TY - JOUR
T1 - Evidence for spin-flip scattering and local moments in dilute fluorinated graphene
AU - Hong, X.
AU - Zou, K.
AU - Wang, B.
AU - Cheng, S. H.
AU - Zhu, J.
PY - 2012/6/1
Y1 - 2012/6/1
N2 - The issue of whether local magnetic moments can be formed by introducing adatoms into graphene is of intense research interest because it opens the window to fundamental studies of magnetism in graphene, as well as of its potential spintronics applications. To investigate this question, we measure, by exploiting the well-established weak localization physics, the phase coherence length L Φ in dilute fluorinated graphene. L Φ reveals an unusual saturation below ∼10K, which cannot be explained by nonmagnetic origins. The corresponding phase-breaking rate increases with decreasing carrier density and increases with increasing fluorine density. These results provide strong evidence for spin-flip scattering and point to the existence of an adatom-induced local magnetic moment in fluorinated graphene. Our results will stimulate further investigations of magnetism and spintronics applications in adatom-engineered graphene.
AB - The issue of whether local magnetic moments can be formed by introducing adatoms into graphene is of intense research interest because it opens the window to fundamental studies of magnetism in graphene, as well as of its potential spintronics applications. To investigate this question, we measure, by exploiting the well-established weak localization physics, the phase coherence length L Φ in dilute fluorinated graphene. L Φ reveals an unusual saturation below ∼10K, which cannot be explained by nonmagnetic origins. The corresponding phase-breaking rate increases with decreasing carrier density and increases with increasing fluorine density. These results provide strong evidence for spin-flip scattering and point to the existence of an adatom-induced local magnetic moment in fluorinated graphene. Our results will stimulate further investigations of magnetism and spintronics applications in adatom-engineered graphene.
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U2 - 10.1103/PhysRevLett.108.226602
DO - 10.1103/PhysRevLett.108.226602
M3 - Article
C2 - 23003635
AN - SCOPUS:84861814899
SN - 0031-9007
VL - 108
JO - Physical review letters
JF - Physical review letters
IS - 22
M1 - 226602
ER -