Publications of Bernd Rausenberger
All genres
Journal Article (9)
1998
Journal Article
Rausenberger, Bernd, W. Swiech, A.K. Schmid, C.S. Rastomjee, Wilfried Engel and Alexander M. Bradshaw: Investigation of the NO+H2 reaction on Pt{100} with low-energy electron microscopy.
1996
Journal Article
Rausenberger, Bernd, Michael V. Mundschau, W. Swiech, Wilfried Engel and Alexander M. Bradshaw: Investigation of the NO + H2 reaction on Pt{100} with low-energy emission and reflection microscopy: PEEM studies.
Journal Article
Rose, Kai C., , Bernd Rausenberger, C.S. Rastomjee, Wilfried Engel and Alexander M. Bradshaw: Nucleation of chemical waves at structural defects: a mirror electron microscopy study of catalytic CO oxidation on Pt(110).
1994
Journal Article
Swiech, W., C.S. Rastomjee, Ronald Imbihl, J.W. Evans, Bernd Rausenberger, Wilfried Engel, A.K. Schmid, Alexander M. Bradshaw and Elmar Zeitler: On the complex structure of reaction-diffusion fronts observed during CO oxidation on Pt{100}.
1993
Journal Article
Rausenberger, Bernd, W. Swiech, Wilfried Engel, Alexander M. Bradshaw and Elmar Zeitler: LEEM and selected-area LEED studies of reaction front propagation.
Journal Article
Rausenberger, Bernd, W. Swiech, C.S. Rastomjee, Michael V. Mundschau, Wilfried Engel, Elmar Zeitler and Alexander M. Bradshaw: Imaging reaction-diffusion fronts with low-energy electron microscopy.
Journal Article
Swiech, W., Bernd Rausenberger, Wilfried Engel and Elmar Zeitler: In-situ studies of heterogeneous reactions using mirror electron microscopy.
1991
Journal Article
Mundschau, Michael V. and Bernd Rausenberger: Chemical Reaction Fronts on Platinum Surfaces.
1990
Journal Article
Mundschau, Michael V., Martin E. Kordesch, B. Rausenberger, Wilfried Engel, Alexander M. Bradshaw and Elmar Zeitler: Real-time observation of the nucleation and propagation of reaction fronts on surfaces using photoemission electron microscopy.
Thesis - PhD (1)
1993
Thesis - PhD
Rausenberger, Bernd: In-situ-Untersuchungen heterogen-katalysierter Reaktionen an Einkristalloberflächen mit Emissions- und Reflexionsmikroskopie langsamer Elektronen.