Electronic excitation of furfural as probed by high-resolution vacuum ultraviolet spectroscopy, electron energy loss spectroscopy, and ab initio calculations

Electronic excitation of furfural as probed by high-resolution vacuum ultraviolet spectroscopy, electron energy loss spectroscopy, and ab initio calculations

The electronic spectroscopy of isolated furfural (2-furaldehyde) in the gas phase has been investigated using high-resolution photoabsorption spectroscopy in the 3.5-10.8 eV energy-range, with absolute cross section measurements derived. Electron energy loss spectra are also measured over a range of...

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Veröffentlicht in:The Journal of chemical physics 2015-10, Vol.143 (14), p.144308-144308
Hauptverfasser: Ferreira da Silva, F, Lange, E, Limão-Vieira, P, Jones, N C, Hoffmann, S V, Hubin-Franskin, M-J, Delwiche, J, Brunger, M J, Neves, R F C, Lopes, M C A, de Oliveira, E M, da Costa, R F, Varella, M T do N, Bettega, M H F, Blanco, F, García, G, Lima, M A P, Jones, D B
Format: Artikel
Sprache:eng
Schlagworte:
Cross-sections
DIFFERENTIAL CROSS SECTIONS
Electron energy loss spectroscopy
Electron states
ELECTRONS
Energy dissipation
ENERGY-LOSS SPECTROSCOPY
EV RANGE
EXCITATION
EXCITED STATES
Furaldehyde - chemistry
FURFURAL
High resolution
INORGANIC, ORGANIC, PHYSICAL AND ANALYTICAL CHEMISTRY
Mathematical analysis
MOLECULES
OSCILLATOR STRENGTHS
Photoabsorption
Quantum Theory
Rangefinding
Spectrophotometry, Ultraviolet
Spectroscopy, Electron Energy-Loss
Spectrum analysis
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Zusammenfassung:The electronic spectroscopy of isolated furfural (2-furaldehyde) in the gas phase has been investigated using high-resolution photoabsorption spectroscopy in the 3.5-10.8 eV energy-range, with absolute cross section measurements derived. Electron energy loss spectra are also measured over a range of kinematical conditions. Those energy loss spectra are used to derive differential cross sections and in turn generalised oscillator strengths. These experiments are supported by ab initio calculations in order to assign the excited states of the neutral molecule. The good agreement between the theoretical results and the measurements allows us to provide the first quantitative assignment of the electronic state spectroscopy of furfural over an extended energy range.
ISSN:0021-9606
1089-7690
DOI:10.1063/1.4932603