A molecular shift register made using tunable charge patterns in one-dimensional molecular arrays on graphene View Full Text


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Article Info

DATE

2020-09-28

AUTHORS

Hsin-Zon Tsai, Johannes Lischner, Arash A. Omrani, Franklin Liou, Andrew S. Aikawa, Christoph Karrasch, Sebastian Wickenburg, Alexander Riss, Kyler C. Natividad, Jin Chen, Won-Woo Choi, Kenji Watanabe, Takashi Taniguchi, Chenliang Su, Steven G. Louie, Alex Zettl, Jiong Lu, Michael F. Crommie

ABSTRACT

The ability to tune the electronic properties of molecular arrays is an important step in the development of molecule-scale electronic devices. However, control over internal device charge distributions by tuning interactions between molecules has proved challenging. Here, we show that gate-tunable charge patterning can occur in one-dimensional molecular arrays on graphene field-effect transistors. One-dimensional molecular arrays are fabricated using an edge-templated self-assembly process that allows organic molecules (F4TCNQ) to be precisely positioned on graphene devices. The charge configurations of the molecular arrays can be reversibly switched between different collective charge states by tuning the graphene Fermi level via a back-gate electrode. Charge pinning at the ends of the molecular arrays allows the charge state of the entire array to be controlled by adding or removing an edge molecule and changing the total number of molecules in an array between odd and even integers. Charge patterns altered in this way propagate down the array in a cascade effect, allowing the array to function as a charge-based molecular shift register. An extended multi-site Anderson impurity model is used to quantitatively explain this behaviour. More... »

PAGES

598-603

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    http://scigraph.springernature.com/pub.10.1038/s41928-020-00479-4

    DOI

    http://dx.doi.org/10.1038/s41928-020-00479-4

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    https://app.dimensions.ai/details/publication/pub.1131237706


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