Charge-induced dipole vs. relativistically enhanced covalent interactions in Ar-tagged Au-Ag tetramers and pentamers

Vibrational spectra of Au(n)Ag(m)(+)⋅Ar(k) (n + m = 4, 5; k = 1-4) clusters are determined by far-infrared resonant multiple photon dissociation spectroscopy in the range ν̃=100-250 cm(-1). The experimental spectra are assigned using density functional theory for geometries obtained by the Birmingha...

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Bibliographic Details
Published in:The Journal of chemical physics 2015-07, Vol.143 (2), p.024310-024310
Main Authors: Shayeghi, A, Schäfer, R, Rayner, D M, Johnston, R L, Fielicke, A
Format: Article
Language:English
Subjects:
Augmented reality
Bonding strength
Clusters
Density functional theory
Dipole interactions
Dipoles
Far infrared radiation
Genetic algorithms
Gold
Infrared spectroscopy
Isomers
Local optimization
Silver
Spectrum analysis
Vibrational spectra
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Summary:Vibrational spectra of Au(n)Ag(m)(+)⋅Ar(k) (n + m = 4, 5; k = 1-4) clusters are determined by far-infrared resonant multiple photon dissociation spectroscopy in the range ν̃=100-250 cm(-1). The experimental spectra are assigned using density functional theory for geometries obtained by the Birmingham cluster genetic algorithm. Putative global minimum candidates of the Ar complexes are generated by adding Ar atoms to the Au(n)Ag(m)(+) low energy isomers and subsequent local optimization. Differential Ar binding energies indicate exceptionally strong Au-Ar bonds in Au-rich clusters, leading to fundamental changes to the IR spectra. The stronger Ar binding is attributed to a relativistically enhanced covalent character of the Au-Ar bond, while in Au-rich species charge-induced dipole interactions overcompensate the relativistic affinity to Au. Moreover, not only the absolute composition but also the topologies are essential in the description of Ar binding to a certain cluster.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.4923255