Issue 12, 2024
From the journal:

Nanoscale

Magnetotransport spectroscopy of electroburnt graphene nanojunctions

Zhengyang Jin,a   Caigan Xi,a   Jun Chen,*a   Yiping Ouyang,a   Feng Wang,a   Minhao Zhang ORCID logo *ab  and  Fengqi Song ORCID logo ab  

* Corresponding authors

a National Laboratory of Solid State Microstructures, Collaborative Innovation Center of Advanced Microstructures, and School of Physics, Nanjing University, Nanjing 210093, China
E-mail: dz1922001@smail.nju.edu.cn, zhangminhao@nju.edu.cn

b Atom Manufacturing Institute (AMI), Nanjing 211805, China

Abstract

We have reported the precise methodology for fabricating graphene quantum dots through electroburning and performed measurements on the Coulomb blockade and oscillation phenomena. The diameters of graphene quantum dots can be estimated to range from several to tens of nanometers, utilizing the disk capacitance model and the two-dimensional quantum well model. By subjecting the quantum dots to a vertical magnetic field, an obvious alteration in conductance can be detected at the point of resonance tunneling. This observed phenomenon can be attributed to the modification in the density of states of Landau levels within the graphene leads. Moreover, by manipulating the gate voltage, it is possible to regulate the Fermi level of the lead, resulting in distinct magnetoresistance of different electron states. The presence of this lead effect may potentially disrupt the magnetic response analysis of graphene-based single-molecule transistors, necessitating a comprehensive theoretical examination to mitigate such interference.

Graphical abstract: Magnetotransport spectroscopy of electroburnt graphene nanojunctions

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Article information

DOI
https://doi.org/10.1039/D3NR06176K
Article type
Paper
Submitted
03 Dec 2023
Accepted
26 Feb 2024
First published
11 Mar 2024
This article is Open Access
Creative Commons BY-NC license

Nanoscale, 2024,16, 6309-6314

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Magnetotransport spectroscopy of electroburnt graphene nanojunctions

Z. Jin, C. Xi, J. Chen, Y. Ouyang, F. Wang, M. Zhang and F. Song, Nanoscale, 2024, 16, 6309 DOI: 10.1039/D3NR06176K

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