The angular geometry of thiirane ⋯ HF and the nonlinearity of the hydrogen bond from rotational spectroscopy

The rotational spectrum of the pre-reactive complex thiirane-ClF was detected with a fast-mixing nozzle in an FF microwave spectrometer. Rotational constants, centrifugal distortion constants, Cl-nuclear quadrupole and spin-rotation coupling constants were determined for the isotopomers (CH2)2S '''

The hydrogen-bonded dimer between methylenecyclopropane and HF was observed and its rotational spectrum measured with a pulsed-nozzle Fourier-transform microwave spectrometer. Simultaneous analysis of the spectroscopic constants of HF and DF species of the dimer shows that the acid is attached in a

A pre-reactive complex formed by oxirane and CIF was characterised through the ground-state rotational spectra of the isotopomers (CH2)20.-. 35CIF and (CH2)20.-. 37C1F. The complex has C s symmetry, with the O.-. C1-F nuclei confined to the symmetry (ac) plane. Determination of the complete CI nucle

The rotational spectrum of a hydrogen-bonded dimer between vinylacetylene (H,C=CHC=CH) and HF has been obtained with a pulsed-nozzle Fourier-transform mxrowave spectrometer. Analysis of the derived spectroscopic constants shows that the HF molecule attaches preferentially to the triple bond in viny