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W2019031034 startingPage "10460" @default.
W2019031034 abstract "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 H2O (2.4 ps), D2O (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 H2O vs D2O 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 H2O and D2O 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-1) solvent modes." @default.
W2019031034 created "2016-06-24" @default.
W2019031034 creator A5042168415 @default.
W2019031034 creator A5051886481 @default.
W2019031034 creator A5079306253 @default.
W2019031034 date "2007-10-01" @default.
W2019031034 modified "2023-09-27" @default.
W2019031034 title "Solvent and Solvent Isotope Effects on the Vibrational Cooling Dynamics of a DNA Base Derivative" @default.
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W2019031034 doi "https://doi.org/10.1021/jp0740595" @default.
W2019031034 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/17910423" @default.
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