Evidence for superconductivity in Li-decorated monolayer graphene

B. M. Ludbrook; G. Levy; P. Nigge; M. Zonno; M. Schneider; D. J. Dvorak; C. N. Veenstra; S. Zhdanovich; D. Wong; P. Dosanjh; C. Straßer; A. Stöhr; S. Forti; C. R. Ast; U. Starke; A. Damascelli; J. C. Séamus Davis

doi:10.1073/pnas.1510435112

Evidence for superconductivity in Li-decorated monolayer graphene

B. M. Ludbrook
, G. Levy
, P. Nigge
, M. Zonno
, M. Schneider
, D. J. Dvorak
, C. N. Veenstra
, S. Zhdanovich
, D. Wong
, P. Dosanjh
, C. Straßer
, A. Stöhr
, S. Forti
, C. R. Ast
, U. Starke
, A. Damascelli
, J. C. Séamus Davis

Research output: Contribution to journal › Article › peer-review

Abstract

Monolayer graphene exhibits many spectacular electronic properties, with superconductivity being arguably the most notable exception. It was theoretically proposed that superconductivity might be induced by enhancing the electron-phonon coupling through the decoration of graphene with an alkali adatom superlattice [Profeta G, Calandra M, Mauri F (2012) Nat Phys 8(2): 131-134]. Although experiments have shown an adatom-induced enhancement of the electron-phonon coupling, superconductivity has never been observed. Using angle-resolved photoemission spectroscopy (ARPES), we show that lithium deposited on graphene at low temperature strongly modifies the phonon density of states, leading to an enhancement of the electron-phonon coupling of up to λ ≃ 0.58. On part of the graphene-derived π^∗-band Fermi surface, we then observe the opening of a Δ ≃ 0.9-meV temperature-dependent pairing gap. This result suggests for the first time, to our knowledge, that Li-decorated monolayer graphene is indeed superconducting, with T_c ≃ 5.9 K.

Original language	English
Pages (from-to)	11795-11799
Number of pages	5
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	112
Issue number	38
DOIs	https://doi.org/10.1073/pnas.1510435112
Publication status	Published - 22 Sep 2015
Externally published	Yes

Keywords

ARPES
Graphene
Superconductivity

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10.1073/pnas.1510435112

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Ludbrook, B. M., Levy, G., Nigge, P., Zonno, M., Schneider, M., Dvorak, D. J., Veenstra, C. N., Zhdanovich, S., Wong, D., Dosanjh, P., Straßer, C., Stöhr, A., Forti, S., Ast, C. R., Starke, U., Damascelli, A., & Séamus Davis, J. C. (2015). Evidence for superconductivity in Li-decorated monolayer graphene. Proceedings of the National Academy of Sciences of the United States of America, 112(38), 11795-11799. https://doi.org/10.1073/pnas.1510435112

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title = "Evidence for superconductivity in Li-decorated monolayer graphene",

abstract = "Monolayer graphene exhibits many spectacular electronic properties, with superconductivity being arguably the most notable exception. It was theoretically proposed that superconductivity might be induced by enhancing the electron-phonon coupling through the decoration of graphene with an alkali adatom superlattice [Profeta G, Calandra M, Mauri F (2012) Nat Phys 8(2): 131-134]. Although experiments have shown an adatom-induced enhancement of the electron-phonon coupling, superconductivity has never been observed. Using angle-resolved photoemission spectroscopy (ARPES), we show that lithium deposited on graphene at low temperature strongly modifies the phonon density of states, leading to an enhancement of the electron-phonon coupling of up to λ ≃ 0.58. On part of the graphene-derived π∗-band Fermi surface, we then observe the opening of a Δ ≃ 0.9-meV temperature-dependent pairing gap. This result suggests for the first time, to our knowledge, that Li-decorated monolayer graphene is indeed superconducting, with Tc ≃ 5.9 K.",

keywords = "ARPES, Graphene, Superconductivity",

author = "Ludbrook, \{B. M.\} and G. Levy and P. Nigge and M. Zonno and M. Schneider and Dvorak, \{D. J.\} and Veenstra, \{C. N.\} and S. Zhdanovich and D. Wong and P. Dosanjh and C. Stra{\ss}er and A. St{\"o}hr and S. Forti and Ast, \{C. R.\} and U. Starke and A. Damascelli and \{S{\'e}amus Davis\}, \{J. C.\}",

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doi = "10.1073/pnas.1510435112",

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Ludbrook, BM, Levy, G, Nigge, P, Zonno, M, Schneider, M, Dvorak, DJ, Veenstra, CN, Zhdanovich, S, Wong, D, Dosanjh, P, Straßer, C, Stöhr, A, Forti, S, Ast, CR, Starke, U, Damascelli, A & Séamus Davis, JC 2015, 'Evidence for superconductivity in Li-decorated monolayer graphene', Proceedings of the National Academy of Sciences of the United States of America, vol. 112, no. 38, pp. 11795-11799. https://doi.org/10.1073/pnas.1510435112

TY - JOUR

T1 - Evidence for superconductivity in Li-decorated monolayer graphene

AU - Ludbrook, B. M.

AU - Levy, G.

AU - Nigge, P.

AU - Zonno, M.

AU - Schneider, M.

AU - Dvorak, D. J.

AU - Veenstra, C. N.

AU - Zhdanovich, S.

AU - Wong, D.

AU - Dosanjh, P.

AU - Straßer, C.

AU - Stöhr, A.

AU - Forti, S.

AU - Ast, C. R.

AU - Starke, U.

AU - Damascelli, A.

AU - Séamus Davis, J. C.

PY - 2015/9/22

Y1 - 2015/9/22

N2 - Monolayer graphene exhibits many spectacular electronic properties, with superconductivity being arguably the most notable exception. It was theoretically proposed that superconductivity might be induced by enhancing the electron-phonon coupling through the decoration of graphene with an alkali adatom superlattice [Profeta G, Calandra M, Mauri F (2012) Nat Phys 8(2): 131-134]. Although experiments have shown an adatom-induced enhancement of the electron-phonon coupling, superconductivity has never been observed. Using angle-resolved photoemission spectroscopy (ARPES), we show that lithium deposited on graphene at low temperature strongly modifies the phonon density of states, leading to an enhancement of the electron-phonon coupling of up to λ ≃ 0.58. On part of the graphene-derived π∗-band Fermi surface, we then observe the opening of a Δ ≃ 0.9-meV temperature-dependent pairing gap. This result suggests for the first time, to our knowledge, that Li-decorated monolayer graphene is indeed superconducting, with Tc ≃ 5.9 K.

AB - Monolayer graphene exhibits many spectacular electronic properties, with superconductivity being arguably the most notable exception. It was theoretically proposed that superconductivity might be induced by enhancing the electron-phonon coupling through the decoration of graphene with an alkali adatom superlattice [Profeta G, Calandra M, Mauri F (2012) Nat Phys 8(2): 131-134]. Although experiments have shown an adatom-induced enhancement of the electron-phonon coupling, superconductivity has never been observed. Using angle-resolved photoemission spectroscopy (ARPES), we show that lithium deposited on graphene at low temperature strongly modifies the phonon density of states, leading to an enhancement of the electron-phonon coupling of up to λ ≃ 0.58. On part of the graphene-derived π∗-band Fermi surface, we then observe the opening of a Δ ≃ 0.9-meV temperature-dependent pairing gap. This result suggests for the first time, to our knowledge, that Li-decorated monolayer graphene is indeed superconducting, with Tc ≃ 5.9 K.

KW - ARPES

KW - Graphene

KW - Superconductivity

UR - https://www.scopus.com/pages/publications/84942867573

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DO - 10.1073/pnas.1510435112

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SN - 0027-8424

VL - 112

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EP - 11799

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 38

ER -

Evidence for superconductivity in Li-decorated monolayer graphene

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Keywords

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