Author:
Tanner Christian,Manca Carine,Leutwyler Samuel
Abstract
The 7-hydroxyquinoline·(NH3)3 cluster has been used as a model to study excited state H-atom transfer along a hydrogen-bonded NH3…NH3…NH3 wire. Excitation of the supersonically cooled cluster
to its vibrationless S1 state produces no reaction, whereas excitation of ammonia-wire vibrations induces fluorescence of the excited 7-ketoquinoline·(NH3)3 cluster, revealing the excited state enol ? keto tautomerization. This reaction is
assumed to occur via successive H transfers along the ammonia wire in a Grotthus-like process. Ab initio calculations of the reaction path show that proton and electron movement along the wire are closely coupled. The rate-controlling S1 state barriers arise from crossing
of a ??* and a Rydberg-type ??* electronic excited state.
Subject
General Medicine,General Chemistry
Cited by
15 articles.
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