Coverage evolution of the unoccupied Density of States in sulfur superstructures on Ru(0001)

•Sulfur superstructures in Ru(0001) and band folding.•Surface potential modification and band folding effects upon sulfur adsorption.•Scanning tunneling spectroscopy on surfer superstructures on Ru(0001). Sulfur adsorbed on Ru(0001) presents a large number of ordered structures. This characteristic...

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Bibliographic Details
Published in:Applied surface science 2018-03, Vol.433, p.300-305
Main Authors: Pisarra, M., Bernardo-Gavito, R., Navarro, J.J., Black, A., Díaz, C., Calleja, F., Granados, D., Miranda, R., Martín, F., Vázquez de Parga, A.L.
Format: Article
Language:English
Subjects:
Band folding
Scanning tunneling microscopy/spectroscopy
Sulfur
Surface superstructures
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Summary:•Sulfur superstructures in Ru(0001) and band folding.•Surface potential modification and band folding effects upon sulfur adsorption.•Scanning tunneling spectroscopy on surfer superstructures on Ru(0001). Sulfur adsorbed on Ru(0001) presents a large number of ordered structures. This characteristic makes S/Ru(0001) the ideal system to investigate the effect of different periodicities on the electronic properties of interfaces. We have performed scanning tunneling microscopy/spectroscopy experiments and density functional theory calculations showing that a sulfur adlayer generates interface states inside the Γ directional gap of Ru(0001) and that the position of such states varies monotonically with sulfur coverage. This is the result of the interplay between band folding effects arising from the new periodicity of the system and electron localization on the sulfur monolayer. As a consequence, by varying the amount of sulfur in S/Ru(0001) one can control the electronic properties of these interfacial materials.
ISSN:0169-4332
1873-5584
DOI:10.1016/j.apsusc.2017.10.069