Controlling the rectification properties of molecular junctions through molecule–electrode coupling

Koepf M, Koenigsmann C, Ding W, Batra A, Negre CFA, Venkataraman L, Brudvig GW, Batista VS, Schmuttenmaer CA, Crabtree RH. 2016. Controlling the rectification properties of molecular junctions through molecule–electrode coupling. Nanoscale. 8(36), 16357–16362.

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Author
Koepf, Matthieu; Koenigsmann, Christopher; Ding, Wendu; Batra, Arunbah; Negre, Christian F. A.; Venkataraman, LathaISTA ; Brudvig, Gary W.; Batista, Victor S.; Schmuttenmaer, Charles A.; Crabtree, Robert H.
Abstract
The development of molecular components functioning as switches, rectifiers or amplifiers is a great challenge in molecular electronics. A desirable property of such components is functional robustness, meaning that the intrinsic functionality of components must be preserved regardless of the strategy used to integrate them into the final assemblies. Here, this issue is investigated for molecular diodes based on N-phenylbenzamide (NPBA) backbones. The transport properties of molecular junctions derived from NPBA are characterized while varying the nature of the functional groups interfacing the backbone and the gold electrodes required for break-junction measurements. Combining experimental and theoretical methods, it is shown that at low bias (<0.85 V) transport is determined by the same frontier molecular orbital originating from the NPBA core, regardless of the anchoring group employed. The magnitude of rectification, however, is strongly dependent on the strength of the electronic coupling at the gold–NPBA interface and on the spatial distribution of the local density of states of the dominant transport channel of the molecular junction.
Publishing Year
Date Published
2016-08-16
Journal Title
Nanoscale
Publisher
Royal Society of Chemistry
Volume
8
Issue
36
Page
16357-16362
ISSN
eISSN
IST-REx-ID

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Koepf M, Koenigsmann C, Ding W, et al. Controlling the rectification properties of molecular junctions through molecule–electrode coupling. Nanoscale. 2016;8(36):16357-16362. doi:10.1039/c6nr04830g
Koepf, M., Koenigsmann, C., Ding, W., Batra, A., Negre, C. F. A., Venkataraman, L., … Crabtree, R. H. (2016). Controlling the rectification properties of molecular junctions through molecule–electrode coupling. Nanoscale. Royal Society of Chemistry. https://doi.org/10.1039/c6nr04830g
Koepf, Matthieu, Christopher Koenigsmann, Wendu Ding, Arunbah Batra, Christian F. A. Negre, Latha Venkataraman, Gary W. Brudvig, Victor S. Batista, Charles A. Schmuttenmaer, and Robert H. Crabtree. “Controlling the Rectification Properties of Molecular Junctions through Molecule–Electrode Coupling.” Nanoscale. Royal Society of Chemistry, 2016. https://doi.org/10.1039/c6nr04830g.
M. Koepf et al., “Controlling the rectification properties of molecular junctions through molecule–electrode coupling,” Nanoscale, vol. 8, no. 36. Royal Society of Chemistry, pp. 16357–16362, 2016.
Koepf M, Koenigsmann C, Ding W, Batra A, Negre CFA, Venkataraman L, Brudvig GW, Batista VS, Schmuttenmaer CA, Crabtree RH. 2016. Controlling the rectification properties of molecular junctions through molecule–electrode coupling. Nanoscale. 8(36), 16357–16362.
Koepf, Matthieu, et al. “Controlling the Rectification Properties of Molecular Junctions through Molecule–Electrode Coupling.” Nanoscale, vol. 8, no. 36, Royal Society of Chemistry, 2016, pp. 16357–62, doi:10.1039/c6nr04830g.
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