Home - apsi - Science - Projects

Author: apsi
apsi'at'iki.fi
Last revision:
14. août 2013
 

Projects underway


  • Nanomesh; in collaboration with Professor Jürg Hutter, Osterwalder Group at UZH, EMPA, ...
    • Molecules on the nanomesh

  • AIMD; in collaboration with Professor Jürg Hutter, Ivano Tavernelli, Rodolphe Vuilleumier, Guillaume Ferlat, ...
    • Liquid water, small molecules, solvated systems, ...

  • Spectroscopies, edges of graphene nanoribbons; in collaboration with Professor Francesco Mauri, Matteo Calandra, Michele Lazzeri, Marco Saitta
    • NMR, XANES

  • Graphene nanoribbons; in collaboration with Professor Roman Fasel, Pascal Ruffieux, ...
    • Raman spectroscopy at the edges of GNR

  • AIMD and glasses; in collaboration with Guillaume Ferlat, ...
    • Liquid water, small molecules, solvated systems, ...

  • Self-organisation of molecules at metallic surfaces; in collaboration with Professor Johannes V Barth, Willi Auwärter, ...

  • RuO2; in collaboration with Professor Herbert Over
    • RuO2(110), CO/RuO2(110), ../...

  • Collaboration with Paolo Ruggerone

Previous projects


  • Ionic liquids in collaboration with Dr Barbara Kirchner
    • AlCl3, EMIM @ AlCl3

  • Alkali metals at transition metal surfaces (For more information please see my thesis)
    • Cs/Ru(0001)
    • Na/Pt(111)

  • Co-adsorption of alkali metals with small molecules at transition metal surfaces (For more information please see my thesis)
    • Cs+CO/Ru(0001)
    • K+CO/Pt(111)

  • Clean aluminium surfaces (sorry Bjørk...!!)
    • Work function

  • Clean surfaces of ruthenium
    • Ru(0001), Ru(1010), Ru(1012), Ru(1120), Ru(1121)

  • Hydrogen and water at transition metal surfaces
    • H/Ru(0001)
    • H2O/Ru(0001)
    • OH/Pt(111), H2O/Pt(111)
  • Molecular solids
    • CAl12, SiAl12

  • Pair potentials in the repulsive area using DFT
    • Si2, ...

  • Defects in semiconductors (both experimentally and theoretically)
    • InP, GaAs, ...

  • Positrons in solids
  • Steps at ammonia synthesis on the Ru(0001); for other, excellent studies please check the pages of Jens Nørskov @ CAMP/Denmark
    • NHx/Ru(0001), x=0,1,2,3