ROTATIONAL SPECTRUM AND STRUCTURE OF VAN DER WAALS COMPLEXES: $CH_{2}F_{2}\cdots CF_{2}=CH_{2}$ AND $CH_{2}F_{2}\cdots CF_{2}=CHF$
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Date
2002
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Publisher
Ohio State University
Abstract
The microwave spectra of van der Waals complexes of difluoromethane(DFM) and 1,1-difluoroethene(DFE)/ trifluoroethene (TFE) $CH_{2}F_{2}\cdots CF_{2}=CH_{2}$ and $CH_{2}F_{2}\cdots CF_{2}=CHF$ have been observed using a Fourie transform microwave spectrometer from 5 to 19 GHz. The samples of 1% DFM and DFE/TFE in Ar were used to form the complexes in a super sonic expansion. For DFM$\cdots$DFE, 48 a-type transitions were assigned and 72 a- and b-type transitions were assigned for DFM $\cdots$ TFE. The rotational and centrifugal distortion constants have been determined, leading to the molecular structures of DFM$\cdots$DFE and DFM$\cdots$TFE complexes. Both complexes were found to be $C_{s}$ symmetry and bound with triple hydrogen bonds: One is the strong F$\cdots$HC type and two are the weaker CH$\cdots$F type. Molecular structures of these complexes are, however, quite different from each other. For DFM$\cdots$DFE, the out of plane atoms are two hydrogens which are bonded to a fluorine in DFE and a fluorine in DFM is bonded to a hydrogen in DFE. For DFM$\cdots$TFE, the out of plane atoms are two fluorines which attach to a hydrogen in DFE and a fluorine in DFM is bonded to the hydrogen in the same carbon of DFE. Ab initio MO calculations of MP2/6-311+G(d,p) lebel have supported these experimental results.
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Author Institution: Department of Chemistry, Faculty of Science, Shizuoka University