AI Article Synopsis
- The study analyzed the electrical and mechanical properties of gold-molecule-gold junctions using tolane-type molecules with various anchoring groups such as pyridyl, thiol, amine, nitrile, and dihydrobenzothiophene.
- It was found that aromatic tolanes can exist as single molecules or weakly-conductive dimers due to π - π stacking, while the pyridyl group uniquely forms a stronger and more conductive bond with gold.
- Junctions formed by multiple molecules exhibited increased conductance and mechanical strength compared to those made of individual molecules.
Article Abstract
Electrical and mechanical properties of elongated gold-molecule-gold junctions formed by tolane-type molecules with different anchoring groups (pyridyl, thiol, amine, nitrile and dihydrobenzothiophene) were studied in current-sensing force spectroscopy experiments and density functional simulations. Correlations between forces, conductances and junction geometries demonstrate that aromatic tolanes bind between electrodes as single molecules or as weakly-conductive dimers held by mechanically-weak π - π stacking. In contrast with the other anchors that form only S-Au or N-Au bonds, the pyridyl ring also forms a highly-conductive cofacial link to the gold surface. Binding of multiple molecules creates junctions with higher conductances and mechanical strengths than the single-molecule ones.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4355744 | PMC |
| http://dx.doi.org/10.1038/srep09002 | DOI Listing |
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