| 1 |
CO Oxidation on Stepped Rh Surfaces: mu m-Scale Versus Nanoscale
Suchorski Y, Bespalov I, Zeininger J, Raab M, Datler M, Winkler P, Rupprechter G
Catalysis Letters, 150(3), 605, 2020 |
| 2 |
ITO regulated high-performance n-Si/ITO/alpha-(FeO3)-O-2 Z-scheme heterostructure towards photoelectrochemical water splitting
Feng DQ, Qu JT, Zhang R, Sun XJ, Zheng LC, Liu H, Zhang XH, Lu ZM, Lu F, Wang WH, Dong H, Cheng YH, Liu H, Zheng RK
Journal of Catalysis, 381, 501, 2020 |
| 3 |
Heterogeneous Surfaces as Structure and Particle Size Libraries of Model Catalysts
Suchorski Y, Rupprechter G
Catalysis Letters, 148(10), 2947, 2018 |
| 4 |
From Flat Surfaces to Nanoparticles: In Situ Studies of the Reactivity of Model Catalysts
Papp C
Catalysis Letters, 147(1), 2, 2017 |
| 5 |
Modeling of the Interactions Between Catalytic Surfaces and Gas-Phase
Deutschmann O
Catalysis Letters, 145(1), 272, 2015 |
| 6 |
Towards a Molecular Level Understanding of the Multi-Electron Catalysis of Water Oxidation on Metal Oxide Surfaces
Zhang M, Frei H
Catalysis Letters, 145(1), 420, 2015 |
| 7 |
CatMAP: A Software Package for Descriptor-Based Microkinetic Mapping of Catalytic Trends
Medford AJ, Shi C, Hoffmann MJ, Lausche AC, Fitzgibbon SR, Bligaard T, Norskov JK
Catalysis Letters, 145(3), 794, 2015 |
| 8 |
The Double-Route Model of Oscillatory Phenomena in the NO + H-2 Reaction on Noble Metal Surfaces
Cholach AR, Bulgakov NN
Catalysis Letters, 143(8), 817, 2013 |
| 9 |
Response to the Comment of Drs. R. Imbihl and A. Toghan on the Article "Reaction Kinetic-Induced Changes in the Electrochemically Promoted C2H4 Oxidation on Pt/YSZ" by Peng-ont S., Souentie S., Assabumrungrat S., Praserthdam P., Brosda S., Vayenas C. G., Catalysis Letters 143 (2013) 445
Vayenas CG
Catalysis Letters, 143(9), 977, 2013 |
| 10 |
Non-linear surface reaction kinetics in GaAs selective area MOVPE
Song HZ, Wang YP, Sugiyama M, Nakano Y, Shimogaki Y
Journal of Crystal Growth, 310(23), 4731, 2008 |
