Formation of sulfur clusters on Re(0001) surfaces observed with the scanning tunneling microscope
- 15 July 1991
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 44 (4) , 1914-1917
- https://doi.org/10.1103/physrevb.44.1914
Abstract
We have studied the various structures formed by sulfur on Re(0001) single-crystal surfaces using a scanning tunneling microscope. At coverages of 0.25 monolayer and below, open lattices formed by single adatoms are formed, mostly with a (2×2) structure. Between 0.25 and 0.5 monolayer, phases consisting of three-, four-, or six-adatom clusters are observed. The sulfur trimers are formed first randomly in the (2×2) regions and then ordered as their coverage increases to saturation at 0.45 monolayer. In all cases sulfur atoms are adsorbed in threefold hollow sites. The formation of sulfur clusters above 0.25 monolayer is interpreted as evidence of substrate-mediated many-body forces.Keywords
This publication has 11 references indexed in Scilit:
- Scanning tunneling microscopy studies of sulfur overlayers on the Re(0001) surfaceJournal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures, 1991
- An ultrahigh vacuum scanning tunneling microscope for surface science studiesReview of Scientific Instruments, 1990
- Scanning tunneling microscopy study of the structure of sulfur [2(3)1/2×2(3)1/2] R 30° overlayer on rhenium (0001)Journal of Vacuum Science & Technology A, 1990
- The State of Surface Structural Chemistry Theory, Experiment and ResultsPublished by Elsevier ,1989
- The adsorption and coadsorption of sulfur and carbon monoxide on rhenium single crystal surfacesSurface Science, 1988
- Surface Crystallographic Information ServicePublished by Springer Nature ,1987
- Reversible phase transitions in the Pt(111)-sulfur systemApplications of Surface Science, 1983
- Sulfur Adsorption and Poisoning of Metallic CatalystsCatalysis Reviews, 1980
- The three-adatom non-pairwise (“trio”) interaction, with implications for Monte Carlo simulations of O/W(110)Surface Science, 1979
- Order-disorder transformations in chemisorbed layers: Oxygen on W(110)Surface Science, 1978