Low-energy electron reflectivity from graphene

R. M. Feenstra; N. Srivastava; Qin Gao; M. Widom; Bogdan Diaconescu; Taisuke Ohta; G. L. Kellogg; J. T. Robinson; I. V. Vlassiouk

doi:10.1103/PhysRevB.87.041406

Low-energy electron reflectivity from graphene

R. M. Feenstra
, N. Srivastava
, Qin Gao
, M. Widom
, Bogdan Diaconescu
, Taisuke Ohta
, G. L. Kellogg
, J. T. Robinson
, I. V. Vlassiouk

Functional Hybrid Nanomaterials

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

93 Scopus citations

Abstract

Low-energy reflectivity of electrons from single- and multilayer graphene is examined both theoretically and experimentally. A series of minima in the reflectivity over the energy range of 0-8 eV are found, with the number of minima depending on the number of graphene layers. Using first-principles computations, it is demonstrated that a freestanding n-layer graphene slab produces n-1 reflectivity minima. This same result is also found experimentally for graphene supported on SiO₂. For graphene bonded onto other substrates it is argued that a similar series of reflectivity minima is expected, although in certain cases an additional minimum occurs, at an energy that depends on the graphene-substrate separation and the effective potential in that space.

Original language	English
Article number	041406
Journal	Physical Review B - Condensed Matter and Materials Physics
Volume	87
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevB.87.041406
State	Published - Jan 24 2013

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10.1103/PhysRevB.87.041406

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title = "Low-energy electron reflectivity from graphene",

abstract = "Low-energy reflectivity of electrons from single- and multilayer graphene is examined both theoretically and experimentally. A series of minima in the reflectivity over the energy range of 0-8 eV are found, with the number of minima depending on the number of graphene layers. Using first-principles computations, it is demonstrated that a freestanding n-layer graphene slab produces n-1 reflectivity minima. This same result is also found experimentally for graphene supported on SiO2. For graphene bonded onto other substrates it is argued that a similar series of reflectivity minima is expected, although in certain cases an additional minimum occurs, at an energy that depends on the graphene-substrate separation and the effective potential in that space.",

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AU - Feenstra, R. M.

AU - Srivastava, N.

AU - Gao, Qin

AU - Widom, M.

AU - Diaconescu, Bogdan

AU - Ohta, Taisuke

AU - Kellogg, G. L.

AU - Robinson, J. T.

AU - Vlassiouk, I. V.

PY - 2013/1/24

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N2 - Low-energy reflectivity of electrons from single- and multilayer graphene is examined both theoretically and experimentally. A series of minima in the reflectivity over the energy range of 0-8 eV are found, with the number of minima depending on the number of graphene layers. Using first-principles computations, it is demonstrated that a freestanding n-layer graphene slab produces n-1 reflectivity minima. This same result is also found experimentally for graphene supported on SiO2. For graphene bonded onto other substrates it is argued that a similar series of reflectivity minima is expected, although in certain cases an additional minimum occurs, at an energy that depends on the graphene-substrate separation and the effective potential in that space.

AB - Low-energy reflectivity of electrons from single- and multilayer graphene is examined both theoretically and experimentally. A series of minima in the reflectivity over the energy range of 0-8 eV are found, with the number of minima depending on the number of graphene layers. Using first-principles computations, it is demonstrated that a freestanding n-layer graphene slab produces n-1 reflectivity minima. This same result is also found experimentally for graphene supported on SiO2. For graphene bonded onto other substrates it is argued that a similar series of reflectivity minima is expected, although in certain cases an additional minimum occurs, at an energy that depends on the graphene-substrate separation and the effective potential in that space.

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DO - 10.1103/PhysRevB.87.041406

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JO - Physical Review B - Condensed Matter and Materials Physics

JF - Physical Review B - Condensed Matter and Materials Physics

IS - 4

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ER -

Low-energy electron reflectivity from graphene

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