Hydrogen Bond Dynamics Probed with Ultrafast Infrared Heterodyne-Detected Multidimensional Vibrational Stimulated Echoes

Asbury, John B.; Steinel, Tobias; Stromberg, C.; Gaffney, K. J.; Piletic, I. R.; Goun, Alexi; Fayer, M. D.

Benutzer: Gast

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Autor(en):: Asbury, John B.; Steinel, Tobias; Stromberg, C.; Gaffney, K. J.; Piletic, I. R.; Goun, Alexi; Fayer, M. D.
Titel:: Hydrogen Bond Dynamics Probed with Ultrafast Infrared Heterodyne-Detected Multidimensional Vibrational Stimulated Echoes
Abstract:: Hydrogen bond dynamics are explicated with exceptional detail using multidimensional IR vibrational echo correlation spectroscopy with full phase information. Probing the hydroxyl stretch of methanol-OD oligomers in CCl4, the dynamics of the evolving hydrogen bonded network are measured with ultrashort (<50 fs) pulses. The data along with detailed model calcns. demonstrate that vibrational relaxation leads to selective hydrogen bond breaking on the red side of the spectrum (strongest hydrogen bonds) and the prodn. of singly hydrogen bonded photoproducts. [on SciFinder(R)]
Stichworte:: Hydrogen bond Molecular vibration Photon echo Vibrational relaxation (hydrogen bond breaking dynamics following vibrational relaxation in methanol-OD oligomers probed with ultrafast IR heterodyne-detected multidimensional vibrational stimulated echoes) Bond cleavage (hydrogen hydrogen bond breaking dynamics following vibrational relaxation in methanol-OD oligomers probed with ultrafast IR heterodyne-detected multidimensional vibrational stimulated echoes) hydrogen bond dynamics methanol IR heterodyne multidimensional vibrational echo vibrational relaxation hydrogen bond breaking dynamics methanol «
Hydrogen bond Molecular vibration Photon echo Vibrational relaxation (hydrogen bond breaking dynamics following vibrational relaxation in methanol-OD oligomers probed with ultrafast IR heterodyne-detected multidimensional vibrational stimulated echoes) Bond cleavage (hydrogen hydrogen bond breaking dynamics following vibrational relaxation in methanol-OD oligomers probed with ultrafast IR heterodyne-detected multidimensional vibrational stimulated echoes) hydrogen bond dynamics methanol IR heter... »
Kongresstitel:: CAN 140:189227 73-3 Optical, Electron, and Mass Spectroscopy and Other Related Properties Department of Chemistry, Stanford University, Stanford, CA, USA. Journal 0031-9007 1455-13-6 (Methanol-d) Role: CPS (Chemical process), PEP (Physical, engineering or chemical process), PRP (Properties), PYP (Physical process), PROC (Process) (hydrogen bond breaking dynamics following vibrational relaxation in methanol-OD oligomers probed with ultrafast IR heterodyne-detected multidimensional vibrational stimulated echoes) «
CAN 140:189227 73-3 Optical, Electron, and Mass Spectroscopy and Other Related Properties Department of Chemistry, Stanford University, Stanford, CA, USA. Journal 0031-9007 1455-13-6 (Methanol-d) Role: CPS (Chemical process), PEP (Physical, engineering or chemical process), PRP (Properties), PYP (Physical process), PROC (Process) (hydrogen bond breaking dynamics following vibrational relaxation in methanol-OD oligomers probed with ultrafast IR heterodyne-detected multidimensional vibrational sti... »
Zeitschriftentitel:: Phys. Rev. Lett.
Jahr:: 2003
Band / Volume:: 91
Heft / Issue:: 23
Seitenangaben Beitrag:: 237402/1-237402/4
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mediaTUM Gesamtbestand Einrichtungen Schools TUM School of Natural Sciences Departments Chemistry Lehrstuhl für Physikalische Chemie (Prof. Heiz)old_publications until_2003 2003