Ryoji Mogi scite author profile

The symmetry of a molecule junction has been shown to play a significant role in determining the conductance of the molecule, but the details of how conductance changes with symmetry have heretofore been unknown. Herein, we investigate a naphthalenedithiol single-molecule system in which sulfur atoms from the molecule are anchored to two facing gold electrodes. In the studied system, the highest single-molecule conductance, for a molecule junction of 1,4-symmetry, is 110 times larger than the lowest single-molecule conductance, for a molecule junction of 2,7-symmetry. We demonstrate clearly that the measured dependence of molecule junction symmetry for single-molecule junctions agrees with theoretical predictions.

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Synthesis and properties of TSF-based spin-polarized donor

Komatsu¹,

Mogi²,

Matsushita³

et al. 2009

Polyhedron

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Ryoji Mogi

Dependence of Single-Molecule Conductance on Molecule Junction Symmetry

Synthesis and properties of TSF-based spin-polarized donor

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