Issue 15, 2014

Magnetic moments in graphene with vacancies

Abstract

Vacancies can induce local magnetic moments in graphene, paving the way to make magnetic functional graphene. Due to the interaction between magnetic moments and conduction carriers, the magnetotransport properties of graphene can be modulated. Here, the effects of vacancy induced magnetic moments on the electrical properties of graphene are studied via magnetotransport measurements and spin-polarized density functional theory calculations. We show by quantum Hall measurements that a sharp resonant Vπ state is introduced in the midgap region of graphene with vacancies, resulting in the local magnetic moment. The coupling between the localized Vπ state and the itinerant carrier is tuned by varying the carrier concentration, temperature, magnetic field, and vacancy density, which results in a transition between hopping transport and the Kondo effect and a transition between giant negative magnetoresistance (MR) and positive MR. This modulated magnetotransport is valuable for graphene based spintronic devices.

Graphical abstract: Magnetic moments in graphene with vacancies

Article information

Article type
Paper
Submitted
30 Dec 2013
Accepted
18 May 2014
First published
22 May 2014

Nanoscale, 2014,6, 8814-8821

Magnetic moments in graphene with vacancies

J. Chen, H. Wu, D. Yu and Z. Liao, Nanoscale, 2014, 6, 8814 DOI: 10.1039/C3NR06892G

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