Giant Current-Perpendicular-to-Plane Magnetoresistance in Multilayer Graphene as Grown on Nickel

Giant Current-Perpendicular-to-Plane Magnetoresistance in Multilayer Graphene as Grown on Nickel

Strong magnetoresistance effects are often observed in ferromagnet–nonmagnet multilayers, which are exploited in state-of-the-art magnetic field sensing and data storage technologies. In this work we report a novel current-perpendicular-to-plane magnetoresistance effect in multilayer graphene as gro...

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Veröffentlicht in:Nano letters 2014-05, Vol.14 (5), p.2233-2241
Hauptverfasser: Bodepudi, S. C, Singh, A. P, Pramanik, S
Format: Artikel
Sprache:eng
Schlagworte:
Chemical vapor deposition
Chemical vapor deposition (including plasma-enhanced cvd, mocvd, etc.)
Condensed matter: electronic structure, electrical, magnetic, and optical properties
Cross-disciplinary physics: materials science
rheology
Exact sciences and technology
Fullerenes and related materials
Fullerenes and related materials
diamonds, graphite
Graphene
Infrared and raman spectra and scattering
Interlayers
Magnetoresistance
Magnetoresistivity
Materials science
Methods of deposition of films and coatings
film growth and epitaxy
Multilayers
Nanostructure
Nickel
Optical properties and condensed-matter spectroscopy and other interactions of matter with particles and radiation
Physics
Specific materials
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Zusammenfassung:Strong magnetoresistance effects are often observed in ferromagnet–nonmagnet multilayers, which are exploited in state-of-the-art magnetic field sensing and data storage technologies. In this work we report a novel current-perpendicular-to-plane magnetoresistance effect in multilayer graphene as grown on a catalytic nickel surface by chemical vapor deposition. A negative magnetoresistance effect of ∼104% has been observed, which persists even at room temperature. This effect is correlated with the shape of the 2D peak as well as with the occurrence of D peak in the Raman spectrum of the as-grown multilayer graphene. The observed magnetoresistance is extremely high as compared to other known materials systems for similar temperature and field range and can be qualitatively explained within the framework of “interlayer magnetoresistance” (ILMR).
ISSN:1530-6984
1530-6992
DOI:10.1021/nl4030853