English

Transport and noise in organic field effect devices

Mesoscale and Nanoscale Physics 2009-04-03 v3
Authors: K. Morawetz S. Gemming , R. Luschtinetz , T. Kunze , P. Lipavský , L. M. Eng , G. Seifert , V. Pankoke , P. Milde
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Abstract

The transport and fluctuation properties of organic molecules ordered parallel between two Au contact leads are investigated by the method of surface Green function. From first-principles simulation the relevant hopping parameters are extracted and used to calculate nonlinear transport coefficients with respect to an external bias voltage. A staggering of conductance is found in dependence on the number of molecules squeezed in between the contacts. The thermal properties show an anomalous behavior whenever the voltage reaches the values of the molecular energy levels active for transport. The thermoelectric figure of merit shows a resonance allowing to reach values even larger than one.

Keywords

molecular electronics charge carrier mobility quantum transport

Cite

@article{arxiv.0810.0426,
  title  = {Transport and noise in organic field effect devices},
  author = {K. Morawetz S. Gemming and R. Luschtinetz and T. Kunze and P. Lipavský and L. M. Eng and G. Seifert and V. Pankoke and P. Milde},
  journal= {arXiv preprint arXiv:0810.0426},
  year   = {2009}
}

Comments

corrected version

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