Publications of Martin Berdau

Journal Article (8)

Journal Article
M. Berdau, G.G. Yelenin, A. Karpowicz, M. Ehsasi, K. Christmann and J.H. Block: Macroscopic and mesoscopic characterization of a bistable reaction system: CO oxidation on Pt(111) surface. The Journal of Chemical Physics 110 (23), 11551–11573 (1999).
Journal Article
M. Kolodziejczyk, R.E.R. Colen, M. Berdau, B. Delmon and J.H. Block: CO oxidation on a copper-modified Pt(111) surface. Surface Science 375 (2-3), 235–249 (1997).
Journal Article
M. Berdau, A. Karpowicz, G.G. Yelenin, K. Christmann and J.H. Block: Kinetic phase diagram for CO oxidation on Pt(210): Pattern formation in the hysteresis and oscillation regions. The Journal of Chemical Physics 106 (10), 4291–4308 (1997).
Journal Article
Y.-S. Lim, M. Berdau, M. Naschitzki, M. Ehsasi and J.H. Block: Oscillating Catalytic CO Oxidation on a Platinum Field Emitter Tip: Determination of a Reactive Phase Diagram by Field Electron Microscopy. Journal of Catalysis 149 (2), 292–299 (1994).
Journal Article
M. Berdau, M. Ehsasi, A. Karpowicz, W. Engel, K. Christmann and J.H. Block: Spatial self-organization during catalytic reaction of Co and oxygen on a Pd(110) surface. Vacuum 45 (2-3), 271–274 (1994).
Journal Article
M. Ehsasi, M. Berdau, T. Rebitzki, K.-P. Charlé, K. Christmann and J.H. Block: A reactive phase diagram of CO oxidation on Pd(110): Steady and oscillatory states. The Journal of Chemical Physics 98 (11), 9177–9184 (1993).
Journal Article
M. Ehsasi, A. Karpowicz, M. Berdau, W. Engel, K. Christmann and J.H. Block: UV-photoemission electron microscopy investigation of pattern formation during oxidation of CO on a platinum(210) surface. Ultramicroscopy 49 (1-4), 318–329 (1993).
Journal Article
M. Ehsasi, M. Berdau, T. Rebitzki, K.-P. Charlé, K. Christmann and J.H. Block: A reactive phase diagram of CO oxidation on Pd(110): Steady and oscillatory states. Journal of Chemical Physics 98 (11), 9177–9184 (1993).

Thesis - PhD (1)

Thesis - PhD
M. Berdau: Untersuchungen zu Hysterese- und Oszillationserscheinungen bei der katalytischen CO-Oxidation auf Platinmetalloberflächen. Freie Universität Berlin
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