High-yield parallel fabrication of quantum-dot monolayer single-electron devices displaying Coulomb staircase, contacted by graphene

Joel M. Fruhman; Hippolyte P.A.G. Astier; Bruno Ehrler; Marcus L. Böhm; Lissa F. L. Eyre; Piran R. Kidambi; Ugo Sassi; Domenico De Fazio; Jonathan P. Griffiths; Alexander J. Robson; Benjamin J. Robinson; Stephan Hofmann; Andrea C. Ferrari; Christopher J. B. Ford

doi:10.1038/s41467-021-24233-2

Nature Communications (Jul 2021)

High-yield parallel fabrication of quantum-dot monolayer single-electron devices displaying Coulomb staircase, contacted by graphene

Joel M. Fruhman,
Hippolyte P.A.G. Astier,
Bruno Ehrler,
Marcus L. Böhm,
Lissa F. L. Eyre,
Piran R. Kidambi,
Ugo Sassi,
Domenico De Fazio,
Jonathan P. Griffiths,
Alexander J. Robson,
Benjamin J. Robinson,
Stephan Hofmann,
Andrea C. Ferrari,
Christopher J. B. Ford

Affiliations

Joel M. Fruhman: Cavendish Laboratory, University of Cambridge
Hippolyte P.A.G. Astier: Cavendish Laboratory, University of Cambridge
Bruno Ehrler: Cavendish Laboratory, University of Cambridge
Marcus L. Böhm: Cavendish Laboratory, University of Cambridge
Lissa F. L. Eyre: Cavendish Laboratory, University of Cambridge
Piran R. Kidambi: Department of Engineering, University of Cambridge
Ugo Sassi: Cambridge Graphene Centre
Domenico De Fazio: Cambridge Graphene Centre
Jonathan P. Griffiths: Cavendish Laboratory, University of Cambridge
Alexander J. Robson: Department of Physics, Lancaster University
Benjamin J. Robinson: Department of Physics, Lancaster University
Stephan Hofmann: Department of Engineering, University of Cambridge
Andrea C. Ferrari: Cambridge Graphene Centre
Christopher J. B. Ford: Cavendish Laboratory, University of Cambridge

DOI: https://doi.org/10.1038/s41467-021-24233-2
Journal volume & issue: Vol. 12, no. 1
pp. 1 – 10

Abstract

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The integration of nano-molecules into microelectronic circuitry is challenging. Here, the authors provide a scalable method for contacting a self-assembled monolayer of nanoparticles with a single layer of graphene that produces single-electron effects, in the form of a Coulomb staircase, with a yield of at least 70%.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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