Describes a wide range of techniques and their utility in monitoring reaction kinetics and the structural and bonding changes which occur in the course of chemical and biological reactions. These techniques range from time-resolved resonance Raman spectroscopy to transient phase grating and femto-second spectroscopic techniques as applied to reacting systems ranging from simple gaseous reactions to complex biomolecular systems.
Describes a wide range of techniques and their utility in monitoring reaction kinetics and the structural and bonding changes which occur in the course of chemical and biological reactions. These techniques range from time-resolved resonance Raman spectroscopy to transient phase grating and femto-second spectroscopic techniques as applied to reacting systems ranging from simple gaseous reactions to complex biomolecular systems.
Picosecond transient thermal phase grating spectroscopy - applications to the study of non-radiative energy relaxation, R.J.Dwayne Miller; resonance rotational Raman and hyper-Raman scattering - a probe of sub-picosecond dynamics, L.D.Ziegler et al; sub-picosecond vibrational dephasing measured by coherent Raman scattering and libration relaxation by degenerate four-wave mixing using temporally incoherent light, T.Kobayashi et al; time resolved resonance Raman spectroscopy of chemical reaction intermediates in solution, G.N.R.Tripathi; time-resolved Fourier transform spectroscopy, J.J.Sloan and E.J.Kruus; picosecond coherent Raman spectroscopy of excited electronic states of multiatomic molecules in solutions, V.F.Kamalov et al; vibrational spectroscopy of transient states in photosynthetic bacterial reaction centres, B.Robert et al; picosecond and sub-picosecond vibrational spectroscopy of hemeproteins, J.W.Petrich and J.L.Martin; new advances in femtosecond spectroscopy, C.V.Shank.
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