Support nanostructure boosts oxygen transfer to catalytically active platinum nanoparticles GN Vayssilov, Y Lykhach, A Migani, T Staudt, GP Petrova, N Tsud, ... Nature materials 10 (4), 310-315, 2011 | 910 | 2011 |
Counting electrons on supported nanoparticles Y Lykhach, SM Kozlov, T Skála, A Tovt, V Stetsovych, N Tsud, F Dvořák, ... Nature materials 15 (3), 284-288, 2016 | 563 | 2016 |
Maximum noble‐metal efficiency in catalytic materials: atomically dispersed surface platinum A Bruix, Y Lykhach, I Matolínová, A Neitzel, T Skála, N Tsud, M Vorokhta, ... Angewandte Chemie International Edition 53 (39), 10525-10530, 2014 | 477 | 2014 |
Molecular beam experiments on model catalysts J Libuda, HJ Freund Surface Science Reports 57 (7-8), 157-298, 2005 | 435 | 2005 |
Structure and defects of an ordered alumina film on NiAl (110) J Libuda, F Winkelmann, M Bäumer, HJ Freund, T Bertrams, ... Surface Science 318 (1-2), 61-73, 1994 | 377 | 1994 |
CO adsorption on Pd nanoparticles: Density functional and vibrational spectroscopy studies IV Yudanov, R Sahnoun, KM Neyman, N Rösch, J Hoffmann, ... The Journal of Physical Chemistry B 107 (1), 255-264, 2003 | 333 | 2003 |
Surface science and model catalysis with ionic liquid‐modified materials HP Steinrück, J Libuda, P Wasserscheid, T Cremer, C Kolbeck, M Laurin, ... Advanced Materials 23 (22‐23), 2571-2587, 2011 | 232 | 2011 |
Catalytic activity and poisoning of specific sites on supported metal nanoparticles S Schauermann, J Hoffmann, V Johánek, J Hartmann, J Libuda, ... Angewandte Chemie International Edition 41 (14), 2532-2535, 2002 | 223 | 2002 |
Bridging the pressure and materials gaps between catalysis and surface science: clean and modified oxide surfaces HJ Freund, H Kuhlenbeck, J Libuda, G Rupprechter, M Bäumer, ... Topics in Catalysis 15, 201-209, 2001 | 204 | 2001 |
Hydroxy1 driven reconstruction of the polar NiO (111) surface F Rohr, K Wirth, J Libuda, D Cappus, M Bäumer, HJ Freund Surface science 315 (1-2), L977-L982, 1994 | 202 | 1994 |
Fluctuations and bistabilities on catalyst nanoparticles V Johánek, M Laurin, AW Grant, B Kasemo, CR Henry, J Libuda Science 304 (5677), 1639-1644, 2004 | 201 | 2004 |
Preparation and characterization of model catalysts: from ultrahigh vacuum to in situ conditions at the atomic dimension HJ Freund, M Bäumer, J Libuda, T Risse, G Rupprechter, S Shaikhutdinov Journal of Catalysis 216 (1-2), 223-235, 2003 | 201 | 2003 |
Size‐dependent oxidation mechanism of supported Pd nanoparticles T Schalow, B Brandt, DE Starr, M Laurin, SK Shaikhutdinov, ... Angewandte Chemie International Edition 45 (22), 3693-3697, 2006 | 169 | 2006 |
Methane activation by platinum: Critical role of edge and corner sites of metal nanoparticles F Viñes, Y Lykhach, T Staudt, MPA Lorenz, C Papp, HP Steinrück, ... Chemistry–A European Journal 16 (22), 6530-6539, 2010 | 159 | 2010 |
Ceria reoxidation by CO2: A model study T Staudt, Y Lykhach, N Tsud, T Skála, KC Prince, V Matolín, J Libuda Journal of Catalysis 275 (1), 181-185, 2010 | 148 | 2010 |
Interaction of rhodium with hydroxylated alumina model substrates J Libuda, M Frank, A Sandell, S Andersson, PA Brühwiler, M Bäumer, ... Surface science 384 (1-3), 106-119, 1997 | 144 | 1997 |
Oxygen storage at the metal/oxide interface of catalyst nanoparticles T Schalow, M Laurin, B Brandt, S Schauermann, S Guimond, ... Angewandte Chemie-International Edition 44 (46), 7601-7604, 2005 | 141 | 2005 |
Storing energy with molecular photoisomers Z Wang, P Erhart, T Li, ZY Zhang, D Sampedro, Z Hu, HA Wegner, ... Joule 5 (12), 3116-3136, 2021 | 138 | 2021 |
Water chemistry on model ceria and Pt/ceria catalysts Y Lykhach, V Johanek, HA Aleksandrov, SM Kozlov, M Happel, T Skala, ... The Journal of Physical Chemistry C 116 (22), 12103-12113, 2012 | 138 | 2012 |
Model Catalytic Studies of Liquid Organic Hydrogen Carriers: Dehydrogenation and Decomposition Mechanisms of Dodecahydro-N-ethylcarbazole on Pt(111) M Amende, C Gleichweit, K Werner, S Schernich, W Zhao, MPA Lorenz, ... ACS catalysis 4 (2), 657-665, 2014 | 137 | 2014 |