All Outputs (2)

Surface structural phase transition induced by the formation of metal–organic networks on the Si(111)-v7×v3-In surface (2019)
Journal Article
Suzuki, T., Lawrence, J., Morbec, J., Kratzer, P., & Costantini, G. (2019). Surface structural phase transition induced by the formation of metal–organic networks on the Si(111)-v7×v3-In surface. Nanoscale, 21790-21798. https://doi.org/10.1039/C9NR07074E

We studied the adsorption of 7,7,8,8-tetracyanoquinodimethane (TCNQ) on the Si(111)v7×v3 In surface, a known surface superconductor. Scanning tunneling microscopy shows the development of a surface-confined metal–organic network (SMON) where TCNQ mol... Read More about Surface structural phase transition induced by the formation of metal–organic networks on the Si(111)-v7×v3-In surface.

The Molecule-Metal Bond of Alternant versus Nonalternant Aromatic Systems on Coinage Metal Surfaces: Naphthalene versus Azulene on Ag(111) and Cu(111) (2019)
Journal Article
Klein, B. P., Morbec, J. M., Franke, M., Greulich, K. K., Sachs, M., Parhizkar, S., Bocquet, F. C., Schmid, M., Hall, S. J., Maurer, R. J., Meyer, B., Tonner, R., Kumpf, C., Kratzer, P., & Michael Gottfried, J. (2019). The Molecule-Metal Bond of Alternant versus Nonalternant Aromatic Systems on Coinage Metal Surfaces: Naphthalene versus Azulene on Ag(111) and Cu(111). Journal of Physical Chemistry C, 29219-29230. https://doi.org/10.1021/acs.jpcc.9b08824

Interfaces between polycyclic p-electron systems and metals play prominent roles in organic or graphene-based (opto)electronic devices, in which performance-related parameters depend critically on the properties of metal/semiconductor contacts. Here,... Read More about The Molecule-Metal Bond of Alternant versus Nonalternant Aromatic Systems on Coinage Metal Surfaces: Naphthalene versus Azulene on Ag(111) and Cu(111).