When referring to the Spectral Atlas, please cite our publication:
Keller-Rudek, H., Moortgat, G. K., Sander, R., and Sörensen,
R.: The MPI-Mainz UV/VIS spectral atlas of gaseous molecules of
atmospheric interest, Earth Syst. Sci. Data, 5, 365–373, (2013),
DOI: 10.5194/essd-5-365-2013
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DATAFILE: | C4H4S_Holland(2014)_298K_99.98-246.22nm.txt |
NAME: | thiophene |
FORMULA: | C4H4S |
AUTHOR(YEAR): | Holland(2014) |
T: | 298K |
λ: | 99.98-246.22nm |
BIBLIOGRAPHY: |
D.M.P. Holland, A.B. Trofimov, E.A. Seddon, E.V. Gromov, T. Korona, N. de Oliveira, L.E. Archer, D. Joyeux, and L. Nahon, "Excited electronic states of thiophene: high resolution photoabsorption Fourier transform spectroscopy and ab initio calculations",
Phys. Chem. Chem. Phys. 16, 21629-21644 (2014);
DOI: 10.1039/C4CP02420F
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COMMENTS: | The photoabsorption spectrum of thiophene was recorded between ~5 and 12.5 eV (~ 248 - 99.2 nm) at a resolution of 2.1 meV (FWHM) by using a Fourier transform spectrometer (FTS) attached to a synchrotron radiation source
The relative photoabsorption spectrum obtained from the FTS has been normalized at an energy of 9.1 eV (136 nm) to the absolute photoabsorption cross section measured by
E.E. Rennie, D.M.P. Holland, D.A. Shaw, C.A.F. Johnson, and J.E. Parker, "A study of the valence shell spectroscopic and thermodynamic properties of thiophene by photoabsorption and photoion spectroscopy", Chem. Phys. 306, 295-208 (2004); DOI: 10.1016/j.chemphys.2004.07.029 The absorption cross sections have been obtained by personal communication from David M.P. Holland (Oct 2014) |
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