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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Tunneling Probability Increases with Distance in Junctions Comprising Self-assembled Monolayers of Oligothiophenes

Zhang, Y., S. Soni, T. L. Krijger, P. Gordiichuk, X. Qiu, G. Ye, H. T. Jonkman, A. Herrmann, K. Zojer, E. Zojer, et al., "Tunneling Probability Increases with Distance in Junctions Comprising Self-assembled Monolayers of Oligothiophenes", Journal of the American Chemical Society, no. ja, pp. ASAP, 2018.

Quantum interference mediated vertical molecular tunneling transistors

Jia, C., M. Famili, M. Carlotti, Y. Liu, P. Wang, I. M. Grace, Z. Feng, Y. Wang, Z. Zhao, M. Ding, et al., "Quantum interference mediated vertical molecular tunneling transistors", Science Advances, vol. 4, no. 10: American Association for the Advancement of Science, 2018.

Element-Selective Molecular Charge Transport Characteristics of Binuclear Copper(II)-Lanthanide(III) Complexes

Schmitz, S., A. Kovalchuk, A. Martín-Rodríguez, J. van Leusen, N. V. Izarova, S. D. M. Bourone, Y. Ai, E. Ruiz, R. C. Chiechi, P. Kögerler, et al., "Element-Selective Molecular Charge Transport Characteristics of Binuclear Copper(II)-Lanthanide(III) Complexes", Inorganic Chemistry, vol. 57, issue 15, pp. 9274 – 9285, 07/2018.

Device-Compatible Chiroptical Surfaces through Self-Assembly of Enantiopure Allenes

Ozcelik, A.., R.. Pereira-Cameselle, A.. von Weber, M.. Paszkiewicz, M.. Carlotti, T.. Paintner, L.. Zhang, T.. Lin, Y.-Q.. Zhang, J.. V. Barth, et al., "Device-Compatible Chiroptical Surfaces through Self-Assembly of Enantiopure Allenes", Langmuir, vol. 34, no. 15, pp. 4548-4553, 2018.

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