The topology of the interaction of water with benzene changes drastically upon full HâF substitution on the aromatic ring: the weak OâHâ â â Ï hydrogen bond is replaced by a Oâ â â Ï linkage, of about the same strength. Hexafluorobenzeneâwater appears to be the prototype system to investigate this kind of weak bond. The pulsed Fourier transform microwave technique has been used for the detection of the rotational spectra of the normal species and five isotopologues which unambiguously led to the identification of the geometry. Quantum mechanical calculations have been performed to interpret the experimental evidence.
Evangelisti, L., Brendel, K., Mã¤der, H., Caminati, W., Melandri, S. (2017). Rotational Spectroscopy Probes Water Flipping by Full Fluorination of Benzene. ANGEWANDTE CHEMIE. INTERNATIONAL EDITION, 56(44), 13699-13703 [10.1002/anie.201707155].
Rotational Spectroscopy Probes Water Flipping by Full Fluorination of Benzene
Evangelisti, Luca;Caminati, Walther;Melandri, Sonia
2017
Abstract
The topology of the interaction of water with benzene changes drastically upon full HâF substitution on the aromatic ring: the weak OâHâ â â Ï hydrogen bond is replaced by a Oâ â â Ï linkage, of about the same strength. Hexafluorobenzeneâwater appears to be the prototype system to investigate this kind of weak bond. The pulsed Fourier transform microwave technique has been used for the detection of the rotational spectra of the normal species and five isotopologues which unambiguously led to the identification of the geometry. Quantum mechanical calculations have been performed to interpret the experimental evidence.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
