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Literature DB >> 32888257

The Optical Spectrum of Au₂^.

Marko Förstel¹, Kai Mario Pollow¹, Karim Saroukh¹, Este Ainun Najib¹, Roland Mitric², Otto Dopfer¹.

Abstract

The electronic structure of the Au2 + cation is essential for understanding its catalytic activity. We present the optical spectrum of mass-selected Au2 + measured via photodissociation spectroscopy. Two vibrationally resolved band systems are observed in the 290-450 nm range (at ca. 440 and ca. 325 nm), which both exhibit rather irregular structure indicative of strong vibronic and spin-orbit coupling. The experimental spectra are compared to high-level quantum-chemical calculations at the CASSCF-MRCI level including spin-orbit coupling. The results demonstrate that the understanding of the electronic structure of this simple, seemingly H2 + -like diatomic molecular ion strictly requires multireference and relativistic treatment including spin-orbit effects. The calculations reveal that multiple electronic states contribute to each respective band system. It is shown that popular DFT methods completely fail to describe the complex vibronic pattern of this fundamental diatomic cation.

Entities: Chemical Disease Species

Keywords: cations; electronic structure calculations; gold; optical spectroscopy; photodissociation

Year: 2020 PMID： 32888257 PMCID： PMC7756737 DOI： 10.1002/anie.202011337

Source DB: PubMed Journal: Angew Chem Int Ed Engl ISSN： 1433-7851 Impact factor: 15.336

32 in total

1. High-resolution spectroscopy of cluster ions.

Authors: E J Bieske; O Dopfer
Journal: Chem Rev Date: 2000-11-08 Impact factor: 60.622

2. Theoretical chemistry of gold.

Authors: Pekka Pyykkö
Journal: Angew Chem Int Ed Engl Date: 2004-08-27 Impact factor: 15.336

3. Structural, electronic, bonding, magnetic, and optical properties of bimetallic [Ru(n)Au(m)](0/+) (n + m ≤ 3) clusters.

Authors: Dimitrios N Garbounis; Athanassios C Tsipis; Constantinos A Tsipis
Journal: J Comput Chem Date: 2010-12 Impact factor: 3.376

The Optical Spectrum of Au₂^.

1. High-resolution spectroscopy of cluster ions.

2. Theoretical chemistry of gold.

3. Structural, electronic, bonding, magnetic, and optical properties of bimetallic [Ru(n)Au(m)](0/+) (n + m ≤ 3) clusters.

4. Structures of neutral Au7, Au19, and Au20 clusters in the gas phase.

5. Bond dissociation energy of Au₂ ⁺: A guided ion beam and theoretical investigation.

6. Co-adsorption of O₂ and C₂H₄ on a Free Gold Dimer Probed via Infrared Photodissociation Spectroscopy.

7. Selective C-H Bond Cleavage in Methane by Small Gold Clusters.

8. Inhibition of HIV fusion with multivalent gold nanoparticles.

9. Infrared Spectroscopy of Au⁺(CH₄) _n Complexes and Vibrationally-Enhanced C-H Activation Reactions.

10. The Optical Spectrum of Au₂^.

1. The Optical Spectrum of Au₂^.

Review 2. Advancing Inorganic Coordination Chemistry by Spectroscopy of Isolated Molecules: Methods and Applications.