Establishing new mechanisms with triplet and singlet excited-state hydrogen bonding roles in photoinduced liquid dynamics

The interaction between hydrogen donor and acceptor molecules, known well as hydrogen bonding, forms a ubiquitous network in the natural and synthesis world. The hydrogen bonding role has thus been the subject of intensive work in the past. In this article, we discuss and show how the new mechanisms...

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Published inInternational reviews in physical chemistry Vol. 35; no. 2; pp. 187 - 208
Main Authors Chu, Tian-shu, Liu, Bai-tong
Format Journal Article Book Review
LanguageEnglish
Published Abingdon Taylor & Francis 02.04.2016
Taylor & Francis Ltd
Subjects
Biophysics
Chemical bonds
Chemical reactions
Dynamic tests
Dynamics
Excitation
excited-state hydrogen bonding
excited-state proton transfer coupled with twisted intramolecular charge transfer
fluorescence emission
Hydrogen bonding
Hydrogen bonds
hydrogen-atom abstracting reaction
Liquids
Networks
photosensitized synthesis
Physical chemistry
rotational reorientation
Synthesis (chemistry)
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Summary:The interaction between hydrogen donor and acceptor molecules, known well as hydrogen bonding, forms a ubiquitous network in the natural and synthesis world. The hydrogen bonding role has thus been the subject of intensive work in the past. In this article, we discuss and show how the new mechanisms have been established in terms of the hydrogen bonding changes by reviewing some of the combined experimental and theoretical studies that have recently shed light on the intricate role of both triplet and singlet excited-state hydrogen bondings in photoinduced liquid dynamics and phenomena.
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ISSN:0144-235X
1366-591X
DOI:10.1080/0144235X.2016.1148450