Publications of Sascha Stempel
All genres
Journal Article (9)
2003
Journal Article
Heemeier, Michael, Sascha Stempel, Shamil Shaikhutdinov, Jörg Libuda, Marcus Bäumer, , and Hans-Joachim Freund: On the thermal stability of metal particles supported on a thin alumina film.
2000
Journal Article
Bäumer, Marcus, Martin M. Frank, Michael Heemeier, , Sascha Stempel and Hans-Joachim Freund: Nucleation and growth of transition metals on a thin alumina film.
1999
Journal Article
Frank, Martin, , Jörg Libuda, Sascha Stempel, , , , , Marcus Bäumer, and Hans-Joachim Freund: Erratum to: ‘‘Particle size dependent CO dissociation on alumina-supported Rh: a model study’’ [Chem. Phys. Lett. 279 (1997) 92].
Journal Article
Sascha Stempel, , Marcus Bäumer, Hans-Joachim Freund, and : , , Palladium Nanocrystals on Al2O3: Structure and Adhesion Energy.
Journal Article
Hill, Thomas, Sascha Stempel, Thomas Risse, Marcus Bäumer and Hans-Joachim Freund: FMR studies on ultrathin metallic films grown on Al2O3 surfaces.
1998
Journal Article
Hill, Thomas, Mohsen Mozaffari-Afshar, Jörg Schmidt, Thomas Risse, Sascha Stempel, Michael Heemeier and Hans-Joachim Freund: Influence of CO adsorption on the magnetism of small Co particles deposited on Al2O3.
Journal Article
Stempel, Sascha, Marcus Bäumer and Hans-Joachim Freund: STM studies of rhodium deposits on an ordered alumina film-resolution and tip effects.
1997
Journal Article
Bäumer, Marcus, Martin M. Frank, Jörg Libuda, Sascha Stempel and Hans-Joachim Freund: Growth and morphology of Rh deposits on an alumina film under UHV conditions and under the influence of CO.
Journal Article
Frank, Martin, , Jörg Libuda, S. Stempel, , , , , Marcus Bäumer, and Hans-Joachim Freund: Particle size dependent CO dissociation on alumina-supported Rh: a model study.
Book Chapter (1)
2000
Book Chapter
Bäumer, Marcus, Martin M. Frank, , Michael Heemeier, Sascha Stempel and Hans-Joachim Freund: Metal particles on oxide surfaces: structure and adsorption behaviour.
Thesis - PhD (1)
1998
Thesis - PhD
Stempel, Sascha: Nukleation, Wachstum und Struktur kleiner Metallpartikel auf einer geordneten Alumiumoxidunterlage.