Enhanced spin accumulation at room temperature in graphene spin valves with amorphous carbon interfacial layers

I. Neumann; M. V. Costache; G. Bridoux; J. F. Sierra; S. O. Valenzuela

doi:10.1063/1.4820586

Enhanced spin accumulation at room temperature in graphene spin valves with amorphous carbon interfacial layers

I. Neumann, M. V. Costache, G. Bridoux, J. F. Sierra, S. O. Valenzuela

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We demonstrate a large enhancement of the spin accumulation in monolayer graphene following electron-beam induced deposition of an amorphous carbon layer at the ferromagnet-graphene interface. The enhancement is 104-fold when graphene is deposited onto poly(methyl metacrylate) (PMMA) and exposed with sufficient electron-beam dose to cross-link the PMMA, and 103-fold when graphene is deposited directly onto SiO2 and exposed with identical dose. We attribute the difference to a more efficient carbon deposition in the former case due to an increase in the presence of compounds containing carbon, which are released by the PMMA. The amorphous carbon interface can sustain very large current densities without degrading, which leads to very large spin accumulations exceeding 500 μeV at room temperature. © 2013 AIP Publishing LLC.

Idioma original	Anglès
Número d’article	112401
Revista	Applied Physics Letters
Volum	103
Número	11
DOIs	https://doi.org/10.1063/1.4820586
Estat de la publicació	Publicada - 9 de set. 2013

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title = "Enhanced spin accumulation at room temperature in graphene spin valves with amorphous carbon interfacial layers",

abstract = "We demonstrate a large enhancement of the spin accumulation in monolayer graphene following electron-beam induced deposition of an amorphous carbon layer at the ferromagnet-graphene interface. The enhancement is 104-fold when graphene is deposited onto poly(methyl metacrylate) (PMMA) and exposed with sufficient electron-beam dose to cross-link the PMMA, and 103-fold when graphene is deposited directly onto SiO2 and exposed with identical dose. We attribute the difference to a more efficient carbon deposition in the former case due to an increase in the presence of compounds containing carbon, which are released by the PMMA. The amorphous carbon interface can sustain very large current densities without degrading, which leads to very large spin accumulations exceeding 500 μeV at room temperature. {\textcopyright} 2013 AIP Publishing LLC.",

author = "I. Neumann and Costache, \{M. V.\} and G. Bridoux and Sierra, \{J. F.\} and Valenzuela, \{S. O.\}",

year = "2013",

month = sep,

day = "9",

doi = "10.1063/1.4820586",

language = "English",

volume = "103",

journal = "Applied Physics Letters",

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publisher = "American Institute of Physics",

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TY - JOUR

T1 - Enhanced spin accumulation at room temperature in graphene spin valves with amorphous carbon interfacial layers

AU - Neumann, I.

AU - Costache, M. V.

AU - Bridoux, G.

AU - Sierra, J. F.

AU - Valenzuela, S. O.

PY - 2013/9/9

Y1 - 2013/9/9

N2 - We demonstrate a large enhancement of the spin accumulation in monolayer graphene following electron-beam induced deposition of an amorphous carbon layer at the ferromagnet-graphene interface. The enhancement is 104-fold when graphene is deposited onto poly(methyl metacrylate) (PMMA) and exposed with sufficient electron-beam dose to cross-link the PMMA, and 103-fold when graphene is deposited directly onto SiO2 and exposed with identical dose. We attribute the difference to a more efficient carbon deposition in the former case due to an increase in the presence of compounds containing carbon, which are released by the PMMA. The amorphous carbon interface can sustain very large current densities without degrading, which leads to very large spin accumulations exceeding 500 μeV at room temperature. © 2013 AIP Publishing LLC.

AB - We demonstrate a large enhancement of the spin accumulation in monolayer graphene following electron-beam induced deposition of an amorphous carbon layer at the ferromagnet-graphene interface. The enhancement is 104-fold when graphene is deposited onto poly(methyl metacrylate) (PMMA) and exposed with sufficient electron-beam dose to cross-link the PMMA, and 103-fold when graphene is deposited directly onto SiO2 and exposed with identical dose. We attribute the difference to a more efficient carbon deposition in the former case due to an increase in the presence of compounds containing carbon, which are released by the PMMA. The amorphous carbon interface can sustain very large current densities without degrading, which leads to very large spin accumulations exceeding 500 μeV at room temperature. © 2013 AIP Publishing LLC.

UR - https://www.scopus.com/pages/publications/84884243581

U2 - 10.1063/1.4820586

DO - 10.1063/1.4820586

M3 - Article

SN - 0003-6951

VL - 103

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 11

M1 - 112401

ER -

Enhanced spin accumulation at room temperature in graphene spin valves with amorphous carbon interfacial layers

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