFS and XANES)] and multinuclear (1H, 13C, 17O) solid-state NMR spectroscopy is employed to follow in detail the structural development of nanocrystalline zirconia. 17O magic-angle spinning NMR spectroscopy of sol−gel produced undoped ZrO2 shows unequivocally that oxygen sites in the initial gel are monoclinic-like. This result is consistent with X-ray absorption measurements, which also suggest that the structures of the initial amorphous phases of doped and undoped samples produced by the hydroxide-precipitation and sol−gel methods are very similar. On crystallization, the local structure of the crystalline component is tetragonal, but a significant fraction of the sample remains disordered. Heating to higher temperatures results in conversion to monoclinic zirconia in undoped samples at room temperature. For sol−gel-produced ZrO2, 13C NMR shows that loss of all of the organic fragments occurs prior to crystallization. The 1H NMR...
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