Aromatic compounds

Topological Stone–Wales Defects Enhance Bonding and Electronic Coupling at the Graphene/Metal Interface
Defects play a critical role for the functionality and performance of materials, but the understanding of the related effects is often …
Benedikt P. Klein, Alexander Ihle, Stefan R. Kachel, Lukas Ruppenthal, Samuel J. Hall, Lars Sattler, Sebastian M. Weber, Jan Herritsch, Andrea Jaegermann, Daniel Ebeling, Reinhard J. Maurer, Gerhard Hilt, Ralf Tonner-Zech, André Schirmeisen, J. Michael Gottfried
Cite DOI
Topological Stone–Wales Defects Enhance Bonding and Electronic Coupling at the Graphene/Metal Interface
Enhanced Bonding of Pentagon–Heptagon Defects in Graphene to Metal Surfaces: Insights From the Adsorption of Azulene and Naphthalene to Pt(111)
The performance of graphene-based (opto)electronic devices depends critically on the graphene/metal interface formed at the metal …
Benedikt P. Klein, S Elizabeth Harman, Lukas Ruppenthal, Griffin M. Ruehl, Samuel J. Hall, Spencer J. Carey, Jan Herritsch, Martin Schmid, Reinhard J. Maurer, Ralf Tonner, Charles T. Campbell, J. Michael Gottfried
Cite DOI
Enhanced Bonding of Pentagon–Heptagon Defects in Graphene to Metal Surfaces: Insights From the Adsorption of Azulene and Naphthalene to Pt(111)
The Molecule-Metal Bond of Alternant versus Nonalternant Aromatic Systems on Coinage Metal Surfaces: Naphthalene versus Azulene on Ag(111) and Cu(111)
Interfaces between polycyclic π-electron systems and metals play prominent roles in organic or graphene-based (opto)electronic devices, …
Benedikt P. Klein, Juliana M. Morbec, Markus Franke, Katharina K Greulich, Malte Sachs, Shayan Parhizkar, François C. Bocquet, Martin Schmid, Samuel J. Hall, Reinhard J. Maurer, Bernd Meyer, Ralf Tonner, Christian Kumpf, Peter Kratzer, J. Michael Gottfried
Cite DOI
The Molecule-Metal Bond of Alternant versus Nonalternant Aromatic Systems on Coinage Metal Surfaces: Naphthalene versus Azulene on Ag(111) and Cu(111)