Publications of Janpeter Wolff
All genres
Journal Article (9)
Journal Article
J. Wolff, M. Stich, C. Beta and H.H. Rotermund: Laser-induced target patterns in the oscillatory CO oxidation on Pt(110). Journal of Physical Chemistry B 108 (38), 14282–14291 (2004).
Journal Article
G. Ertl, , , , H.H. Rotermund, M. Schunack and J. Wolff: Oscillatory thermomechanical instability of an ultrathin catalyst. , , , Science 300 (5627), 1932–1936 (2003).
Journal Article
J. Wolff and H.H. Rotermund: Local periodic forcing of CO oxidation on a Pt(110) surface. New Journal of Physics 5, 60.1–60.12 (2003).
Journal Article
J. Wolff, A.G. Papathanasiou, H.H. Rotermund, G. Ertl, and : Local manipulation of catalytic surface reactivity. Journal of Catalysis 216 (1-2), 246–256 (2003).
Journal Article
J. Wolff, A.G. Papathanasiou, H.H. Rotermund, G. Ertl, , and : Wave initiation through spatiotemporally controllable perturbations. Physical Review Letters 90 (14), 148301 (2003).
Journal Article
J. Wolff, A.G. Papathanasiou, H.H. Rotermund, G. Ertl, and : Gentle dragging of reaction waves. Physical Review Letters 90 (1), 018302 (2003).
Journal Article
A.G. Papathanasiou, J. Wolff, , H.H. Rotermund and G. Ertl: Some twists and turns in the path of improving surface activity. Chemical Physics Letters 358 (5-6), 407–412 (2002).
Journal Article
J. Wolff, A.G. Papathanasiou, , H.H. Rotermund and G. Ertl: Spatiotemporal addressing of surface activity. Science 294 (5540), 134–137 (2001).
Journal Article
J. Dicke, P. Erichsen, J. Wolff and H.-H. Rotermund: Reflection anisotropy microscopy: improved set-up and applications to CO oxidation on platinum. Surface Science 462 (1-3), 90–102 (2000).
Conference Paper (1)
Conference Paper
C. Beta, J. Wolff and H.H. Rotermund: Inward traveling target patterns in the oscillatory CO oxidation on Pt(110). In: Experimental Chaos – 8th Experimental Chaos Conference. (Eds.): , , , , , , and . (AIP Conference Proceedings). Springer, Berlin, 9–14 (2004).
Thesis - PhD (1)
Thesis - PhD
J. Wolff: Lokale Kontrolle der Musterbildung bei der CO-Oxidation auf einer Pt(110)-Oberfläche. Freie Universität Berlin