Planar aromatic anchors control the electrical conductance of gold|molecule|graphene junctions

O'Driscoll, Luke J. and Jay, Michael and Robinson, Benjamin and Sadeghi, Hatef and Wang, Xintai and Penhale-Jones, Becky and Bryce, Martin R. and Lambert, Colin (2023) Planar aromatic anchors control the electrical conductance of gold|molecule|graphene junctions. Nanoscale Advances, 5 (8). pp. 2299-2306. ISSN 2516-0230

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The synthesis of a family of alkanethiol molecules with planar aromatic head groups, designed to anchor molecules effectively to graphene electrodes, is reported. Characterisation of self-assembled monolayers of these molecules on a gold surface via conductive atomic force microscopy shows that when an aromatic head group is present, the conductance Ggraphene obtained using a graphene coated probe is higher than the conductance GPt obtained using a platinum (Pt) probe. For Pt probe and graphene probe junctions, the tunnelling decay constant of benzyl ether derivatives with an alkanethiol molecular backbone is determined as β = 5.6 nm−1 and 3.5 nm−1, respectively. The conductance ratio Ggraphene/GPt increases as the number of rings present in the aromatic head unit, n, increases. However, as the number of rings increases, the conductance path length increases because the planar head groups lie at an angle to the plane of the electrodes. This means that overall conductance decreases as n increases. Density functional theory-based charge transport calculations support these experimental findings. This study confirms that planar aromatic head groups can function as effective anchoring units for graphene electrodes in large area molecular junctions. However, the results also indicate that the size and geometry of these head groups must be considered in order to produce effective molecular designs.

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Nanoscale Advances
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27 Mar 2023 14:15
Last Modified:
18 Sep 2023 02:13