1. A comprehensive study of extended tetrathiafulvalene cruciform molecules for molecular electronics: Synthesis and electrical transport measurements

    Parker, CR., Leary, M., Frisenda, R., Wei, Z., Jennum, KS., Glibstrup, E., Abrahamsen, PB., Santella, M., Christensen, MA., Della Pia, EA., Gonzales, MT., Jiang, X., Morsing, TJ., Rubio-Bollinger, G., Laursen, BW., Norgaard, K., van der Zant, HSJ., Agrait, N. & Nielsen, MB., 2014, In : Journal of the American Chemical Society. 136, 47, p. 16497-16507 11 p.

    Research output: Contribution to journalArticleScientificpeer-review

  2. A few electron-hole semiconducting carbon nanotube quantum dot

    Jarillo-Herrero, PD., Sapmaz, S., Dekker, C., Kouwenhoven, LP. & van der Zant, HSJ., 2004, ELECTRONIC PROPERTIES OF SYNTHETIC NANOSTRUCTURES. Kuzmany, H., Fink, J., Mehring, M. & Roth, S. (eds.). MELVILLE: AIP, p. 583-586 4 p. (AIP Conference Proceedings; vol. 723).

    Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

  3. A few electron-hole semiconducting carbon nanotube quatum dot

    Sapmaz, S., Dekker, C., Kouwenhoven, LP., van der Zant, HSJ. & Jarillo-Herrero, PD., 2004, AIP Conference proceedings 2004. Okabayashi, H., Ho, PS. & Shingubara, S. (eds.). Kirchberg: AIP, p. 583-586 4 p.

    Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

  4. A gate-tunable single-molecule diode

    Perrin, M., Galán García, E., Eelkema, R., Thijssen, J., Grozema, F. & van der Zant, H., 6 Apr 2016, In : Nanoscale. 8, 5 p.

    Research output: Contribution to journalArticleScientificpeer-review

  5. A highly conductive fibre network enables centimetre-scale electron transport in multicellular cable bacteria

    Meysman, F. J. R., Cornelissen, R., Trashin, S., Bonné, R., van der Veen, J., Blom, C. J., Beaumont, H. J. E., van der Zant, H. S. J., Boschker, H. T. S. & More Authors, 2019, In : Nature Communications. 10, 1, 8 p., 4120.

    Research output: Contribution to journalArticleScientificpeer-review

  6. A miniaturized low power Pirani pressure sensor based on suspended graphene

    Romijn, J., Vollebregt, S., Dolleman, R. J., Singh, M., van der Zant, H. S. J., Steeneken, P. & Sarro, P., 2018, Proceedings of the 13th Annual IEEE International Conference on Nano/Micro Engineered and Molecular Systems. Piscataway, NJ: IEEE, p. 11-14 4 p.

    Research output: Chapter in Book/Report/Conference proceedingConference contributionScientificpeer-review

  7. A nano-electromechanical single-atom switch

    Martin, CA., Smit, RHM., van der Zant, HSJ. & van Ruitenbeek, JM., 2009, In : Nano Letters: a journal dedicated to nanoscience and nanotechnology. 9, 8, p. 2940-2945 6 p.

    Research output: Contribution to journalArticleScientificpeer-review

  8. A new class of extended tetrathiafulvalene cruciform molecules for molecular electronics with dithiafulvene-4,5-dithiolate anchoring groups

    Parker, CR., Wei, Z., Arroyo, CR., Jennum, K., Li, T., Santanella, M., Bovet, N., van der Zant, HSJ., Vanin, M., Solomon, GC., Laursen, BW., Norgaard, K. & Brondsted Nielsen, M., 2013, In : Advanced Materials. 25, 3, p. 405-409 5 p.

    Research output: Contribution to journalArticleScientificpeer-review

  9. A noval phase-locked state in discrete Josephson oscillators

    Duwel, AE., Orlando, TP., Watanabe, S. & van der Zant, HSJ., 1997, In : IEEE Transactions on Applied Superconductivity. 7, p. 2897-2900 4 p.

    Research output: Contribution to journalArticleScientificpeer-review

  10. A reference-free clustering method for the analysis of molecular break-junction measurements

    Cabosart, D., El Abbassi, M., Stefani, D., Frisenda, R., Calame, M., Van der Zant, H. S. J. & Perrin, M. L., 2019, In : Applied Physics Letters. 114, 14, 6 p., 143102.

    Research output: Contribution to journalArticleScientificpeer-review

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