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Solvent and Solvent Isotope Effects on the Vibrational Cooling Dynamics of a DNA Base Derivative
Ist Teil von
The journal of physical chemistry. A, Molecules, spectroscopy, kinetics, environment, & general theory, 2007-10, Vol.111 (42), p.10460-10467
Erscheinungsjahr
2007
Quelle
Alma/SFX Local Collection
Beschreibungen/Notizen
Vibrational cooling by 9-methyladenine was studied in a series of solvents by femtosecond transient absorption spectroscopy. Signals at UV and near-UV probe wavelengths were assigned to hot ground state population created by ultrafast internal conversion following electronic excitation by a 267 nm pump pulse. A characteristic time for vibrational cooling was determined from bleach recovery signals at 250 nm. This time increases progressively in H sub(2)O (2.4 ps), D sub(2)O (4.2 ps), methanol (4.5 ps), and acetonitrile (13.1 ps), revealing a pronounced solvent effect on the dissipation of excess vibrational energy. The trend also indicates that the rate of cooling is enhanced in solvents with a dense network of hydrogen bonds. The faster rate of cooling seen in H sub(2)O vs D sub(2)O is noteworthy in view of the similar hydrogen bonding and macroscopic thermal properties of both liquids. We propose that the solvent isotope effect arises from differences in the rates of solute-solvent vibrational energy transfer. Given the similarities of the vibrational friction spectra of H sub(2)O and D sub(2)O at low frequencies, the solvent isotope effect may indicate that a considerable portion of the excess energy decays by exciting relatively high frequency (>700 cm super(-1)) solvent modes.
Sprache
Englisch
Identifikatoren
ISSN: 1089-5639
eISSN: 1520-5215
DOI: 10.1021/jp0740595PII:S1089-5639(07)04059-5
Titel-ID: cdi_proquest_miscellaneous_20601556
Format
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