Molecular Electronics

Why SAMs?

The term "molecular electronics" is normally associated with single-molecule measurements (spectroscopy); however we use self-assembled monolayers to construct molecular-electronic devices. Click "read more" to find out why.

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Mechanically and Electrically Robust Self-Assembled Monolayers for Large-Area Tunneling Junctions

Zhang, Y., X. Qiu, P. Gordiichuk, S. Soni, T. L. Krijger, A. Herrmann, and R. C. Chiechi, "Mechanically and Electrically Robust Self-Assembled Monolayers for Large-Area Tunneling Junctions", The Journal of Physical Chemistry C, pp. ASAP, 2017.

Orientation and Incorporation of Photosystem I in Bioelectronics Devices Enabled by Phage Display

Gordiichuk, P., D. Pesce, O. E. Castañ Ocampo, A. Marcozzi, G-J. A. H. Wetzelaer, A. Paul, M. Loznik, E. Gloukhikh, S. Richter, R. C. Chiechi, et al., "Orientation and Incorporation of Photosystem I in Bioelectronics Devices Enabled by Phage Display", Advanced Science, pp. 1600393–n/a, 01/2017.

Rectification of Current Responds to Incorporation of Fullerenes into Mixed-Monolayers of Alkanethiolates in Tunneling Junctions

Qiu, L., Y. Zhang, T. Leonardus Krijger, X. Qiu, P. van 't Hof, J. Cornelis Hummelen, and R. C. Chiechi, "Rectification of Current Responds to Incorporation of Fullerenes into Mixed-Monolayers of Alkanethiolates in Tunneling Junctions", Chem. Sci., vol. 8, issue 3: The Royal Society of Chemistry, pp. 2365-2372, 01/2017.

Mixed Monolayers of Spiropyrans Maximize Tunneling Conductance Switching by Photoisomerization at the Molecule-Electrode Interface in EGaIn Junctions

Kumar, S., J. T. van Herpt, R. Y. N. Gengler, B. L. Feringa, P. Rudolf, and R. C. Chiechi, "Mixed Monolayers of Spiropyrans Maximize Tunneling Conductance Switching by Photoisomerization at the Molecule-Electrode Interface in EGaIn Junctions", Journal of the American Chemical Society, vol. 138, issue 38, no. ja, pp. 12519-12526, 09/2016.

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