Vibrational energy relaxation of the ND-stretching vibration of NH2D in liquid NH3
2012 | journal article. A publication with affiliation to the University of Göttingen.
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Vibrational energy relaxation of the ND-stretching vibration of NH2D in liquid NH3
Schaefer, T.; Kandratsenka, A.; Voehringer, P.; Schroeder, J. & Schwarzer, D. (2012)
Physical Chemistry Chemical Physics, 14(33) pp. 11651-11656. DOI: https://doi.org/10.1039/c2cp41382e
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- Authors
- Schaefer, Tim; Kandratsenka, Alexander; Voehringer, Peter; Schroeder, Joerg; Schwarzer, Dirk
- Abstract
- The vibrational energy relaxation from the first excited ND-stretching mode of NH2D dissolved in liquid NH3 is studied using molecular dynamics simulations. The rate constants for inter- and intramolecular energy transfer are calculated in the framework of the quantum-classical Landau-Teller theory. At 273 K and an ammonia density of 0.642 g cm(-3) the calculated ND-stretch lifetime of tau = 9.1 ps is in good agreement with the experimental value of 8.6 ps. The main relaxation channel accounting for 52% of the energy transfer involves an intramolecular transition to the first excited state of the umbrella mode. The energy difference between both states is taken up by the near-resonant bending vibrations of the solvent. Less important for the ND-stretch lifetime are both the direct transition to the ground state and intramolecular relaxation via the NH2D bending modes contributing 23% each. Our calculations imply that the experimentally observed weak density dependence of tau is caused by detuning the resonance between the ND-stretch-umbrella energy gap and the solvent accepting modes which counteracts the expected linear increase of the relaxation rate with density.
- Issue Date
- 2012
- Status
- published
- Publisher
- Royal Soc Chemistry
- Journal
- Physical Chemistry Chemical Physics
- ISSN
- 1463-9076
- Sponsor
- Deutsche Forschungsgemeinschaft [SCHR 303/1-1, SFB 813]