MBI-Mitarbeiter - Persönliche Daten

Dr. Thomas Schultz

Nicht mehr am MBI

MBI Publikationen

  1. Ultrafast deactivation processes in aminopyridine clusters: Excitation energy dependence and isotope effects

    E. Samoylova, V. R. Smith, H.-H. Ritze, W. Radloff, M. Kabelac, T. Schultz

    Journal of American Chemical Society 128 (2006) 15652-15656
  2. Excited state dynamics and fragmentation channels of the protonated dipeptide H2N-LeuTrp-COOH

    D. Nolting, Th. Schultz, I. V. Hertel, R. Weinkauf

    Physical Chemistry Chemical Physics 44 (2006) 5247-5254
  3. Photochemistry and dynamics of base pairs

    E. Samoylova, V. R. Smith, H.-H. Ritze, W. Radloff, I. V. Hertel, T. Schultz

    Femtochemistry VII: Fundamental Ultrafast Processes in Chemistry, Physics, and Biology Elsevier (2006) 367-372
  4. Excited-state decay of hydrocarbon radicals, investigated by femtosecond time-resolved photoionization: Ethyl, Propargyl, and Benzyl

    M. Zierhut, B. Noller, T. Schultz, I. Fischer

    Journal of Chemical Physics 122 (2005) 094302/1-7
  5. Dynamics of photoinduced processes in adenine and thymine base pairs

    E. Samoylova, H. Lippert, S. Ullrich, I. V. Hertel, W. Radloff, T. Schultz

    Journal of American Chemical Society 127 (2005) 1782-1786
  6. Relevance of pi sigma* states in the photoinduced processes of adenine, adenine dimer and adenine-water complexes

    H.-H. Ritze, H. Lippert, E. Samoylova, V. R. Smith, I. V. Hertel, W. Radloff, T. Schultz

    Journal of Chemical Physics 122 (2005) 224320/1-9
  7. Electronic relaxation dynamics in DNA and RNA bases studied by time-resolved photoelectron spectroscopy

    S. Ullrich, T. Schultz, M. Z. Zgierski, A. Stolow

    Physical Chemistry Chemical Physics 6 (2004) 2796-2801
  8. Direct observation of electronic relaxation dynamics in Adenine via time-resolved photoelecton spectroscopy

    S. Ullrich, T. Schultz, M. Z. Zgierski, A. Stolow

    Journal of American Chemical Society 126 (2004) 2262-2263
  9. Azobene photoisomerization: Two states and two relaxation pathways explain the violation of Kasha's rule

    T. Schultz, S. Ullrich, J. Quenneville, T. J. Martinez, M. Z. Zgierski, A. Stolow

    Femtochemistry and Femtobiology: Ultrafast Events in Molecular Science (2004) 45-48
  10. Efficient deactivation of a model base pair via excited-state hydrogen transfer

    Th. Schultz, E. Samoylova, W. Radloff, I. V. Hertel, A. L. Sobolewski, W. Domcke

    Science 306 (2004) 1765-1768