Thomas Schultz shooting_DNA
List of publications - Thomas Schultz

List of Publications
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[38] Christian Schröter, Kyriaki Kosma, Thomas Schultz, 'CRASY: Correlated Rotational Alignment Spectroscopy', Sciencexpress (2011). (Link to PDF)

[37] Thomas Schultz, 'Photochemistry of DNA Bases and Base Pairs', Habilitation manuscript. (Link to PDF without embedded manuscripts)

[36] F. Buchner, A. Lübcke, N. Heine, I.V. Hertel, and T. Schultz, 'Time-resolved photoelectron spectroscopy from aqueous solutions', Rev. Sci. Instrum. 81, 113107 (2010). (link to journal)

[35] A. Lübcke, F. Buchner, N. Heine, I.V. Hertel, and T. Schultz, 'Time-resolved photoelectron spectroscopy of solvated electrons in aqueous NaI solution', Phys. Chem. Chem. Phys. 12, 14629 (2010). (link to journal)

[34] M. Margraf, B. Nöller, C. Schröter, T. Schultz, and I. Fischer 'Time- and Frequency-Resolved Photoionization of the C 2A2 State of the Benzyl Radical, C7H7', J. Chem. Phys. 133, 074304 (2010). (link to journal)

[33] V.R. Smith, E. Samoylova, H.-H. Ritze, W. Radloff, and T. Schultz, ‘Electronic Structure and Dynamics of Microhydrated Adenine Clusters’, Phys. Chem. Chem. Phys. 12, 9632 (2010). (link to journal)

[32] Kyriaki Kosma, Christian Schröter, Elena Samoylova, Ingolf Volker Hertel, and Thomas Schultz, ‘Excited-State Dynamics of Cytosine Tautomers’, J. Am. Chem., 131, 16939 (2009). (link to journal)

[31] Elena Samoylova, Wolfgang Radloff, Hans-Hermann Ritze, Thomas Schultz, ‘Observation of Proton Transfer in 2-Aminopyridine Dimer by Electron and Mass Spectroscopy’, J. Phys. Chem. A, 113 (29), pp 8195 (2009).

[30] Bastian Noller, Markus Margraf, Christian Schröter, Thomas Schultz, and Ingo Fischer, ‘Excited-State Lifetime of Propadienylidene, l-C3H2’, Phys. Chem. Chem. Phys., 11, 5353 (2009).

[29] Jesús González-Vázquez, Leticia González, Elena Samoylova, Thomas Schultz, ‘Thymine Relaxation after UV Irradiation: the Role of Tautomerization and πσ* States’, Physical Chemistry Chemical Physics 11, 3927 (2009).

[28] E. Samoylova, T. Schultz, I.V. Hertel, W. Radloff, 'Analysis of ultrafast relaxation in photoexcited DNA base pairs of adenine and thymine', ChemPhys, 347, 376 (2008).

[27] N. Gador, E. Samoylova, V.R. Smith, A. Stolow, D.M. Rayner, W. Radloff, I.V. Hertel, T. Schultz, ' Electronic Structure of Adenine and Thymine Base Pairs Studied by Femtosecond Electron-Ion Coincidence Spectroscopy', J. Phys. Chem. A, 111, 11743 (2007).

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[26] D. Nolting, R. Weinkauf, I.V. Hertel and T. Schultz, ‘Excited state relaxation of protonated adenine’, ChemPhysChem  8, 751 (2007).

[25] V. Bonacic-Koutecky, B. Brauer, W. Eberhardt, R.B. Gerber, L. Gonzalez, G. von Helden, A. Kammrath, S. K. Kim, J. Manz, G. Meijer, R. Mitric, M. Neeb, D. Neumark, T. Schultz, J. Stanzel; in Analysis and Control of Ultrafast Photoinduced Reactions; O. Kühn, L. Wöste (eds.);  Springer Series in Chemical Physics Vol. 87, Springer, Heidelberg, 2007; 155ff and 184-192.

[24] E. Samoylova, V.R. Smith, H.-H. Ritze, W. Radloff, M. Kabelac, and T. Schultz, ‘Ultrafast deactivation processes in aminopyridine clusters: Excitation energy dependence and isotope effects’, J. Am. Chem. Soc. 128, 15652 (2006).

[23] E. Samoylova, V.R. Smith, H.-H. Ritze, W. Radloff, I.V. Hertel, T. Schultz, ‘Photochemistry and dynamics of base pairs’, Femtochemistry VII, Fundamental Ultrafast Processes in Chemistry, Physics, and Biology, Welford Castleman edt. (Elsevier Amsterdam 2006), p. 367.

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[22] D. Nolting, T. Schultz, I.V. Hertel, and R. Weinkauf, ‘Excited state dynamics and fragmentation channels of the protonated dipeptide H2N-Leu-Trp-COOH’, Phys. Chem. Chem. Phys. 8, 5247 (2006).

[21] H.-H. Ritze, H. Lippert, E. Samoylova, V.R. Smith, I.V. Hertel, W. Radloff, and T. Schultz, ‘Relevance of pi-sigma* states in the photoinduced processes of adenine, adenine dimer and adenine-water complexes’, J. Chem. Phys. 122, 224320 (2005).

[20] M. Zierhut, B. Noller, T. Schultz and I. Fischer, ‘Excited-State Decay of Hydrocarbon Radicals, in-vestigated by Femtosecond Time-Resolved Photoionization: Ethyl, Propargyl, and Benzyl’, J. Chem. Phys. 122, 094302 (2005).

[19] E. Samoylova, H. Lippert, S. Ullrich, I.V.Hertel, W. Radloff and T. Schultz, ‘Dynamics of photoinduced processes in adenine and thymine base pairs’, J. Am. Chem. Soc. 127, 1782 (2005).

[18] T. Schultz, E. Samoylova, W. Radloff, I.V. Hertel, A.L. Sobolewski, W. Domcke, ‘Efficient Deactivation of a Model Base Pair via Excited-State Hydrogen Transfer’, Science 306, 1765 (2004).

[17] S. Ullrich , T. Schultz , M.Z. Zgierski and A. Stolow, ‘Electronic relaxation dynamics in DNA and RNA bases studied by time-resolved photoelectron spectroscopy’, Phys. Chem. Chem. Phys. 6, 2796 (2004).

[16] T. Schultz, S. Ullrich, J. Quenneville, T.J. Martinez, M.Z. Zgierski, A. Stolow, ‘Azobenzene photoisomerization: Two states and two relaxation pathways explain the violation of Kasha’s rule’, Femtochemistry and Femtobiology: Ultrafast Events in  Molecular Science, M.M. Martin and J. Hynes eds. (Elsevier Amsterdam 2004), p. 45.

[15] S. Ullrich, T. Schultz, M.Z. Zgierski, A. Stolow, ‘Direct observation of electronic relaxation dynamics in adenine via time-resolved photoelectron spectroscopy’, J. Am. Chem. Soc 126, 2262 (2004).

[14] T. Schultz, J. Quenneville, B. Levine, A. Toniolo, T.J. Martinez, S. Lochbrunner, M. Schmitt, J.P. Shaffer, M.Z. Zgierski, A. Stolow, ‘Mechanism and dynamics of azobenzene photoisomerization’, J. Am. Chem. Soc. 125, 8098 (2003).

[13] M. Smits, C.A. de Lange, S. Ullrich, T. Schultz, M. Schmitt, J.G. Underwood, J.P. Shaffer, D. M. Rayner, A. Stolow, ‘Stable kilohertz rate molecular beam laser ablation sources’, Rev. Sci. Instrum. 74, 4812 (2003).

[12] J.P. Schaffer, T. Schultz, J.G. Underwood, C.C. Hayden, A. Stolow ‘Time-Resolved Photoelectron Spectroscopy: Charge and Energy Flow in Molecules’ , in Ultrafast Phenomena XIII, R.D. Miller, M.M. Murnane, N.F. Scherer, A.M. Weiner, Eds. (Springer, Berlin 2002), p.71.

[11] S.-H. Lee, K.-C. Tang, I-C. Chen, M. Schmitt, J.P. Shaffer, T. Schultz, J.G. Underwood, M.Z. Zgierski, and A. Stolow, ‘Substituent effects in molecular electronic relaxation dynamics via time-resolved photoelectron spectroscopy: pp* states in benzene’, J. Phys. Chem. A 106, 8979 (2002).

[10] S. Lochbrunner, T. Schultz, M. Schmitt, J.P. Schaffer, M.Z. Zgierski, A. Stolow, ‘Dynamics of excited state proton transfer systems via time-resolved photoelectron spectroscopy’, J. Chem. Phys. 114, 2519 (2001).

[9] S. Lochbrunner, M. Schmitt, J.P. Shaffer, T. Schultz, A. Stolow, ‘ Time-resolved photoelectron spectroscopy of excited state intramolecular proton transfer dynamics’, in Ultrafast Phenomena XII, T. Elsässer, S. Mukamel, M.M. Murnane, N.F. Scherer, Eds. (Springer, Berlin 2000), p.642.

[8] J. P. Shaffer, T. Schultz, M. Schmitt, J. G. Underwood, A. Stolow, ‘Untangling p-p* / n-p* orbital interactions via time-resolved photoelectron spectroscopy’, in Ultrafast Phenomena XII, T. Elsässer, S. Mukamel, M.M. Murnane, N.F. Scherer, Eds. (Springer, Berlin 2000), p.339.

[7] S. Lochbrunner, J.J. Larsen, J.P. Shaffer, M. Schmitt, T. Schultz, J.G. Underwood, A. Stolow, ‘Methods and applications of femtosecond time-resolved photoelectron spectroscopy', J. Electron Spectrosc. and Relat. Phenom. 112, 183 (2000).

[6] T. Schultz, J. S. Clarke, H.-J. Deyerl, T. Gilbert, I. Fischer, ‘Time- and frequency- resolved photoionisation of the allyl radical’, Faraday Discussions 115, 17 (2000).

[5] T. Schultz and I. Fischer, ‘The UV band system of the allyl radical, studied by time-resolved photoelectron spectroscopy’, in Ultrafast Phenomena XI (Springer, Berlin 1998).

[4] T. Schultz, I. Fischer, ‘Time-resolved photoelectron spectroscopy of the allyl radical: the lifetimes of the ultraviolet bands’, J. Chem. Phys. 109, 5812 (1998).

[3] T. Schultz, I. Fischer, ‘The nonradiative decay of the allyl radical excited B 2A1 state studied by picosecond time-resolved photoelectron spectroscopy’, J. Chem. Phys. 107 (19), 8197 (1997).

[2] T. Schultz, I. Fischer, ‘Two photon photoelectron spectrum of methyliodide through a dissociative intermediate state’, J. Phys. Chem. A 101, 5031 (1997).

[1] I. Fischer, T. Schultz, ‘Generation of tunable visible and near-IR light from 2.5ps, high-power Ti:sapphire pulses by Raman shifting in hydrogen’, Appl. Phys. B 64, 15 (1997).