Publications of Armin Fischer

Journal Article (5)

2002
Journal Article
H. Cölfen, H. Schnablegger, A. Fischer, F.C. Jentoft, G. Weinberg and R. Schlögl: Particle Growth Kinetics in Zirconium Sulfate Aqueous Solutions Followed by Dynamic Light Scattering and Analytical Ultracentrifugation - Implications for Thin Film Deposition. Langmuir 18 (9), 3500–3509 (2002).
2000
Journal Article
A.D. Polli, T. Wagner, A. Fischer, G. Weinberg, F.C. Jentoft, R. Schlögl and M. Rühle: Structural Characterization of ZrO2 Thin Films Produced via Self-Assembled Monolayer-Mediated Deposition from Aqueous Dispersions. Thin Solid Films 379 (1-2), 122–127 (2000).
1999
Journal Article
A. Fischer, F.C. Jentoft, G. Weinberg, R. Schlögl, T.P. Niesen, J. Bill, F. Aldinger, M.R. De Guire and M. Ruehle: Characterization of thin films containing zirconium, oxygen, and sulfur by scanning electron and atomic force microscopy. Journal of Materials Research 14 (9), 3725–3733 (1999).
Journal Article
T.P. Niesen, M.R. De Guire, J. Bill, F. Aldinger, M. Rühle, A. Fischer, F.C. Jentoft and R. Schlögl: Atomic force microscopy studies of oxide thin films on organic self-assembled monolayers. Journal of Materials Research 14 (6), 2464–2475 (1999).
Journal Article
T.P. Niesen, M.R.D. Guire, J. Bill, F. Aldinger, M. Rühle, A. Fischer, F.C. Jentoft and R. Schlögl: Atomic force microscopic studies of oxide thin films on organic self-assembled monolayers. Journal of Materials Research 14 (6), 2464–2475 (1999).

Conference Paper (1)

2000
Conference Paper
F.C. Jentoft, A. Fischer, G. Weinberg, U. Wild and R. Schlögl: Nanocrystalline Thin Films as a Model System for Sulfated Zirconia. In: Proceedings of the 12th International Congress in Catalysis, Granada, Spain, July 9-14, 2000. (Eds.): and . (Eds.): A. Corma, F.V. Melo, S. Mendioroz, and J.L.G. Fierro. (Studies in Surface Science in Catalysis). Elsevier, Amsterdam / The Netherlands, 209–214 (2000).

Talk (3)

Poster (6)

Thesis - PhD (1)

2001
Thesis - PhD
A. Fischer: Darstellung nanokristalliner sulfatierter ZrO2-Filme und deren Einsatz als Modellkatalysatoren. Technische Universität Berlin
Go to Editor View