| Article ID | Journal | Published Year | Pages | File Type |
|---|---|---|---|---|
| 1331805 | Journal of Solid State Chemistry | 2009 | 6 Pages |
The chemical reactivity of thin layers (ca. 10 nm thick) of ZnO deposited onto differently oriented Al2O3 single crystals has been investigated by means of atomic force microscopy inspections and X-ray absorption spectroscopy at the Zn–K edge. The (0001)ZnO∥(112¯0)sapphire interface yields the ZnAl2O4 spinel and a quite stable film morphology. Instead, the (112¯0)ZnO∥(11¯02)sapphire and (0001)ZnO∥(0001)sapphire interfaces give origin to a new compound (or, possibly, even two new compounds), whose chemical nature is most likely that of a ZnO/Al2O3 phase, with still unknown composition and crystal structure. In addition, in the last two cases, films collapse into prismatic twins of ca. 1 μm in dimension. These experimental findings demonstrate that in a solid-state reaction, the topotactical relationships between the reacting solids are of crucial importance not only in determining the kinetic and mechanisms of the process in its early stages, but even the chemical nature of the product.
Graphical abstractEXAFS Fourier transforms and morphology of different reactive interfaces between ZnO and Al2O3.Figure optionsDownload full-size imageDownload as PowerPoint slide
