info:eu-repo/semantics/article
Molecular and Electronic Structure of Electroactive Self-Assembled Monolayers
Fecha
2013-03Registro en:
Méndez de Leo, Lucila Paula; de la Llave, Ezequiel Pablo; Scherlis Perel, Damian Ariel; Williams, Federico Jose; Molecular and Electronic Structure of Electroactive Self-Assembled Monolayers; American Institute of Physics; Journal of Chemical Physics; 138; 11; 3-2013; 1-10
0021-9606
Autor
Méndez de Leo, Lucila Paula
de la Llave, Ezequiel Pablo
Scherlis Perel, Damian Ariel
Williams, Federico Jose
Resumen
Self-assembled monolayers (SAMs) containing electroactive functional groups are excellent model systems for the formation of electronic devices by self-assembly. In particular ferrocene-terminated alkanethiol SAMs have been extensively studied in the past. However, there are still open questions related with their electronic structure including the influence of the ferrocene group in the SAM-induced work function changes of the underlying metal. We have thus carried out a thorough experimental and theoretical investigation in order to determine the molecular and electronic structure of ferrocene-terminated alkanethiol SAMs on Au surfaces. In agreement with previous studies we found that the Fc-containing alkanethiol molecules adsorb forming a thiolate bond with the Au surface with a molecular geometry 30 degrees tilted with respect to the surface normal. Measured surface coverages indicate the formation of a compact monolayer. On the other hand, contrary with previous observations, we found that the ferrocene group has little influence on the observed work function decrease which is largely determined by the alkanethiol. Furthermore, the ferrocene moiety lies 14 Å above the metal surface covalently bonded to the alkanethiol SAM and its HOMO is located at -1.6 eV below the Fermi level. Our results provide new valuable insight into the molecular and electronic structure of electroactive SAMs which are of fundamental importance in the field of molecular electronics.