Abstract
Experiments are described, where by deposition of Ni from a Knudsen-type effusion cell in an O2 atmosphere onto an Au(111) substrate epitaxial and ordered NiO layers are formed. By analyzing the surfaces with scanning tunneling microscopy (STM) and low-energy electron diffraction (LEED) it is found for room temperature condensation a three-domain NiO(100) film, while for deposition on a heated (300 °C) substrate NiO(111) is obtained. In the latter case three-dimensional NiO(111) crystallites and a thin smooth NiO(111) structure showing a p(2 × 2) reconstruction is observed. A p(2 × 2) reconstruction is theoretically expected, if the surface is composed of octopolar subunits ((NiO)4), which overcomes the problem of Madelung instability of a polar surface.
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