OH stretching vibrations and hydrogen-bonded structures of
7-hydroxyquinoline-(H2O)1-3 investigated by IR-UV double-resonance spectroscopy
Y. Matsumoto, T. Ebata, and N. Mikami,
Chem. Phys. Lett.
338,
52
(2001).
Hydrogen(H)-bonded structures of 7-hydroxyquinoline-(H2O)n clusters were investigated based on the analysis of the infrared spectra of the OH stretching vibrations in combination with ab initio calculations. For 7-hydroxyquinoline-(H2O)1, two isomers due to different H-bonding sites were found to coexist; in one of them 7-hydroxyquinoline acts as a proton donor, and in the other the OH group of water is H-bonded to the nitrogen site of 7-hydroxyquinoline. For 7-hydroxyquinoline-(H2O)2-3, the structures were determined to be bridge forms, in which a linear-form water cluster is H-bonded to the OH hydrogen and to the nitrogen of 7-hydroxyquinoline.