Publications of Jörg Libuda
All genres
Journal Article (61)
2004
Journal Article
Johánek, Viktor, Mathias Laurin, , , and Jörg Libuda: Fluctuations and bistabilities on catalyst nanoparticles.
Journal Article
Johánek, Viktor, Mathias Laurin, Jens Hoffmann, Swetlana Schauermann, , , Jörg Libuda and Hans-Joachim Freund: Adsorbate mobilities on catalyst nanoparticles studied via the angular distribution of desorbing products.
Journal Article
Johánek, Viktor, Swetlana Schauermann, Mathias Laurin, , Jörg Libuda and Hans-Joachim Freund: On the role of different adsorption and reaction sites on supported nanoparticles during a catalytic reaction: NO decomposition on a Pd/alumina model catalyst.
Journal Article
Libuda, Jörg: Molecular beams and model catalysis: Activity and selectivity of specific reaction centers on supported nanoparticles.
2003
Journal Article
Freund, Hans-Joachim, Marcus Bäumer, Jörg Libuda, Thomas Risse, Günther Rupprechter and Shamil Shaikhutdinov: Preparation and characterization of model catalysts: from ultrahigh vacuum to in situ conditions at the atomic dimension.
Journal Article
Freund, Hans-Joachim, Jörg Libuda, Marcus Bäumer, Thomas Risse and Anders F. Carlsson: Cluster, facets, and edges: site-dependent selective chemistry on model catalysts.
Journal Article
Heemeier, Michael, Sascha Stempel, Shamil Shaikhutdinov, Jörg Libuda, Marcus Bäumer, , and Hans-Joachim Freund: On the thermal stability of metal particles supported on a thin alumina film.
Journal Article
Hoffmann, Jens, Swetlana Schauermann, Viktor Johánek, Jens Hartmann and Jörg Libuda: The kinetics of methanol oxidation on a supported Pd model catalyst: molecular beam and TR-IRAS experiments.
Journal Article
Johánek, Viktor, Swetlana Schauermann, Mathias Laurin, Jörg Libuda and Hans-Joachim Freund: In-situ-Schwingungsspektroskopie zur Untersuchung der Aktivität und Adsorbatplatzbesetzung von Katalysator-Nanopartikeln.
Journal Article
Johánek, Viktor, Swetlana Schauermann, Mathias Laurin, Jörg Libuda and Hans-Joachim Freund: Site occupation and activity of catalyst nanoparticles monitored by in situ vibrational Scpectroscopy.
Journal Article
Schauermann, Swetlana, Viktor Johánek, Mathias Laurin, Jörg Libuda and Hans-Joachim Freund: Low temperature decomposition of NO on ordered alumina films.
Journal Article
Schauermann, Swetlana, Viktor Johánek, Mathias Laurin, Jörg Libuda and Hans-Joachim Freund: Interaction of NO with alumina supported palladium model catalysts.
Journal Article
Jens Hoffmann, Swetlana Schauermann, Viktor Johánek, Holger Unterhalt, Günther Rupprechter, Jörg Libuda and Hans-Joachim Freund: , , , , CO adsorption on Pd nanoparticles: density functional and vibrational spectroscopy studies.
2002
Journal Article
Hoffmann, Jens, Swetlana Schauermann, Jens Hartmann, , , Jörg Libuda and Hans-Joachim Freund: Nanofacet-resolved CO oxidation kinetics on alumina- supported Pd particles.
Journal Article
Libuda, Jörg and Hans-Joachim Freund: Reaction kinetics on complex model catalysts under single scattering conditions.
Journal Article
Schauermann, Swetlana, Jens Hoffmann, Viktor Johánek, Jens Hartmann, Jörg Libuda and Hans-Joachim Freund: Catalytic activity and poisoning of specific sites on supported metal nanoparticles.
Journal Article
Schauermann, Swetlana, Jens Hoffmann, Viktor Johánek, Jens Hartmann, Jörg Libuda and Hans-Joachim Freund: The molecular origins of selectivity in methanol decomposition on Pd nanoparticles.
Journal Article
Schauermann, Swetlana, Jens Hoffmann, Viktor Johánek, Jens Hartmann, Jörg Libuda and Hans-Joachim Freund: Katalytische Aktivität und Vergiftung spezifischer aktiver Zentren von Metall-Nanopartikeln auf Trägern.
Journal Article
Shaikhutdinov, Shamil, Michael Heemeier, Jens Hoffmann, Ingo Meusel, B. Richter, Marcus Bäumer, Helmut Kuhlenbeck, Jörg Libuda, Hans-Joachim Freund, , , , and : Interaction of oxygen with palladium deposited on a thin alumina film.
2001
Journal Article
Freund, Hans-Joachim, Helmut Kuhlenbeck, Jörg Libuda, Günther Rupprechter, Marcus Bäumer and Heiko Hamann: Bridging the pressure and materials gaps between catalysis and surface science: clean and modified oxide surfaces.