Charge Transport through Molecular Rods with Reduced pi-Conjugation

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Details zur Publikation

Autorinnen und Autoren: Lörtscher M, Elbing M, Tschudy M, von Hänisch C, Weber HB, Mayor M, Riel H
Zeitschrift: Chemphyschem
Verlag: Wiley-Blackwell / Wiley-VCH Verlag
Jahr der Veröffentlichung: 2008
Band: 9
Heftnummer: 15
Seitenbereich: 2252-2258
ISSN: 1439-4235


A series of oligophenylene rods of increasing lengths is synthesized to investigate the charge-transport mechanisms. Methyl groups are attached to the phenyl rings to weaken the electronic overlap of the pi-subsystems along the molecular backbones. Out-of-plane rotation of the phenyl rings is confirmed in the solid state by means of X-ray analysis and in solution by using UV/Vis spectroscopy. The influence of the reduced pi-conjugation on the resonant charge transport is studied at the single-molecule level by using the mechanically controllable break-junction technique. Experiments are performed under ultra-high-vacuum conditions at low temperature (50 K). A linear increase of the conductance gap with increasing number of phenyl rings (from 260 meV for one ring to 580 meV for four rings) is revealed. In addition, the absolute conductance of the first resonant peaks does not depend on the length of the molecular wire. Resonant transport through the first molecular orbital is found to be dominated by charge-carrier injection into the molecule, rather than by the intrinsic resistance of the molecular wire length.

FAU-Autorinnen und Autoren / FAU-Herausgeberinnen und Herausgeber

Weber, Heiko B. Prof. Dr.
Lehrstuhl für Angewandte Physik

Einrichtungen weiterer Autorinnen und Autoren

IBM Zurich Research Laboratory
Karlsruhe Institute of Technology (KIT)
Universität Basel


Lörtscher, M., Elbing, M., Tschudy, M., von Hänisch, C., Weber, H.B., Mayor, M., & Riel, H. (2008). Charge Transport through Molecular Rods with Reduced pi-Conjugation. Chemphyschem, 9(15), 2252-2258.

Lörtscher, M., et al. "Charge Transport through Molecular Rods with Reduced pi-Conjugation." Chemphyschem 9.15 (2008): 2252-2258.


Zuletzt aktualisiert 2018-08-08 um 18:55