Vibrational spectra are measured for Fe2(+)(CH4)n (n = 1-3) in the C-H stretching region (2650-3100 cm(-1)) using photofragment spectroscopy, by monitoring the loss of CH4. All of the spectra exhibit an intense peak corresponding to the symmetric C-H stretch around 2800 cm(-1). The presence of a single peak suggests a nearly equivalent interaction between the iron dimer and the methane ligands. The peak becomes slightly blue shifted as the number of methane ligands increases. Density functional theory calculations, B3LYP and BPW91, are used to identify possible structures and predict the spectra. Results suggest that the methane(s) bind in a terminal configuration and the complexes are in the octet spin state.
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Vibrational Spectroscopy of Fe(CH) (n = 1-3) and Fe(CH).
J Phys Chem A
March 2017
Department of Chemistry, University of Massachusetts Amherst, Amherst, Massachusetts 01003 United States.
Vibrational spectra are measured for Fe(CH) (n = 1-3) and Fe(CH) in the C-H stretching region (2650-3100 cm) using photofragment spectroscopy, monitoring loss of CH. All of the spectra are dominated by an intense peak at around 2800 cm that is red-shifted by ∼120 cm from free methane. This peak is due to the symmetric C-H stretch of the η hydrogen-coordinated methane ligands.
View Article and Find Full Text PDFVibrational spectroscopy and theory of Fe2(+)(CH4)(n) (n = 1-3).
Phys Chem Chem Phys
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Department of Chemistry, University of Massachusetts Amherst, Amherst, Massachusetts 01003, USA.
Vibrational spectra are measured for Fe2(+)(CH4)n (n = 1-3) in the C-H stretching region (2650-3100 cm(-1)) using photofragment spectroscopy, by monitoring the loss of CH4. All of the spectra exhibit an intense peak corresponding to the symmetric C-H stretch around 2800 cm(-1). The presence of a single peak suggests a nearly equivalent interaction between the iron dimer and the methane ligands.
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