Structure of a CH3S monolayer on Au(111) solved by the interplay between molecular dynamics calculations and diffraction measurements

R. Mazzarello; A. Cossaro; A. Verdini; R. Rousseau; L. Casalis; M. F. Danisman; L. Floreano; S. Scandolo; A. Morgante; G. Scoles

doi:10.1103/PhysRevLett.98.016102

Structure of a CH3S monolayer on Au(111) solved by the interplay between molecular dynamics calculations and diffraction measurements

R. Mazzarello, A. Cossaro, A. Verdini, R. Rousseau, L. Casalis, M. F. Danisman, L. Floreano, S. Scandolo, A. Morgante, G. Scoles

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201 Scopus citations

Abstract

We have investigated the controversy surrounding the (3×3)R30° structure of self-assembled monolayers of methylthiolate on Au(111) by first principles molecular dynamics simulations, energy and angle resolved photoelectron diffraction, and grazing incidence x-ray diffraction. Our simulations find a dynamic equilibrium between bridge site adsorption and a novel structure where 2 CH3S radicals are bound to an Au adatom that has been lifted from the gold substrate. As a result, the interface is characterized by a large atomic roughness with both adatoms and vacancies. This result is confirmed by extensive photoelectron and grazing incidence x-ray diffraction measurements.

Original language	English
Article number	016102
Journal	Physical Review Letters
Volume	98
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevLett.98.016102
State	Published - 2007
Externally published	Yes

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Mazzarello, R., Cossaro, A., Verdini, A., Rousseau, R., Casalis, L., Danisman, M. F., Floreano, L., Scandolo, S., Morgante, A., & Scoles, G. (2007). Structure of a CH3S monolayer on Au(111) solved by the interplay between molecular dynamics calculations and diffraction measurements. Physical Review Letters, 98(1), Article 016102. https://doi.org/10.1103/PhysRevLett.98.016102

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abstract = "We have investigated the controversy surrounding the (3×3)R30° structure of self-assembled monolayers of methylthiolate on Au(111) by first principles molecular dynamics simulations, energy and angle resolved photoelectron diffraction, and grazing incidence x-ray diffraction. Our simulations find a dynamic equilibrium between bridge site adsorption and a novel structure where 2 CH3S radicals are bound to an Au adatom that has been lifted from the gold substrate. As a result, the interface is characterized by a large atomic roughness with both adatoms and vacancies. This result is confirmed by extensive photoelectron and grazing incidence x-ray diffraction measurements.",

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AU - Mazzarello, R.

AU - Cossaro, A.

AU - Verdini, A.

AU - Rousseau, R.

AU - Casalis, L.

AU - Danisman, M. F.

AU - Floreano, L.

AU - Scandolo, S.

AU - Morgante, A.

AU - Scoles, G.

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AB - We have investigated the controversy surrounding the (3×3)R30° structure of self-assembled monolayers of methylthiolate on Au(111) by first principles molecular dynamics simulations, energy and angle resolved photoelectron diffraction, and grazing incidence x-ray diffraction. Our simulations find a dynamic equilibrium between bridge site adsorption and a novel structure where 2 CH3S radicals are bound to an Au adatom that has been lifted from the gold substrate. As a result, the interface is characterized by a large atomic roughness with both adatoms and vacancies. This result is confirmed by extensive photoelectron and grazing incidence x-ray diffraction measurements.

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Structure of a CH3S monolayer on Au(111) solved by the interplay between molecular dynamics calculations and diffraction measurements

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