Publikationen von Tobias Hertel

Hertel, T., A. Hagen, V. Talalaev, K. Arnold, F. Hennrich, M. Kappes, S. Rosenthal, J. McBride, H. Ulbricht und E. Flahaut: Spectroscopy of single- and double-wall carbon nanotubes in different environments. Nano Letters 5 (3), 511–514 (2005).

Hagen, A., G. Moos, V. Talalaev und T. Hertel: Electronic structure and dynamics of optically excited single-wall carbon nanotubes. Applied Physics A: Materials Science & Processing 78 (8), 1137–1145 (2004).

Hertel, T.: Kohlenstoff-Nanoröhren: Bausteine der Mikroelektronik von Morgen? Nachrichten aus der Chemie 52 (2), 137–140 (2004).

Zacharia, R., H. Ulbricht und T. Hertel: Interlayer cohesive energy of graphite from thermal desorption of polyaromatic hydrocarbons. Physical Review B 69 (15), 155406–1-155406–7 (2004).

Hagen, A. und T. Hertel: Quantitative analysis of optical spectra from individual single-wall carbon nanotubes. Nano Letters 3 (3), 383–388 (2003).

Moos, G., R. Fasel und T. Hertel: Temperature dependence of electron-to-lattice energy transfer in single-wall carbon nanotube bundles. Journal of Nanoscience and Nanotechnology 3 (1), 145–149 (2003).

Ulbricht, H. und T. Hertel: Dynamics of C₆₀ encapsulation into single-wall carbon nanotubes. Journal of Physical Chemistry B 107 (51), 14185–14190 (2003).

Ulbricht, H., G. Moos und T. Hertel: Interaction of C₆₀ with carbon nanotubes and graphite. Physical Review Letters 90 (9), 095501–1-095501–4 (2003).

Hertel, T., R. Fasel und G. Moos: Charge-carrier dynamics in single-wall carbon nanotube bundles: a time-domain study. Applied Physics A 75 (4), 449–465 (2002).

Ulbricht, H., J. Kriebel, G. Moos und T. Hertel: Desorption kinetics and interaction of Xe with single-wall carbon nanotube bundles. Chemical Physics Letters 363 (3-4), 252–260 (2002).

Ulbricht, H., G. Moos und T. Hertel: Physisorption of molecular oxygen on single-wall carbon nanotube bundles and graphite. Physical Review B 66 (07), 075404–1-075404–7 (2002).

Moos, G., C. Gahl, R. Fasel, M. Wolf und T. Hertel: Anisotropy of quasiparticle lifetimes and the role of disorder in graphite from ultrafast time-resolved photoemission spectroscopy. Physical Review Letters 87 (26), 267402–1-267402–4 (2001).

Hertel, T. und G. Moos: Influence of excited electron lifetimes on the electronic structure of carbon nanotubes. Chemical Physics Letters 320 (3-4), 359–364 (2000).

Hertel, T. und G. Moos: Electron-Phonon Interaction in Single-Wall Carbon Nanotubes: A Time Domain Study. Physical Review Letters 84 (21), 5002–5005 (2000).

Hertel, T. und G. Moos: Femtosecond time-resolved photoemission as a probe of electronic transport in single wall carbon nanotubes. AIP Conference Proceedings 486, 384–387 (1999).

Hertel, T., E. Knoesel, A. Hotzel, M. Wolf und G. Ertl: Femtosecond time-resolved photoemission of electron dynamics in surface Rydberg states. Journal of Vacuum Science and Technology. A 15 (3), 1503–1509 (1997).

Hertel, T., E. Knoesel, M. Wolf und G. Ertl: Ultrafast Electron Dynamics at Cu(111): Response of an Electron Gas to Optical Excitation. Physical Review Letters 76 (3), 535–538 (1996).

Hertel, T., M. Wolf und G. Ertl: Angular distributions in stimulated desorption: photodesorption of ammonia from a Cu(111) surface. Chemical Physics Letters 257 (1-2), 155–162 (1996).

Knoesel, E., A. Hotzel, T. Hertel, M. Wolf und G. Ertl: Dynamics of photoexcited electrons in metals studied with time-resolved two-photon photoemission. Surface Science 368 (1-3), 76–81 (1996).

Nessler, W., K.-H. Bornscheuer, T. Hertel und E. Hasselbrink: Internal quantum state distributions of NH₃ photodesorbed from Cu(111) at 6.4 eV. Chemical Physics 205 (1-2), 205–219 (1996).