References of "Standop, Sebastian"
     in
Bookmark and Share    
Full Text
Peer Reviewed
See detailMolecular structure of the H2O wetting layer on Pt(111)
Standop, Sebastian; Redinger, Alex UL; Morgenstern, Markus et al

in Physical Review. B (2010), 82(16),

The molecular structure of the wetting layer of ice on Pt(111) is resolved using scanning tunneling microscopy. Two structures observed previously by diffraction techniques are imaged for coverages at or ... [more ▼]

The molecular structure of the wetting layer of ice on Pt(111) is resolved using scanning tunneling microscopy. Two structures observed previously by diffraction techniques are imaged for coverages at or close to completion of the wetting layer. At 140 K only a root 37 x root 37R25.3 degrees superstructure can be established while at 130 K also a root 39 x root 39R16.1 degrees superstructure with slightly higher molecular density is formed. In the temperature range under concern the superstructures reversibly transform into each other by slight changes in coverage through adsorption or desorption. The superstructures exhibit a complex pattern of molecules in different geometries. [less ▲]

Detailed reference viewed: 39 (3 UL)
Full Text
Peer Reviewed
See detailTrails of Kilovolt Ions Created by Subsurface Channeling
Redinger, Alex UL; Standop, Sebastian; Michely, Thomas et al

in PHYSICAL REVIEW LETTERS (2010), 104(7),

Using scanning tunneling microscopy, we observe the damage trails produced by keV noble-gas ions incident at glancing angles onto Pt(111). Surface vacancies and adatoms aligned along the ion trajectory ... [more ▼]

Using scanning tunneling microscopy, we observe the damage trails produced by keV noble-gas ions incident at glancing angles onto Pt(111). Surface vacancies and adatoms aligned along the ion trajectory constitute the ion trails. Atomistic simulations reveal that these straight trails are produced by nuclear (elastic) collisions with surface layer atoms during subsurface channeling of the projectiles. In a small energy window around 5 keV, Xe(+) ions create vacancy grooves that mark the ion trajectory with atomic precision. The asymmetry of the adatom production on the two sides of the projectile path is traced back to the asymmetry of the ion's subsurface channel. [less ▲]

Detailed reference viewed: 92 (2 UL)