The geometric and electronic structure of the Au6Y+ cation is studied by gas phase vibrational spectroscopy combined with density functional theory calculations. The infrared photodissociation spectrum of Au6Y+center dot Ne is measured in the 95-225 cm(-1) energy range and exhibits two characteristic absorption bands at 181 cm(-1) and 121 cm(-1). Based on DFT/BP86 quantum chemical calculations, the infrared spectrum is assigned to the lowest energy species found, an eclipsed C-3v geometry. The 3D structure of Au6Y+ is considerably different from those previously found for both the neutral Au6Y (quasi-planar circular geometry) and the anionic Au6Y- (planar D-6h symmetry). The different geometries are related to different electronic structures in agreement with 2D and 3D phenomenological shell models for metal clusters.

The structure of Au6Y+ in the gas phase / Lin, L; Claes, P; Holtzl, T; Janssens, E; Wende, T; Bergmann, R; Santambrogio, Gabriele; Meijer, G; Asmis, Kr; Nguyen, Mt; Lievens, P.. - In: PHYSICAL CHEMISTRY CHEMICAL PHYSICS. - ISSN 1463-9076. - 12:42(2010), pp. 13907-13913. [10.1039/c0cp00911c]

The structure of Au6Y+ in the gas phase

SANTAMBROGIO, GABRIELE;
2010

Abstract

The geometric and electronic structure of the Au6Y+ cation is studied by gas phase vibrational spectroscopy combined with density functional theory calculations. The infrared photodissociation spectrum of Au6Y+center dot Ne is measured in the 95-225 cm(-1) energy range and exhibits two characteristic absorption bands at 181 cm(-1) and 121 cm(-1). Based on DFT/BP86 quantum chemical calculations, the infrared spectrum is assigned to the lowest energy species found, an eclipsed C-3v geometry. The 3D structure of Au6Y+ is considerably different from those previously found for both the neutral Au6Y (quasi-planar circular geometry) and the anionic Au6Y- (planar D-6h symmetry). The different geometries are related to different electronic structures in agreement with 2D and 3D phenomenological shell models for metal clusters.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11696/29284
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