Conformation dependence of molecular conductance: chemistry versus geometry

Abstract

Recent experiments by Venkatamaran et al. [Nature (London) 442, 904 (2006)] on a series of molecular wires with varying chemical compositions, revealed a linear dependence of the conductance on cos2θ, where θ is the angle of twist between neighboring aromatic rings. To investigate whether or not this dependence has a more general applicability, we present a first principles theoretical study of the transport properties of this family of molecules as a function of the chemical composition, conformation and the contact atom and geometry. If the Fermi energy EF lies within the HOMO-LUMO gap, then we reproduce the above experimental results. More generally, however, if EF is located within either the LUMO or HOMO states, the presence of resonances destroys the linear dependence of the conductance on cos2θ and gives rise to non-monotonic behaviour associated with the level structure of the different molecules. Our results suggest that the above experiments provide a novel method for extracting spectroscopic information about molecules contacted to electrodes.

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