Issue 15, 2018

The adsorption of silicon on an iridium surface ruling out silicene growth

Abstract

The adsorption of Si atoms on a metal surface might proceed through complex surface processes, whose rate is determined differently by factors such as temperature, Si coverage, and metal cohesive energy. Among other transition metals, iridium is a special case since the Ir(111) surface was reported first, in addition to Ag(111), as being suitable for the epitaxy of silicene monolayers. In this study we followed the adsorption of Si on the Ir(111) surface via high resolution core level photoelectron spectroscopy, starting from the clean metal surface up to a coverage exceeding one monolayer, in a temperature range between 300 and 670 K. Density functional theory calculations were carried out in order to evaluate the stability of the different Si adsorption configurations as a function of the coverage. Results indicate that, at low coverage, the Si adatoms tend to occupy the hollow Ir sites, although a small fraction of them penetrates the first Ir layer. Si penetration of the Ir surface can take place if the energy gained upon Si adsorption is used to displace the Ir surface atoms, rather then being dissipated differently. At a Si coverage of ∼1 monolayer, the Ir 4f spectrum indicates that not only the metal surface but also the layers underneath are perturbed. Our results point out that the Si/Ir(111) interface is unstable towards Si–Ir intermixing, in agreement with the silicide phase formation reported in the literature for the reverted interface.

Graphical abstract: The adsorption of silicon on an iridium surface ruling out silicene growth

Supplementary files

Article information

Article type
Paper
Submitted
23 Jan 2018
Accepted
09 Mar 2018
First published
12 Mar 2018

Nanoscale, 2018,10, 7085-7094

The adsorption of silicon on an iridium surface ruling out silicene growth

M. Satta, P. Lacovig, N. Apostol, M. Dalmiglio, F. Orlando, L. Bignardi, H. Bana, E. Travaglia, A. Baraldi, S. Lizzit and R. Larciprete, Nanoscale, 2018, 10, 7085 DOI: 10.1039/C8NR00648B

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