Publications

Prof. Dr. Jörg Libuda

Physical Chemistry, University Erlangen-Nürnberg, Germany

[1] “Vibrational structure of excited states of molecules on oxide surfaces“,
R.M. Jaeger*, J. Libuda, M. Bäumer, K. Homann, H. Kuhlenbeck, H.-J. Freund,
Journal of Electron Spectroscopy and Related Phenomena 64/65, 217 (1993).

[2]“Electronic and geometric structure of adsorbates on oxide surface”,
D. Cappus*, M. Menges, C. Xu, D. Ehrlich, B. Dillmann, C.A. Ventrice, J. Libuda, M. Bäumer, S. Wohlrab, F. Winkelmann, H. Kuhlenbeck, H.-J. Freund,
Journal of Electron Spectroscopy and Related Phenomena 68, 347 (1994)

[3]“Adsorption on oxide surfaces: Structure and dynamics”,
F. Winkelmann, S. Wohlrab, J. Libuda, M. Bäumer, D. Cappus, M. Menges, K. Al-Shamery, H. Kuhlenbeck, H.-J. Freund*, Surface Science 307-309, 1148 (1994)

[4]“Structural characterization of platinum deposits supported on ordered alumina films”,
J. Libuda*, M. Bäumer, H.-J. Freund,
Journal of Vacuum Science and Technology A 12, 2259 (1994).

[5]“Structure and defects of an ordered alumina film on NiAl(110)”,
J. Libuda, F. Winkelmann, M. Bäumer, H.-J. Freund*, Th. Bertrams, H. Neddermeyer, K. Müller,
Surface Science 318, 61 (1994).

[6]“Hydroxyl driven reconstruction of the polar NiO(111) surface”,
F. Rohr, K. Wirth, J. Libuda, D. Cappus, M. Bäumer, H.-J. Freund*,
Surface Science Letters 315, 2977 (1994).

[7]“The temperature dependent growth mode of nickel on the basal plane of graphite“,
M. Bäumer*, J. Libuda, H.-J. Freund,
Surface Science 327, 321 (1995).

[8]“Evidence for Pdx(CO)y compound formation on an alumina substrate”,
J. Libuda, A. Sandell, M. Bäumer, H.-J. Freund*,
Chemcal Physics Letters 240, 429 (1995).

[9]“The growth and properties of Pd and Pt on Al2O3/NiAl(110)”,
M. Bäumer*, J. Libuda, A. Sandell, H.-J. Freund, G. Graw, Th. Bertrams, H. Neddermeyer,
Berichte der Bunsengesellschaft für Physikalische Chemie 99, 1381 (1995).

[10]“Electron Spectroscopy Studies of Small Deposited Metal Particles”,
A. Sandell*, J. Libuda, P. Brühwiler, S. Andersson, M. Bäumer, A. Maxwell, N. Mårtensson, H.-J. Freund,
Journal of Electron Spectroscopy and Related Phenomena 76, 301 (1995).

[11]“Interaction of CO with Pd cluster supported on a thin alumina film”,
A. Sandell*, J. Libuda, P. Brühwiler, S. Andersson, M. Bäumer, A. Maxwell, N. Mårtensson, H.-J. Freund,
Journal of Vacuum Science and Technology A 14, 1546 (1996).

[12]“Metal Deposition in Adsorbate Atmosphere: Growth and Decomposition of a Palladium Carbonyl-like Species”,
A. Sandell, J. Libuda*, M. Bäumer, H.-J. Freund,
Surface Science 346, 108 (1996).

[13]“Adsorption on Epitaxial Oxide Films as Model Systems for Heterogenous Catalysis”,
S. Wohlrab, F. Winkelmann, J. Libuda, M. Bäumer, H. Kuhlenbeck, H.-J. Freund,
in: R.J. MacDonald, E.C. Taglauer, K.R. Wandelt (Eds.),  'Surface Science - Principles and Current Applications', Springer, Berlin (1996), p. 193

[14]“Size dependent CO dissociation on Rh particles supported on thin alumina films”, in: “Elementary Processes and Excitations and Reactions on Solid Surfaces”,
J. Libuda, M. Frank, A. Sandell, S. Andersson, P.A. Brühwiler, M. Bäumer, N. Mårtensson, H.-J. Freund,
Springer Series in Solid State Science, Vol. 121, Springer, Berlin (1996), p.210.

[15]“Transition from a Molecular to a Metallic System: Core Hole Creation and Decay Dynamics of CO Coordinated to Pd”,
A. Sandell*, J. Libuda, P. A. Brühwiler, S. Andersson, M. Bäumer, A. Maxwell, N. Martensson, H.-J. Freund,
Physical Reviews B 55, 7233 (1997).

[16]“Metal Deposits on Thin Well Ordered Oxide Films: Morphology, Adsorption and  Reactivity”,
M. Bäumer, J. Libuda, H.-J. Freund,
in “Chemisorption and Reactivity on Supported Clusters and Thin Films”,
Nato-Advanced Study Institute, NATO ASI Series E, Kluwer Acad. Press (1997), p.61.

[17]“Growth and Morphology of Rh Deposits on an Alumina Film under UHV Conditions and under the Influence of CO”,
M. Bäumer*, J. Libuda, M. Frank, S. Stempel, H-J. Freund,
Surface Science 391 , 204 (1997).

[18]“Interaction of Rhodium with Hydroxylated Alumina Supports”,
J. Libuda*, M. Frank, A. Sandell, S. Andersson, P. Brühwiler, N. Mårtensson, M. Bäumer, H.-J. Freund,
Surface Science 384, 106 (1997).

[19]“'Particle Size Dependent CO Dissociation on Alumina Supported Rh: A Model Study”,
M. Frank*, S. Andersson, J. Libuda, S. Stempel, A. Sandell, B. Brena, A. Giertz, P. A. Brühwiler, N. Mårtensson, M. Bäumer, H.-J. Freund,
Chemical Physics Letters 279, 92 (1997), Erratum: Chemal Physics Letters 310, 229 (1999).

[20]“IR-Spectroscopy of a Pd-carbonyl Surface Compound”,
K. Wolter, O. Seiferth, J. Libuda, H. Kuhlenbeck, M. Bäumer, and H.-J. Freund*,
Chemical Physics Letters 277, 513 (1997).

[21]“CO Dissociation Characteristics on Size-distributed Rhodium Islands on Alumina Model Substrates”,
S. Andersson*, M. Frank, A. Sandell, J. Libuda, A. Giertz, B. Brena, P. Brühwiler, M. Bäumer, N. Mårtensson, H.-J. Freund,
The Journal of Chemical Physics 108, 2967 (1998).

[22]“Observation of a low-energy adsorbate core level satellite for CO bonded to Palladium: Coordination dependent effects”,
A. Sandell*, A. Beutler, R. Nyholm, J. N. Andersen, S. Andersson, P.A. Brühwiler, N. Mårtensson, J. Libuda, M. Bäumer, H.-J. Freund,
Physical Reviews B 57, 13199 (1998).

[23]“Infrared Study of CO Adsorption on Alumina Supported Palladium Particles”,
K. Wolter, O. Seiferth, J. Libuda, H. Kuhlenbeck, M. Bäumer, and H.-J. Freund*,
Surface Science 402-404, 424 (1998).

[24]“Temperature Dependent XPS Study of CO Dissociation On Small Rh Particles”,
S. Andersson*, M. Frank, A. Sandell, J. Libuda, B. Brena, A. Giertz, P. A. Brühwiler, M. Bäumer, N. Mårtensson, H.-J. Freund,
Vacuum 49, 167 (1998).

[25]“Metal Aggregates on Oxide Surfaces: Structure and Adsorption”,
H.-J. Freund*, M. Bäumer, J. Libuda, H. Kuhlenbeck, K. Al-Shamery, H. Hamann,
Crystal Research And Technology 33, 977 (1998).

[26]“Metal-oxide Interaction for Metal Clusters on a Metal-supported Thin Alumina Film”,
S. Andersson, P.A. Brühwiler*, A. Sandell, M. Frank, J. Libuda, A. Giertz, B. Brena, A.J. Maxwell, M. Bäumer, H.-J. Freund, N. Mårtensson,
Surface Science Letters 442, L964 (1999).

[27]„Aktueller Forschungsschwerpunkt: Struktur und Reaktivität kleiner Metallpartikel auf Oxidoberflächen“,
J. Libuda, M. Frank, S. Stempel, M. Bäumer, H.-J. Freund*,
Jahrbuch der Max-Planck-Gesellschaft (1999), 514.

[28]“Collision-Induced Chemical Dynamics in Ethanethiol Adsorbed on Au(111)”,
J. Libuda, G. Scoles*,
The Journal of Physical Chemistry B 103 (45), 9933 (1999).

[29]“Collision-Induced Desorption of Hydrocarbons Physisorbed on Au(111)”,
J. Libuda, G. Scoles*,
The Journal of Chemical Physics 112, 1522 (2000).

[30]“The Influence of OH Groups on the Growth of Rhodium on Alumina: A Model Study”,
M. Heemeier, M. Frank, J. Libuda, K. Wolter, H. Kuhlenbeck, M. Bäumer*, H.-J. Freund,
Catalysis Letters 68, 19 (2000).

[31]“A Molecular Beam / Surface Spectroscopy Apparatus for the Study of Reactions on Complex Model Catalyst”,
J. Libuda*, I. Meusel, J. Hartmann, H.-J. Freund,
Reviews of Scientific Instruments 71, 4395 (2000).

[32]“Complex Model Catalysts under UHV and High Pressure Conditions: CO Adsorption and Oxidation on Alumina-Supported Pd Particles”,
T. Dellwig, J. Hartmann, J. Libuda*, I. Meusel, G. Rupprechter*, H. Unterhalt, H.-J. Freund,
Journal of Molecular Catalysis A 162, 51 (2000).

[33]“Model systems for heterogeneous catalysis: quo vadis surface science”,
H.-J. Freund, N. Ernst, M. Bäumer, G. Rupprechter, J. Libuda, H. Kuhlenbeck, T. Risse, W. Drachsel, K. Al-Shamery and H. Hamann,
in: Surface Chemistry and Catalysis, (Eds.) A. Carley, P. Davis, G. Hutchings, M. Spencer, Kluwer-Plenum (2001), p. 103.

[34]“Bridging the Pressure and Materials Gaps Between Catalysis and Surface Science: Clean and Modified Oxide Surfaces”,
H.-J. Freund*, H. Kuhlenbeck, J. Libuda, G. Rupprechter, M. Bäumer, H. Hamann,
Topics in Catalysis 15, 201-209 (2001).

[35]“The Interaction of Oxygen with Alumina-Supported Palladium Particles”,
I. Meusel, J. Hoffmann, J. Hartmann, M. Heemeier, M. Bäumer, J. Libuda*, H.-J. Freund,
Catalysis Letters 71, 5 (2001).

[36]“The CO Oxidation Kinetics On Supported Pd Model Catalysts: A Molecular Beam / In-situ TR-IRAS Study”,
J. Libuda*, I. Meusel, J. Hoffmann, J. Hartmann, L. Piccolo, C. R. Henry, H.-J. Freund,
The Journal of Chemical Physics 114, 4669 (2001).

[37]“Reaction Kinetics on Supported Model Catalysts: A Molecular Beam / In-Situ TR-IRAS Study of the CO Oxidation on Alumina Supported Pd Particles”,
J. Libuda*, I. Meusel, J. Hoffmann, J. Hartmann, H.-J. Freund,
Journal of Vacuum Science and Technology A, 19, 1516 (2001).

[38]“Size Dependent Reaction Kinetics on Supported Model Catalysts: A Molecular Beam / IRAS Study of the CO Oxidation on Alumina Supported Pd Particles”,
I. Meusel, J. Hoffmann, J. Hartmann, J. Libuda*, H.-J. Freund,
The Journal of Physical Chemistry B 105, 3567 (2001).

[39]“Reaction Kinetics on Heterogeneous Surfaces: The CO Oxidation on Alumina Supported Pd Particles”,
J. Hoffmann, I. Meusel, J. Hartmann, J. Libuda*, H.-J. Freund,
Journal of Catalysis 204, 378 (2001).

[40]“The Interaction of Oxygen with Pd Particles Supported on a Thin Alumina Film”,
Sh. Shaikhutdinov, M. Heemeier, J. Hoffmann, I. Meusel, B. Richter, M. Bäumer, H. Kuhlenbeck, J. Libuda, H.-J. Freund, R. Oldman, S. D. Jackson, C. Konvicka, M. Schmid, P. Varga,
Surface Science 501, 270 (2002).

[41]“Single Scattering Reaction Kinetics on Complex Model Catalysts”,
J. Libuda*, H.-J. Freund,
The Journal of Physical Chemistry B 106, 4901 (2002).

[42]“Nanofacet Resolved CO Oxidation Kinetics on Alumina Supported Model Catalysts and the Role of Oxygen Diffusion”,
J. Hoffmann, S. Schauermann, J. Hartmann, J. Libuda*, V. P. Zdhanov, B. Kasemo, H.-J. Freund,
Chemical Physics Letters 354, 403 (2002).

[43]“Catalytic Activity and Poisoning of Specific Sites on Supported Metal Nanoparticles”,
S. Schauermann, J. Hoffmann, V. Johanék, J. Hartmann, J. Libuda*, and H.-J. Freund,
Angewandte Chemie International Edition 41, 2532 (2002).

[44]„Katalytische Aktivität und Vergiftung spezifischer aktiver Plätze auf getragenen Metall-Nanopartikeln“,
S. Schauermann, J. Hoffmann, V. Johanék, J. Hartmann, J. Libuda*, and H.-J. Freund,
Angewandte Chemie 114, 2643 (2002).

[45]“The Molecular Origins of Selectivity in Methanol Decomposition on Pd Nanoparticles”,
S. Schauermann, J. Hoffmann, V. Johanék, J. Hartmann, J. Libuda*, and H.-J. Freund,
Catalysis Letters 84, 209 (2002).

[46]“Adsorption, Decomposition and Oxidation of Methanol on Alumina Supported Pd Nanoparticles”,
S. Schauermann, J. Hoffmann, V. Johanék, J. Hartmann and J. Libuda*,
Physical Chemistry - Chemical Physics 4, 3909 (2002).

[47]“The Kinetics of Methanol Oxidation on Alumina Supported Pd Nanoparticles”,
J. Hoffmann, S. Schauermann, V. Johanék, J. Hartmann and J. Libuda*,
Journal of Catalysis 213, 176 (2003).

[48]“On the thermal stability of metal particles supported on a thin alumina film”,
Sh. Shaikhutdinov, M. Heemeier, S. Stempel, J. Libuda, M. Bäumer*, R. J. Oldman, S. D. Jackson, H.-J. Freund,
Surface Science 523, 103 (2003).

[49]“Preparation and Characterization of Model Catalysts: From Ultrahigh Vacuum to In-situ Conditions at the Atomic Dimension”,
H.-J. Freund*, M. Bäumer, J. Libuda, Th. Risse, G. Rupprechter, S. Shaikhutdinov,
Journal of Catalysis 216, 223 (2003).

[50]“CO Adsorption on Pd Nanoparticles: Density Functional and Vibrational Spectroscopy Studies”,
I. V. Yudanov, R. Sahnoun, K. M. Neyman*, N. Rösch, J. Hoffmann, S. Schauermann, V. Johánek, H. Unterhalt, G. Rupprechter, J. Libuda, H.-J. Freund,
The Journal of Physical Chemistry B 107, 255 (2003).

[51]“From Real World Catalysis to Surface Science an Back: Can Nanoscience Help to Bridge the Gap?”,
H.-J. Freund*, M. Bäumer, N. Ernst, J. Libuda, Th. Risse, G. Rupprechter,
in “Metal-Ligand-Interactions – Molecular-, Nano-, Micro-Systems in Complex Environments”, Eds. N. Russo, D. R. Salahub, M. Witko, NATO Science Series II: Mathematics, Physics and Chemistry, Vol. 116, Kluwer Academic Publishers (2003).

[52]“Site-Occupation and Activity of Catalyst Nanoparticles Monitored by In-Situ Vibrational Spectroscopy”,
V. Johánek, S. Schauermann, M. Laurin, J. Libuda*, H.-J. Freund,
Angewandte Chemie International Edition 42, 3035 (2003).

[53]“In-Situ-Schwingungsspektroskopie als Sonde zur Untersuchung der Aktivität und Adsorbatplatzbesetzung von Katalysator-Nanopartikeln”,
V. Johánek, S. Schauermann, M. Laurin, J. Libuda*, H.-J. Freund,
Angewandte Chemie 115, 3143 (2003).

[54]“Cluster, Facets and Edges: Site Dependent Selective Chemistry on Model Catalysts”,
H.-J. Freund*, J. Libuda, M. Bäumer, T. Risse, A. Carlsson,
The Chemical Record 3, 181 (2003).

[55]“Low Temperature Decomposition of NO on ordered alumina films”,
S. Schauermann, V. Johánek, M. Laurin, J. Libuda*, H.-J. Freund,
Chemical Physics Letters 381, 298 (2003).

[56]“Interaction of NO with alumina supported palladium model catalysts”,
S. Schauermann, V. Johánek, M. Laurin, J. Libuda*, H.-J. Freund,
Physical Chemistry - Chemical Physics 5, 5139 (2003).

[57]“Surface reactivity of Pd nanoparticles supported on polycrystalline substrates as compared to thin films model catalysts: Infrared study of CO adsorption”,
S. Bertarione, D. Scarano*, A. Zecchina,  V. Johánek, J. Hoffmann, S. Schauermann, M. M. Frank, J. Libuda, G. Rupprechter, H.-J. Freund,
The Journal of Physical Chemistry B 108, 3603 (2004).

[58]“Surface reactivity of Pd nanoparticles supported on polycrystalline substrates as compared to thin films model catalysts: Infrared study of CH3OH adsorption”,
S. Bertarione, D. Scarano*, A. Zecchina,  V. Johánek, J. Hoffmann, S. Schauermann, J. Libuda, H.-J. Freund,
Journal of Catalysis 223, 64 (2004).

[59]“On the role of different adsorption and reaction sites on supported nanoparticles during a catalytic reaction: NO decomposition on a Pd/alumina model catalyst”,
V. Johánek, S. Schauermann, M. Laurin, J. Libuda*, C. S. Gopinath, H.-J. Freund,
The Journal of Physical Chemistry B 108, 14244 (2004).

[60]“Adsorbate Mobilities on Catalyst Nanoparticles Studies via the Angular Distribution of Products”,
V. Johánek, M. Laurin, J. Hoffmann, S. Schauermann, A. W. Grant, B. Kasemo, J. Libuda*, H.-J. Freund,
Surface Science Letters 561, L218 (2004).

[61]“Chemical Bistability on Catalyst Nanoparticles”,
V. Johánek, M. Laurin, A. W. Grant, B. Kasemo, C. R. Henry, J. Libuda*, H.-J. Freund,
Science 304, 1639 (2004).

[62]“Molecular Beam Experiments on Model Catalysts: Activity and Selectivity of Specific Reactive Sites on Supported Nanoparticles”,
J. Libuda*,
ChemPhysChem 5, 625 (2004).

[63]“Reaction Kinetics on Model Catalysts: Molecular Beam Methods and Time-Resolved Vibrational Spectroscopy”,
J. Libuda*,
Surface Science 587, 55 (2005).

[64]“Model Studies in Heterogeneous Catalysis: From Structure to Kinetics”,
J. Libuda*, S. Schauermann, M. Laurin, T. Schalow, J. Hartmann, H.-J. Freund,
Monatshefte für Chemie, Chemical Monthly 136, 59 (2005).

[65]“Local Reaction Rates and Surface Diffusion on Lithographically Prepared Model Catalysts: Experiments and Simulations”,
M. Laurin, V. Johanek, A.W. Grant, B. Kasemo, J. Libuda*, H.-J. Freund,
Journal of Chemical Physics 122, 084713 (2005).

[66]“Isothermal Kinetic Study of Nitric Oxide Adsorption and Decomposition on Pd(111) Surfaces: A Molecular Beam Study”,
K. Thirunavukkarasu, K. Thirumoorthy, J. Libuda, C. S. Gopinath*,
The Journal of Physical Chemistry B 109, 13283 (2005).

[67]“A Molecular Beam Study of the NO + CO Reaction on Pd(111) Surfaces”
K. Thirunavukkarasu, K. Thirumoorthy, J. Libuda, C. S. Gopinath*,
The Journal of Physical Chemistry B 109, 13272 (2005).

[68]“Transient and Steady-State Reaction Kinetics on Lithographically Prepared Supported Model Catalysts: CO Oxidation on Pd/SiO2”,
M. Laurin, V. Johanek, A. W. Grant, B. Kasemo, J. Libuda*, H.-J. Freund,
Journal of Chemical Physics 123, 054701 (2005).

[69]“CO adsorption and thermal stability of Pd on a thin FeO(111) film”,
R. Meyer, D. Lahav, T. Schalow, M. Laurin, B. Brandt, S. Guimond, H. Kuhlenbeck, J. Libuda, Sh. K. Shaikhutdinov*, H.-J. Freund,
Surface Science 586, 174 (2005).

[70]“Molecular Beam Experiments on Model Catalysts”,
J. Libuda*, H.-J. Freund
Surface Science Reports 57, 157 (2005).

[71]“Oxygen Storage at the Interface of Supported Catalyst Nanoparticles”,
T. Schalow, B. Brandt, M. Laurin, S. Guimond, D. Starr, H. Kuhlenbeck, Sh. K. Shaikhutdivov, J. Libuda*, H.-J. Freund
Angewandte Chemie Int. Ed. 44, 7601 (2005)

[72]“Sauerstoffspeicherung an der Metall/Oxid-Grenzfläche von Katalysatornanopartikeln”,
T. Schalow, B. Brandt, M. Laurin, S. Guimond, D. Starr, H. Kuhlenbeck, Sh. K. Shaikhutdivov, J. Libuda*, H.-J. Freund
Angewandte Chem. 117, 7773 (2005).

[73]“Model Studies in Heterogeneous Catalysis at the Microscopic Level: From the Structure and Composition of Surfaces to Reaction Kinetics”,
J. Libuda*, T. Schalow, B. Brandt, M. Laurin, S. Schauermann,
Microchimica Acta 156, 9 (2006).

[74]“Oxygen-Induced Restructuring of Fe3O4-Supported Pd Nanoparticles”,
T. Schalow, B. Brandt, M. Laurin, D. Starr, Sh. K. Shaikhutdivov, J. Libuda*, H.-J. Freund
Catalysis Letters 107, 189 (2006).

[75]“Size-Dependent Oxidation Mechanism of Supported Pd Nanoparticles”,
T. Schalow, B. Brandt, D. E. Starr, M. Laurin, Sh. K. Shaikhutdivov, S. Schauermann, J. Libuda*, H.-J. Freund
Angewandte Chemie Int. Ed. 45, 3693 (2006).

[76]“Mechanismus der größenabhängigen Oxidation of getragener Pd-Nanopartikel”,
T. Schalow, B. Brandt, D. E. Starr, M. Laurin, Sh. K. Shaikhutdivov, S. Schauermann, J. Libuda*, H.-J. Freund
Angewandte Chemie 118, 3775 (2006).

[77“Formation of Interface and Surface Oxides on Supported Pd Nanoparticles”,
T. Schalow, B. Brandt, M. Laurin, S. Guimond, H. Kuhlenbeck, S. Schauermann, J. Libuda*, H.-J. Freund
Surface Science 600, 2528 (2006).

[78]“CO Oxidation on Partially Oxidized Pd Nanoparticles”,
T. Schalow, B. Brandt, M. Laurin, S. Guimond, H. Kuhlenbeck, S. Schauermann, J. Libuda*, H.-J. Freund
Journal of Catalysis 242, 58 (2006).

[79]“Formation and Catalytic Activity of Partially Oxidized Pd Nanoparticles”,
T. Schalow, B. Brandt, M. Laurin, S. Guimond, D. E. Starr, Sh. K. Shaikhutdinov, S. Schauermann, J. Libuda*, H.-J. Freund
Topics in Catalysis 42, 387 (2007).

[80]“Particle Size Dependent Oxidation of Fe3O4-Supported Pd Nanoparticles”,
T. Schalow, B. Brandt, M. Laurin, S. Schauermann, J. Libuda*, H.-J. Freund
Physical Chemistry Chemical Physics 9, 1347 (2007).

[81]“Oxidation, Reduction, and Reactivity of Supported Pd Nanoparticles:
Mechanism and Microkinetics”,
B. Brandt, T. Schalow, M. Laurin, S. Schauermann, J. Libuda*, H.-J. Freund,
Journal of Physical Chemistry C 111, 938 (2007).

[82]“Adsorption and Reaction of Methanol on Palladium Model Catalysts:
Microscopic-Level Studies from Ultrahigh Vacuum to Ambient Pressure Conditions”,
M. Bäumer, H.-J. Freund, J. Libuda, K. M. Neyman, N. Rösch, G. Rupprechter,
Physical Chemistry Chemical Physics 9, 3541 (2007)

[83]“Isomerization and Hydrogenation of cis-2-Butene on Pd Model Catalysts”,
B. Brandt, J.-H. Fischer, W. Ludwig, S. Schauermann, J. Libuda, F. Zaera, H.-J. Freund,
Journal of Physical Chemistry C 112, 11408 (2008).

[84]“Strong Size Effects in Supported Ionic Nanoparticles: Tailoring the Stability of NOx Storage Catalysts”
A. Desikusumastuti, M. Laurin, M. Happel, Z. Qin, S. Shaikhutdinov, J. Libuda*
Catalysis Letters 121, 311 (2008).

[85]“Modeling NOx Storage Materials: On the Interaction of NO2 with BaO Nanoparticles Supported on Ordered Alumina Films”,
A. Desikusumastuti, T. Staudt, M. Happel, M. Laurin, J. Libuda*,
Journal of Catalysis 260, 315 (2008).

[86]“Particle Size Dependent Nitrite and Nitrate Formation and Decomposition on BaO/Al2O3 Model Storage Materials”,
A. Desikusumastuti, Markus Happel, Mathias Laurin, Thorsten Staudt, Zhihui Qin, S. Shaikhutdinov, J. Libuda*,
Physical Chemistry Chemical Physics 11, 2514 (2009).

[87]“Modeling NOx Storage Materials: On the Formation of Surface Nitrites and Nitrates and Their Identification by Vibrational Spectroscopy”,
A. Desikusumastuti, M. Happel, K. Dumbuya, T. Staudt, M. Laurin, J. M. Gottfried, H.-P. Steinrück, J. Libuda,
Journal of Physical Chemistry C 112, 6477 (2008).

[88]“Identifying Surface Species by Vibrational Spectroscopy: Bridging vs Monodentate Nitrates”,
A. Desikusumastuti, T. Staudt, H. Grönbeck, J. Libuda,
Journal of Catalysis 255, 127 (2008).

[89]“NO Adsorption on Pd Nanoparticles: A DFT and IRAS Study”,
F. Vines, K. Neyman, A. Desikusumastuti, M. Happel, T. Staudt, M. Laurin, J. Libuda,
Journal of Physical Chemistry C 112, 16539 (2008).

[90]“Modelling NOx Storage Materials: A High-Resolution Photoelectron Spectroscopy Study on the Interaction of NO2 with Alumina Supported BaO Nanoparticles”,
T. Staudt, A. Desikusumastuti, M. Happel, E. Vesselli, S. Gardonio, S. Lizzit, A. Baraldi, F. Rohr, J. Libuda,
Journal of Physical Chemistry C 112, 9835 (2008).

[91]“Interaction of NO2 with Model NSR Catalysts: Metal-Oxide Interaction Controls Initial NOx Storage Mechanism“,
A. Desikusumastuti, T. Staudt, Z. Qin, M. Happel, M. Laurin, Y. Lykhach, S. Shaikhutdinov, F. Rohr, J. Libuda,
ChemPhysChem 9, 2125 (2008).

[92]“Controlling Metal/Oxide Interactions in Bifunctional Nanostructured Model Catalysts:
Pd and BaO on Al2O3/NiAl(110)“
A. Desikusumastuti, Z. Qin, T. Staudt, M. Happel, Y. Lykhach, M. Laurin , Sh. Shaikhutdinov, J. Libuda,
Surface Science 603, L9 (2009).

[93]“Conversion of cis- and trans-2-butene with Deuterium on a Pd/Fe3O4 Model Catalyst.“,
B. Brandt, W. Ludwig, J.-H. Fischer, J. Libuda, F. Zaera, S. Schauermann,
Journal of Catalysis 265, 191 (2009).

[94]“Model NOx Storage Materials at Realistic NO2 Pressures“
A. Desikusumastuti, S. Schernich, M. Sobota, M. Laurin, J. Libuda,
ChemCatChem 1, 318 (2009).

[95]“Toward Ionic-Liquid-Based Model Catalysis: Growth, Orientation, Conformation, and Interaction Mechanism of the [Tf2N]− Anion in [BMIM][Tf2N] Thin Films on a Well-Ordered Alumina Surface”
M. Sobota, I. Nikiforidis, W. Hieringer, N. Paape, M. Happel, H.-P. Steinrück, A. Görling, P. Wasserscheid, M. Laurin, J. Libuda
Langmuir 10, 7199 (2010).

[96]“Particle Size Dependent Interaction of NO2 with Pd Nanoparticles Supported On Model NOx Storage Materials“
A. Desikusumastuti, M. Happel, Z. Qin, T. Staudt, Y. Lykhach, M. Laurin, S. Shaikhutdinov, F. Rohr, J. Libuda,
Journal of Physical Chemistry C 113, 9755 (2009)

[97]“Chemistry at Surfaces“,
H.-P. Steinrück, J. Libuda, and D. A. King,
Chem. Soc. Rev. 27, 2153 (2008)

[98]“SOx storage- and release kinetics for ceria supported platinum”
M. Happel, L. Kylhammar, P.-A. Carlsson, J. Libuda, H. Grönbeck, M. Skoglundh,
Applied Catalysis B – Environmental  91, 679 (2009).

[99]“A route to continuous ultra-thin cerium oxide films on Cu(111)”
T. Staudt, Y. Lykhach, L. Hammer, M. A. Schneider, V. Matolín, J. Libuda,
Surface Science, 603, 3382 (2009).

[100]“Microscopic insights into methane activation, formation of carbonaceous residues, hydrogen and oxygen spillover, and self-cleaning processes on Pt/ceria model catalysts“
Y. Lykhach, T. Staudt, M. P. A. Lorenz, R. Streber, A. Bayer, H.-P. Steinrück, J. Libuda
ChemPhysChem 11, 1496 (2010).

[101]“CO2 activation on single crystal based ceria and magnesia/ceria model catalysts”
Y. Lykhach, T. Staudt, R. Streber, M.P.A. Lorenz, A. Bayer, H.-P. Steinrück, J. Libuda,
The European Physical Journal B 75, 89 (2010).

[102]“Ionic Liquid Based Model Catalysis: Interaction of [BMIM][Tf2N] with Pd Nanoparticles  Supported on an Ordered Alumina Film“
M. Sobota, M. Schmid, M. Happel, M. Amende, F. Maier, H.-P. Steinrück, N. Paape, P. Wasserscheid, M. Laurin, J. M. Gottfried, J. Libuda, Physical Chemistry Chemical Physics 12, 10610 (2010).

[103]“Impact of Sulfur Poisoning on the NOx Uptake of a NOx Storage and Reduction (NSR) Model Catalyst"
M. Happel, A. Desikusumastuti, M. Sobota, M. Laurin, J. Libuda
Journal of Physical Chemistry C 114, 4568 (2010).

[104]“Methane Activation by Platinum: Critical Role of Edge and Corner Sites of Metal Nanoparticles“
F. Viñes, Y. Lykhach, T. Staudt, M.P.A. Lorenz, C. Papp, H.-P. Steinrück, J. Libuda, K. M. Neyman,  A. Görling
Chemistry – A European Journal, 16, 6530 (2010).

[105]“Ordering and Phase Transitions of Ionic Liquid Crystalline Films“
M. Sobota, X. Wang, M. Fekete, M. Happel, K. Meyer, P. Wasserscheid, M. Laurin, J. Libuda,
ChemPhysChem 11, 1632 (2010).

[106]“Controlling the Adsorption Kinetics via Nanostructuring: Pd Nanoparticles on TiO2 Nanotubes“
A. Honciuc, M. Laurin, S. Albu, M. Sobota, P. Schmuki, J. Libuda,
Langmuir 26, 14014 (2010).

[107]“Enhanced Reactivity of Pt Nanoparticles  Supported on Ceria Thin Films During Ethylene Dehydrogenation“
Y. Lykhach, T. Staudt, N. Tsud, T. Skála, K. C. Prince, V. Matolín,  J. Libuda
Physical Chemistry Chemical Physics 13, 253 (2011).

[108]“Preparation and Adsorption Properties of Pd Nanoparticles Supported on TiO2 Nanotubes“
A. Honciuc, M. Laurin, S. Albu, M. Amende, M. Sobota, R. Lynch, P. Schmuki, J. Libuda,
The Journal of Physical Chemistry C 114, 20146 (2010) .

[109]“SO2 Adsorption on Pt(111) and Oxygen Pre-covered Pt(111): A Combined Infrared Reflection Absorption Spectroscopy and Density Functional Study”
M. Happel, N. Luckas, F. Viñes, M. Sobota,M. Laurin, A. Görling, J. Libuda,
The Journal of Physical Chemistry C 115, 479 (2011).

[110]“Ligand Effects in SCILL Model Systems: Site-Specific Interactions with Pt and Pd Nanoparticles”
M. Sobota, M. Happel, M. Amende, N. Paape, P. Wasserscheid, M. Laurin*, J. Libuda
Advanced Materials 23, 2617 (2011).

[111]“Support Nanostructure Boosts Oxygen Transfer to Catalytically Active Platinum Nanoparticles“
G. N. Vayssilov, Y. Lykhach, A. Migani, T. Staudt, G. P. Petrova, N. Tsud, T. Skála, A. Bruix, F. Illas, K. C. Prince, V. Matolín, K. M. Neyman, J. Libuda
Nature Materials 10, 310 (2011).

[112]"Ceria reoxidation by CO2: A model study"
T. Staudt, Y. Lykhach, N. Tsud, T. Skala, K.C. Prince, V. Matolin, J. Libuda,
Journal of Catalysis 275, 181 (2010).

[113]“Density Functional Calculations and IR Reflection Absorption Spectroscopy on the Interaction of SO2 with Oxide-Supported Pd Nanoparticles”
N. Luckas, F. Vines, M. Happel, A. Desikusumastuti, J. Libuda, A. Görling,
The Journal of Physical Chemistry C, 114, 13813 (2010)

[114]    “Hydrogen Spillover Monitored by Resonant Photoemission Spectroscopy”
Y. Lykhach, T. Staudt, M. Vorokhta, T. Skála, K. C Prince, V. Matolín, J. Libuda,
Journal of Catalysis, doi:10.1016/j.jcat.2011.09.002

[115]“Electronic Structure of Magnesia-Ceria Model Catalysts, CO2 Adsorption, and CO2 Activation: A Synchrotron Radiation Photoelectron Spectroscopy Study”
T. Staudt, Y. Lykhach, N. Tsud, T. Skala, K. C. Prince, V. Matolín, J. Libuda,
Journal of Physical Chemistry C 115, 8716 (2011).

[116]“Surface Science and Model Catalysis with Ionic Liquid-modified Materials”
H.-P. Steinrück*, J. Libuda*, P. Wasserscheid, T. Cremer, C. Kolbeck, M. Laurin, F. Maier, M. Sobota, P. S. Schulz, M. Stark,
Advanced Materials 23, 2571 (2011).

[117]“Functional nickel complexes of N-heterocyclic carbene ligands in preorganized and supported thin film materials”
X. Wang, M. Sobota, F. T. U. Kohler, B. Morain, B. U. Melcher, M. Laurin, P. Wasserscheid, J. Libuda, K. Meyer,
J. Mater. Chem., 2012, DOI: 10.1039/C1JM13416G.

[118]“Effects of deposited Pt particles on the reducibility of CeO2(111)“
A. Bruix, A. Migani, G. N. Vayssilov, K. M. Neyman, J. Libuda, F. Illas,
Phys. Chem. Chem. Phys. 13, 11384 (2011).

[119]“Dehydrogenation of Dodecahydro-N-ethylcarbazole on Pd/Al2O3 Model Catalysts“
M. Sobota, I. Nikiforidis., M. Amende, B. Sanmartín Zanón, T. Staudt, O Höfert, Y. Lykhach, C. Papp, W. Hieringer, M. Laurin, D. Assenbaum, P Wasserscheid, H.-P. Steinrück, A. Görling, J. Libuda
Chem. Eur. J. 115, 19872 (2011).

[120]“Surface functionalized ILC-SILP materials: ionic liquid crystals in mesopores“
F. T. U. Kohler, B. Morain, A. Weiß, M. Laurin, J. Libuda, V. Wagner, B. U. Melcher, X. Wang, K. Meyer, P. Wasserscheid
ChemPhysChem 12, 3539 (2011)

[121]“Mechanism of Sulfur Poisoning and Storage: Adsorption and Reaction of SO2 with Stoichiometric and Reduced Ceria Films on Cu(111)“
M. Happel, Y. Lykhach, N. Tsud, T. Skála, K. C. Prince, V. Matolín, J. Libuda,
Journal of Physical Chemistry C 115, 19872 (2011).

[122]„On The Interaction of Mg with the (111) and (110) Surfaces of Ceria“
M. Nolan, Y. Lykhach, N. Tsud, T. Skála, T. Staudt, K. C. Prince, V. Matolín, J. Libuda,
Physical Chemistry Chemical Physics 14, 1293 (2011).

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