Effect of molecular conformations on the electronic transport in oxygen-substituted alkanethiol molecular junctions
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2018Access:
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Wang, M., Wang, H., Zhang, G., Wang, Y., Sanvito, S. & Hou, S., Effect of molecular conformations on the electronic transport in oxygen-substituted alkanethiol molecular junctions, 2018, Journal of Chemical Physics, 148, 18Download Item:
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Abstract:
The relationship between the molecular structure and the electronic transport properties of molecular junctions based on thiol-terminated oligoethers, which are obtained by replacing every third methylene unit in the corresponding alkanethiols with an oxygen atom, is investigated by employing the non-equilibrium Green’s function formalism combined with density functional theory. Our calculations show that the low-bias conductance depends strongly on the conformation of the oligoethers in the junction. Specifically, in the cases of trans-extended conformation, the oxygen-dominated transmission peaks are very sharp and well below the Fermi energy, EF, thus hardly affect the transmission around EF; the Au–S interface hybrid states couple with σ-bonds in the molecular backbone forming the conduction channel at EF, resulting in a conductance decay against the molecular length close to that for alkanethiols. By contrast, for junctions with oligoethers in helical conformations, some π-type oxygen orbitals coupling with the Au–S interface hybrid states contribute to the transmission around EF. The molecule-electrode electronic coupling is also enhanced at the non-thiol side due to the specific spatial orientation introduced by the twist of the molecular backbone. This leads to a much smaller conductance decay constant. Our findings highlight the important role of the molecular conformation of oligoethers in their electronic transport properties and are also helpful for the design of molecular wires with heteroatom-substituted alkanethiols.
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Grant Number
Science Foundation Ireland
No. 12/RC/2278
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http://people.tcd.ie/sanvitosType of material:
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Journal of Chemical Physics;148;
18;
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Molecular structure, Electronic transport, Density functional theory, Electronic coupling, Organic compoundsDOI:
http://dx.doi.org/10.1063/1.5025190Licences: