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A first-principles study on magnetic coupling between carbon adatoms on graphene

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Published 10 November 2010 Published under licence by IOP Publishing Ltd
, , Citation Iann C Gerber et al 2010 New J. Phys. 12 113021 DOI 10.1088/1367-2630/12/11/113021

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1 Department of Applied Physics, PO Box 1100, 00076 Aalto University, Finland

2 Université de Toulouse; INSA, UPS, CNRS; LPCNO, 135 Avenue de Rangueil, F-31077 Toulouse, France

3 Department of Physics, PO Box 43, 00014 University of Helsinki, Finland

4 Department of Physics, PO Box 692, Tampere University of Technology, FIN-33101 Tampere, Finland

5 Author to whom any correspondence should be addressed.

Dates

  1. Received 13 July 2010
  2. Published

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1367-2630/12/11/113021

Abstract

The weak ferromagnetism reported for graphite and related carbon nanostructures is frequently related to the magnetic coupling of point defects such as vacancies or hydrogen adatoms that interact with only one sublattice in the bipartite graphene lattice. In this paper, using density functional theory calculations we study the magnetic coupling between point defects, such as carbon adatoms, which form bonds with atoms located on both sublattices. We show that there is ferromagnetic coupling for small separations between the adatoms. Further, we demonstrate that it is energetically favorable for C adatoms to agglomerate. Our results indicate that the magnetism induced in graphite by irradiation can be explained as being due to the existence of adatom agglomerations and small graphene flakes formed from isolated adatoms rather than uniformly distributed point defects.

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10.1088/1367-2630/12/11/113021