Abstract
The initial growth of Au on Ni{1 1 1} is strongly influenced by the 15.7% difference in bulk lattice parameter between the two fcc metals. At 400 K, the first monolayer of Au grows on the Ni{1 1 1} surface as a (9 × 9) overlayer with 8 Au-Au spacings being equivalent to 9 Ni-Ni spacings. Umezawa et al. [Physical Review B 57 (1998) 8842; Surface Science 426 (1999) 225] reported that the growth of Au overlayers can occur either via a reverse (R)-mode (i.e., incorporating a stacking fault at the Au-Ni interface) or a normal (N)-mode-the relative proportion of each mode being strongly sensitive to growth temperature. Using the technique of medium energy ion scattering, we examine the growth of Au on Ni{1 1 1} at 400 K. We conclude that, at this deposition temperature, there is a preference for growth via the R-mode (74 ± 9%). In addition, we find that the Au overlayer has a considerably higher density than bulk Au being contracted isotropically by 3.1% in the {1 1 1} plane and also by ∼7% perpendicular to the {1 1 1} plane. We discuss possible explanations for our findings.
Original language | English |
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Pages (from-to) | 2129-2137 |
Number of pages | 9 |
Journal | Surface Science |
Volume | 600 |
Issue number | 10 |
DOIs | |
Publication status | Published - 15 May 2006 |
Keywords
- Alloys
- Catalysis
- Gold
- Medium energy ion scattering
- Nickel
- Surface segregation