Electrical Characterization of a Switchable Molecular Wire via Mechanically Controllable Break Junctions


Electrical Characterization of a Switchable Molecular Wire via Mechanically Controllable Break Junctions

Sendler, T.; Wieser, M.; Wolf, J.; Huhn, T.; Scheer, E.; Moresco, F.; Grebing, J.; Gemming, S.; Erbe, A.

Molecular electronics has been a eld of big interest for the last years. Using the technique of mechanically controllable break junctions we characterize the Switchable Molecular Wire Oligo(phenylene ethynylene)-embedded Difurylperuorocyclopentenes (SMW) in liquid environment. Via light irradiation the SMW can be switched between two well-defined conductance states. Conductance and hysteresis measurements allow us to identify the two states providing the basis for a comprehensive study of the in situ switching process. Based on the analysis with the transport model assuming transport through a single molecular level, we confirm that a reliable contact of the molecules to the gold contacts is formed and extract the energy of the molecular levels and the coupling constants between molecule and electrodes.

Keywords: Molecular Electronics; MCBJ; Switchable Molecular Wire

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    DPG-Frühjahrstagung der Sektion Kondensierte Materie, 30.03.-04.04.2014, Dresden, Deutschland

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Publ.-Id: 20289