Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2008-09-04
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
32 pages, 8 figures. Physical Review B, in press
Scientific paper
10.1103/PhysRevB.78.125107
We explore theoretically the electroluminescence of single molecules. We adopt a local-electrode framework that is appropriate for scanning tunneling microscopy (STM) experiments where electroluminescence originates from individual molecules of moderate size on complex substrates: Couplings between the STM tip and molecule and between the molecule and multiple substrate sites are treated on the same footing, as local electrodes contacting the molecule. Electron flow is modelled with the Lippmann-Schwinger Green function scattering technique. The evolution of the electronic energy levels of the molecule under bias is modelled assuming the total charge of the molecule to be invariant, consistent with Coulomb blockade considerations, but that the electronic occupations of the molecular HOMO and LUMO levels vary with changing bias. The photon emission rate is calculated using Fermi's golden rule. We apply this theoretical approach to the STM/Zn-etioporphyrin/Al2O3/NiAl(110) system, and simulate various configurations of coupling strength between the molecule and substrate. We compare our results to the experimental observations of Qiu, Nazin and Ho [Science 299, 542 (2003)] for this system and find that our model provides a comprehensive explanation of a multitude of previously unexplained observations. These include the different types of current-voltage characteristics (CVC's) that are observed experimentally, the observed association of electroluminescence with some CVC's and not others and key properties of the observed photon spectra. Theoretical predictions are presented for further single-molecule electroluminescence experiments.
Buker John
Kirczenow} George
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