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References
Aizawa T, Souda R, Ishizawa Y, Hirano H, Yamada T, Tanaka K-I, Oshima C (1990) Phonon
dispersion in monolayer graphite formed on Ni(111) and Ni(001). Surf Sci 237(1-3):194-202
Allard A, Wirtz L (2010) Grapheneon metallic substrates: suppression of the Kohn anomalies in the
phonon dispersion. Nano Lett 10(11):4335-4340
Apalkov V, Wang XF, Chakraborty T (2007) Collective excitations of Dirac electrons in graphene.
Int J Mod Phys B 21(8-9):1165-1179
Balzer F, Rubahn HG (2000) Interference effects in the optical second harmonic generation from
ultrathin alkali films. Opt Commun 185(4-6):493-499
Benedek G, Onida G (1993) Bulk and surface dynamics of graphite with the bond charge model.
Phys Rev B 47(24):16471-16476
Benedek G, Brusdeylins G, Senz V, Skofronick JG, Toennies JP, Traeger F, Vollmer R (2001) Helium
atom scattering study of the surface structure and dynamics of in situ cleaved MgO(001) single
crystals. Phys Rev B 64(12):125421
Borca B, Calleja F, Hinarejos JJ, Vázquez de Parga AL, Miranda R (2009) Reactivity of periodically
rippled graphene grown on Ru(0001). J Phys-Condens Mat 21(13):134002
Borca B, Barja S, Garnica M, Minniti M, Politano A, Rodriguez-García JM, Hinarejos JJ, Farías D,
Vázquez de Parga AL, Miranda R (2010) Electronic and geometric corrugation of periodically
rippled, self-nanostructured graphene epitaxially grown on Ru(0001). New J Phys 12(9):093018
Bostwick A, Speck F, Seyller T, Horn K, Polini M, Asgari R, MacDonald AH, Rotenberg E (2010)
Observation of plasmarons in quasi-freestanding doped graphene. Science 328(5981):999-1002
Büchner U (1977) Wave-vector dependence of the electron energy losses of boron nitride and
graphite. Phys Status Solidi B 81(1):227-234
Cao Y, Liu S, Shen Q, Yan K, Li P, Xu J, Yu D, Steigerwald ML, Nuckolls C, Liu Z, Guo X
(2009) High-performance photoresponsive organic nanotransistors with single-layer graphenes
as two-dimensional electrodes. Adv Funct Mater 19(17):2743-2748
Chen Y, Hermanson JC, Lapeyre GJ (1989) Coupled plasmon and phonon in the accumulation layer
of InAs(110) cleaved surfaces. Phys Rev B 39(17):12682
Chis V, Benedek G (2011) Phonon-induced surface charge density oscillations in quantum wells: a
first-principles study of the (2
×
2)-K overlayer on Be(0001). J Phys Chem A 115(25):7242-
7248
Diaconescu B, Pohl K, Vattuone L, Savio L, Hofmann P, Silkin VM, Pitarke JM, Chulkov EV,
Echenique PM, Farías D, Rocca M (2007) Low-energy acoustic plasmons at metal surfaces.
Nature 448:57-59
Diebold U, Preisinger A, Schattschneider P, Varga P (1988) Angle resolved electron energy loss
spectroscopy on graphite. Surf Sci 197(3):430-443
Dion M, Rydberg H, Schröder E, Langreth DC, Lundqvist BI (2004) Van der Waals density
functional for general geometries. Phys Rev Lett 92(24):246401
Efetov DK, Kim P (2010) Controlling electron-phonon interactions in graphene at ultrahigh carrier
densities. Phys Rev Lett 105(25):256805
Farías D, Shikin AM, Rieder KH, Dedkov YS (1999) Synthesis of a weakly bonded graphite
monolayer on Ni(111) by intercalation of silver. J Phys-Condens Mat 11(43):8453-8458
Farías D, Rieder KH, Shikin AM, Adamchuk VK, Tanaka T, Oshima C (2000) Modification of the
surface phonon dispersion of a graphite monolayer adsorbed on Ni(111) caused by intercalation
of Yb, Cu and Ag. Surf Sci 454(1-2):437-441
Fasolino A, Los JH, Katsnelson MI (2007) Intrinsic ripples in graphene. Nat Mater 6(11):858-861
Gao M, Pan Y, Zhang C, Hu H, Yang R, Lu H, Cai J, Du S, Liu F, Gao HJ (2010) Tunable interfacial
properties of epitaxial graphene on metal substrates. Appl Phys Lett 96(5):053109
Gao M, Pan Y, Huang L, Hu H, Zhang LZ, Guo HM, Du SX, Gao HJ (2011) Epitaxial growth and
structural property of graphene on Pt(111). Appl Phys Lett 98(3):033101
Generalov
AV,
Dedkov
YS
(2012)
EELS
study
of
the
epitaxial
graphene/Ni(111)
and
graphene/Au/Ni(111) systems. Carbon 50(1):183-191
