I. F. Shishkov, L. V. Khristenko, L. Vilkov
May 7, 2004
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Journal
Journal of Physical Chemistry A
Abstract
The geometric structure and conformational properties of 4-fluoro(trifluoromethoxy)benzene, 4-F-C 6 H 4 OCF 3 , were investigated independently in two laboratories (Moscow State University and Universitat Tubingen) usinggas electron diffraction (GED), quantum chemical calculations, and matrix infrared spectroscopy. Both experimental GED studies result in a perpendicular conformation (C-O-C plane perpendicular to the benzene ring). Analyses of the GED intensities with a simple two-conformer model cannot exclude a small contribution of up to 25% (Moscow) or 13% (Tubingen) of a planar conformer. Quantum chemical calculations lead to rather different potenial functions for internal rotation around the C(sp 2 )-O bond. HF, MP2, and B3LYP methods with 6-31G* basis sets predict potential functions with a single minimum for perpendicular orientation. The planar structure is predicted to correspond to a transition state, 0.6-1.8 kcal/mol higher in energy. B3LYP/ cc-pVTZ calculations predict an additional very shallow minimum for the planar conformer, about 0.6 kcal/ mol higher than that for the perpendicular structure. Infrared spectra demonstrate the presence of a single conformer in a Ne matrix at 15 K and no second conformer is expected to be present in the gas phase, assuming an adiabatic cooling process.