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Journal article

Optical to ultraviolet spectra of sandwiches of benzene and transition metal atoms: Time dependent density functional theory and many-body calculations

By Martinez, Jose Ignacio1,2; García Lastra, Juan Maria2,3; Lopez, M. J.; Alonso, J. A.

From

Computational Atomic-scale Materials Design, Department of Physics, Technical University of Denmark1

Department of Physics, Technical University of Denmark2

Center for Atomic-scale Materials Design, Centers, Technical University of Denmark3

The optical spectra of sandwich clusters formed by transition metal atoms (titanium, vanadium, and chromium) intercalated between parallel benzene molecules have been studied by time-dependent density functional theory (TDDFT) and many-body perturbation theory. Sandwiches with different number of layers, including infinite chains, are considered.

The lowest excitation energy peaks in the spectra are characteristic of the robust bonding in these complexes. The excitation energies vary in a systematic way with the metal atoms and with the cluster size, and so these materials could be used to tune the optical properties according to specific functionality targets.

The differences in the spectra could be used to identify relative abundances of isomers with different spins in experimental studies. As a salient feature, this theoretical spectroscopic analysis predicts the metallization of the infinite (TiBz)(infinity) chain, which is not the case of (CrBz)(infinity).

Language: English
Publisher: American Institute of Physics
Year: 2010
Pages: 044314
ISSN: 10897690 and 00219606
Types: Journal article
DOI: 10.1063/1.3300129
ORCIDs: García Lastra, Juan Maria
Keywords

Bethe-Salpeter equation chromium compounds density functional theory many-body problems molecular clusters organometallic compounds perturbation theory titanium compounds ultraviolet spectra vanadium compounds visible spectra

Other keywords

Benzene Gas Phase Dynamics and Structure: Spectroscopy, Molecular Interactions, Scattering, and Photochemistry Models, Chemical Photochemistry Quantum Theory Time Factors Transition Elements Ultraviolet Rays

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