Details
Title
LPS
Formal Name (French)
Laboratoire de physique des surfaces
Formal Name (English)
Laboratory of Surface Physics
Lab Manager
Infoscience team
Group ID
US00152
Affiliated authors
Aberg, Carl Kristoffer
Baldereschi, Alfonso
Cavar, Elizabeta
De Vita, Alessandro
Ploigt, Hans-Christoph
Schneider, Wolf-Dieter
Stengel, Massimiliano
Ternes, Markus
Vladimirova, Maria
Weber, Cédric
Baldereschi, Alfonso
Cavar, Elizabeta
De Vita, Alessandro
Ploigt, Hans-Christoph
Schneider, Wolf-Dieter
Stengel, Massimiliano
Ternes, Markus
Vladimirova, Maria
Weber, Cédric
Institute
IPHYS
Faculty
SB
Note
Members of LPS-unit
Linked resource
http://ipn.epfl.ch/page38310.html
Publications
Adsorption of thioether molecules on an alumina thin film
Dynamical Coulomb Blockade Observed in Nanosized Electrical Contacts
Plasmon enhanced luminescence from fullerene molecules excited by local electron tunneling
Reduction of the Superconducting Gap of Ultrathin Pb Islands Grown on Si(111)
Scanning Tunneling Microscopy and Spectroscopy of Supported Nanostructures
Scanning tunneling spectroscopy at the single atom scale
Supramolecular Self-Assembly Driven by Electrostatic Repulsion: The 1D Aggregation of Rubrene Pentagons on Au(111)
Transport properties and electronic structure of individual metallic nanocontacts on dielectric supports: A local view
Two-dimensional tiling by rubrene molecules self-assembled in supramolecular pentagons, hexagons, and heptagons on a Au(111) surface
Ultra-thin dielectric layers on metal substrates studied by scanning tunneling microscopy and scanning tunneling spectroscopy
See complete list of publications (217)
Dynamical Coulomb Blockade Observed in Nanosized Electrical Contacts
Plasmon enhanced luminescence from fullerene molecules excited by local electron tunneling
Reduction of the Superconducting Gap of Ultrathin Pb Islands Grown on Si(111)
Scanning Tunneling Microscopy and Spectroscopy of Supported Nanostructures
Scanning tunneling spectroscopy at the single atom scale
Supramolecular Self-Assembly Driven by Electrostatic Repulsion: The 1D Aggregation of Rubrene Pentagons on Au(111)
Transport properties and electronic structure of individual metallic nanocontacts on dielectric supports: A local view
Two-dimensional tiling by rubrene molecules self-assembled in supramolecular pentagons, hexagons, and heptagons on a Au(111) surface
Ultra-thin dielectric layers on metal substrates studied by scanning tunneling microscopy and scanning tunneling spectroscopy
See complete list of publications (217)
Record appears in
Authorities > Lab