Bimolecular reactions observed by femtosecond detachment to aligned transition states: Inelastic and reactive dynamics
- 1 November 1996
- journal article
- research article
- Published by AIP Publishing in The Journal of Chemical Physics
- Vol. 105 (17) , 7864-7867
- https://doi.org/10.1063/1.472606
Abstract
With fs radical detachment and kinetic energy-resolved time-of-flight (KETOF) mass spectrometry, we are able to study the transition state dynamics of the bimolecular reaction CH3I+I, inelastic and reactive channels; the collision complex is coherently formed (1.4 ps) and is long lived (1.7 ps). We also report studies of the dynamics of I2 formation. Direct clocking of the CH3I dissociation, hitherto unobserved, gives 150 fs for the C–I bond breakage time and 0.8 Å for the repulsion length scale.Keywords
This publication has 126 references indexed in Scilit:
- Resonance Raman Spectroscopy of Dissociative Polyatomic MoleculesThe Journal of Physical Chemistry, 1996
- Femtosecond Velocity-Gating of Complex Structures in Solvent CagesThe Journal of Physical Chemistry, 1995
- Time-dependent photodissociation of methyl iodide with five active modesThe Journal of Chemical Physics, 1994
- Photochemistry in HI Clusters via Excitation of the First UV ContinuumThe Journal of Physical Chemistry, 1994
- Femtosecond real-time probing of reactions. XIV. Rydberg states of methyl iodideCanadian Journal of Chemistry, 1994
- Femtosecond real-time probing of reactions. 10. Reaction times and model potentialsThe Journal of Physical Chemistry, 1993
- The spontaneous resonance Raman scattering of CH3I in a supersonic jetThe Journal of Chemical Physics, 1990
- Real-time picosecond clocking of the collision complex in a bimolecular reaction: The birth of OH from H+CO2The Journal of Chemical Physics, 1987
- Chemical dynamics studied by emission spectroscopy of dissociating moleculesThe Journal of Physical Chemistry, 1984
- Exact time-dependent wave packet propagation: Application to the photodissociation of methyl iodideThe Journal of Chemical Physics, 1982