The Nature of Bonding between Argon and Mixed Gold-Silver Trimers

Armin Shayeghi; Roy L. Johnston; David M. Rayner; Rolf Schäfer; André Fielicke

doi:10.1002/anie.201503845

The Nature of Bonding between Argon and Mixed Gold-Silver Trimers

Armin Shayeghi, Roy L. Johnston, David M. Rayner, Rolf Schäfer, André Fielicke

Chemistry

Research output: Contribution to journal › Article › peer-review

41 Citations (Scopus)

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Abstract

The controversial nature of chemical bonding between noble gases and noble metals is addressed. Experimental evidence of exceptionally strong Au-Ar bonds in Ar complexes of mixed Au-Ag trimers is presented. IR spectra reveal an enormous influence of the attached Ar atoms on vibrational modes, particularly in Au-rich trimers, where Ar atoms are heavily involved owing to a relativistically enhanced covalency. In Ag-rich trimers, vibrational transitions of the metal framework predominate, indicating a pure electrostatic character of the Ag-Ar bonds. The experimental findings are analyzed by means of DFT calculations, which show how the relativistic differences between Au and Ag are manifested in stronger Au-Ar binding energies. Because of the ability to vary composition and charge distribution, the trimers serve as ideal model systems to study the chemical nature of the bonding of noble gases to closed-shell systems containing gold.

Original language	English
Pages (from-to)	10675-10680
Number of pages	6
Journal	Angewandte Chemie (International Edition)
Volume	54
Issue number	36
DOIs	https://doi.org/10.1002/anie.201503845
Publication status	Published - 17 Jul 2015

Keywords

chemical bonding
clusters
IR spectroscopy
noble gases
noble metals

ASJC Scopus subject areas

General Chemistry
Catalysis

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title = "The Nature of Bonding between Argon and Mixed Gold-Silver Trimers",

abstract = "The controversial nature of chemical bonding between noble gases and noble metals is addressed. Experimental evidence of exceptionally strong Au-Ar bonds in Ar complexes of mixed Au-Ag trimers is presented. IR spectra reveal an enormous influence of the attached Ar atoms on vibrational modes, particularly in Au-rich trimers, where Ar atoms are heavily involved owing to a relativistically enhanced covalency. In Ag-rich trimers, vibrational transitions of the metal framework predominate, indicating a pure electrostatic character of the Ag-Ar bonds. The experimental findings are analyzed by means of DFT calculations, which show how the relativistic differences between Au and Ag are manifested in stronger Au-Ar binding energies. Because of the ability to vary composition and charge distribution, the trimers serve as ideal model systems to study the chemical nature of the bonding of noble gases to closed-shell systems containing gold.",

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AU - Johnston, Roy L.

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AU - Fielicke, André

PY - 2015/7/17

Y1 - 2015/7/17

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AB - The controversial nature of chemical bonding between noble gases and noble metals is addressed. Experimental evidence of exceptionally strong Au-Ar bonds in Ar complexes of mixed Au-Ag trimers is presented. IR spectra reveal an enormous influence of the attached Ar atoms on vibrational modes, particularly in Au-rich trimers, where Ar atoms are heavily involved owing to a relativistically enhanced covalency. In Ag-rich trimers, vibrational transitions of the metal framework predominate, indicating a pure electrostatic character of the Ag-Ar bonds. The experimental findings are analyzed by means of DFT calculations, which show how the relativistic differences between Au and Ag are manifested in stronger Au-Ar binding energies. Because of the ability to vary composition and charge distribution, the trimers serve as ideal model systems to study the chemical nature of the bonding of noble gases to closed-shell systems containing gold.

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The Nature of Bonding between Argon and Mixed Gold-Silver Trimers

Abstract

Keywords

ASJC Scopus subject areas

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