Unlocking the Water Trimer Loop: Isotopic Study of Benzophenone‐(H2O)1–3 Clusters with Rotational Spectroscopy

Unlocking the Water Trimer Loop: Isotopic Study of Benzophenone‐(H2O)1–3 Clusters with Rotational Spectroscopy

Examined here are the structures of complexes of benzophenone microsolvated with up to three water molecules by using broadband rotational spectroscopy and the cold conditions of a molecular jet. The analysis shows that the water molecules dock sideways on benzophenone for the water monomer and dime...

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Bibliographic Details
Published in:Angewandte Chemie International Edition Vol. 60; no. 10; pp. 5323 - 5330
Main Authors: Li, Weixing, Quesada‐Moreno, María Mar, Pinacho, Pablo, Schnell, Melanie
Format: Journal Article
Language:English
Published: Germany Wiley Subscription Services, Inc 01-03-2021
John Wiley and Sons Inc
Edition:International ed. in English
Subjects:
Aromatic compounds
Benzophenone
Broadband
Closed loops
Clusters
Covalent bonds
Dimers
hydrogen bonding
microsolvation
Rotational spectra
rotational spectroscopy
Spectroscopy
Spectrum analysis
structure elucidation
Trimers
Water chemistry
water clusters
hydrogen bonding
microsolvation
water clusters
structure elucidation
rotational spectroscopy
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Summary:Examined here are the structures of complexes of benzophenone microsolvated with up to three water molecules by using broadband rotational spectroscopy and the cold conditions of a molecular jet. The analysis shows that the water molecules dock sideways on benzophenone for the water monomer and dimer moieties, and they move above one of the aromatic rings when the water cluster grows to the trimer. The rotational spectra shows that the water trimer moiety in the complex adopts an open‐loop arrangement. Ab initio calculations face a dilemma of identifying the global minimum between the open loop and the closed loop, which is only solved when zero‐point vibrational energy correction is applied. An OH⋅⋅⋅π bond and a Bürgi‐Dunitz interaction between benzophenone and the water trimer are present in the cluster. This work shows the subtle balance between water–water and water–solute interactions when the solute molecule offers several different anchor sites for water molecules. The subtle discrepancy between the experimental and theoretical structures of the Ph2CO‐(H2O)3 complex has been unveiled. An open‐looped structure, instead of the cyclic structure, of the water trimer moiety above one of the π clouds was determined by rotational spectroscopy.
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ISSN:1433-7851
1521-3773
1521-3773
DOI:10.1002/anie.202013899