# Conductance oscillations in graphene/nanoclusters hybrid material:   towards large area single electron devices

**Authors:** Florian Godel, Louis Donald Notemgnou Mouafo, Guillaume Froehlicher,, Bernard Doudin, Stephane Berciaud, Yves Henry, Jean-Francois Dayen, David, Halley

arXiv: 1703.00067 · 2017-03-02

## TL;DR

This paper reports the discovery of Coulomb oscillations in large-area graphene/nanocluster hybrid devices, demonstrating potential for scalable single-electron electronics with millions of metal islands.

## Contribution

It introduces a novel hybrid material with large-area nanocluster assemblies exhibiting single-electron transport, advancing scalable single-electron device technology.

## Key findings

- Observation of Coulomb oscillations in large-area devices
- Record junction size with single-electron behavior
- Potential for large-scale single-electron electronics

## Abstract

Large assemblies of self-organized aluminum nanoclusters embedded in an oxide layer are formed on graphene templates and used to build tunnel-junction devices. Unexpectedly, single-electron-transport behavior with well-defined Coulomb oscillations is observed for a record junction area containing millions of metal islands. Such hybrid materials offer new prospects for single-electron electronics.

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Source: https://tomesphere.com/paper/1703.00067