Open AccessHalo-substituted azobenzenes adsorbed at Ag(111) and Au(111) interfaces: Structures and optical properties
Author(s) -
Zak E. Hughes,
Alexander Baev,
Paras N. Prasad,
Tiffany R. Walsh
Publication year - 2017
Publication title -
physical review. b./physical review. b
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 1.78
H-Index - 465
eISSN - 2469-9969
pISSN - 2469-9950
DOI - 10.1103/physrevb.95.205425
Subject(s) - azobenzene , adsorption , molecule , materials science , absorption (acoustics) , spectral line , density functional theory , absorption spectroscopy , halogen , metal , phase (matter) , chemistry , crystallography , computational chemistry , photochemistry , organic chemistry , optics , physics , alkyl , astronomy , composite material , metallurgy
The adsorption of azobenzene (AB), ortho fluoro-azobenzene (FAB) and ortho chlor-azobenzol (ClAB), in both the cis and trans isomers, at the Au(111) and Ag(111) surfaces is investigated using plane-wave density functional calculations with the revPBE-vdW-DF functional. The resulting adsorption energies and internal structures of AB adsorbed to both metal surfaces are in broad agreement with available experimental data. In the gas phase, FAB and ClAB feature a significant reduction in the energy difference between the two isomeric states, compared with AB. This relative reduction in the energy difference is still significant for the adsorbed form of FAB but is only weakly apparent for ClAB. The absorption spectra of the molecules have also been calculated, with the halogen substituents generating significant changes in the gas phase, but only a modest difference for the adsorbed molecules.
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