Scanning tunnelling microscopy (STM) and Auger electron spectroscopy (AES) have been used to investigate the growth morphology of ultra-thin Pb films on the Ni3Al(111) face at room temperature. A previous study [Miśków K, Krupski A. Appl Surf Sci 2013;273:554] using low-energy electron diffraction (LEED) and real time Auger intensity recording has demonstrated that an initial two-dimensional growth of the first Pb monolayer thick 'wetting layer' takes place. With further deposition and for T = 300 K, flat three atomic-layer-high islands are grown. Above 350 K, the Stranski-Krastanov growth mode was observed. In the current study, the analysis of STM measurements indicate and confirm that for coverage = 1.0 ML two-dimensional growth of the first Pb monolayer took place. Above > 1.0 ML, a three-dimensional growth of the Pb islands was observed with a strongly preferred atomic scale 'magic height (N),' hexagonal shape and flat-tops. At coverage = 3.5 ML, only islands containing N = 3, 5, 7 and 11 atomic layers of Pb are observed. At the higher coverage = 5.5 ML, three types of regular hexagonal islands with side lengths of 25, 30 and 45 nm are observed. Furthermore, three different island adsorption configurations rotated by ± 1°and 30° ± 6° with respect to each other were observed. After an annealing at T = 400 K of 5.5 ML of lead deposited at RT on the Ni3Al(111) the morphology of the surface changes. Post-anneal, islands of Pb are observed above the 'wetting layer' with an estimated average size and diameter of 768 nm 2 291 nm 2 and 38.17 6.56 nm and constant uniform height of two atomic layers (N = 2).
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