Ch. Plützer scite author profile

The vibronic spectra of five deuterated species of the binary phenol−methanol cluster are compared to the intermolecular vibrational frequencies of an ab initio-based normal-mode analysis. Isotopomers with equal mass could be distinguished experimentally using spectral hole-burning spectroscopy. The vibronic bands of phenol−methanol are split into A and E components because of the internal rotation of the methyl group. This torsional splitting is increased for three of the intermolecular vibrations because of coupling to the large-amplitude motion. Guided by comparison to an ab initio normal-mode analysis and by the torsional splitting of some of the vibronic bands, a complete intermolecular vibrational assignment for the phenol−methanol cluster is presented.

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Determination of the structures of benzotriazole(H2O)1,2 clusters by IR–UV spectroscopy and ab initio theory

Schmitt

Plützer

Kleinermanns

2001

Phys. Chem. Chem. Phys.

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Ch. Plützer

Properties of isolated DNA bases, base pairs and nucleosides examined by laser spectroscopy

Internal Rotation and Intermolecular Vibrations of the Phenol−Methanol Cluster: A Comparison of Spectroscopic Results and Ab Initio Theory

Determination of the structures of benzotriazole(H2O)1,2 clusters by IR–UV spectroscopy and ab initio theory

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