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Přednášející: Hector Vazquez (Research Fellow, Department of Chemistry, University of Warwick, UK)
Místo: Fyzikální ústav AV ČR, v. v. i., Cukrovarnická 10, Praha 6/ knihovna, budova A, 1.p.
Jazyk: anglicky
Pořadatelé:
Oddělení tenkých vrstev a nanostruktur
The flow of current through metal-molecule-metal circuits depends, often delicately, on the details of the structural and electronic properties of the molecule and of the junction as a whole. In this talk I will present recent DFT-based theoretical results on single molecule transport focusing on achieving near ideal contact resistance through metal-molecule linker chemistry and on investigating the conductance superposition law at the single molecule scale. This work was carried out in close collaboration with STM break-junction experiments.
Trimethyltin (SnMe3)-terminated molecules result in direct Au-C covalent bonds between the molecular Carbon atoms and the Au electrodes as the SnMe3 groups are cleaved in situ at the junction. The resulting measured conductance for alkanes is ~100 times higher than with other linkers [1], and near-resonant transport is achieved for conjugated molecular junctions [2]. Theory can explain how Au-C links exhibit near ideal contact resistance.
I will also discuss the conductance superposition law in molecules that have two backbones bonded in parallel to the electrodes. The calculated and measured conductance of these double backbone molecules [3] can be more than twice (eg. ~3×) that of the single-backbone counterparts due to constructive quantum interference.
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