Unravelling external perturbation effects on the optical phonon response of graphene

Bendiab, Nedjma; Renard, Julien; Schwarz, Cornelia; Reserbat‐Plantey, Antoine; Djevahirdjian, Léo; Bouchiat, Vincent; Coraux, Johann; Marty, Laëtitia

doi:10.1002/jrs.5267

Cited by 27 publications

(44 citation statements)

References 146 publications

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“…Indeed, the phonon spectra of graphene are significantly affected by external perturbations, and their responses to external perturbations can be precisely probed by Raman spectroscopy. 56,98,275 In the following sections, we will discuss how external perturbations, such as doping induced by an electric field [58][59][60][62][63][64][65] and charge transfer, 61 strain, [81][82][83][84][85][86][87] and temperature, [99][100][101][102][103]276 modify the Raman spectra of graphene and MLG and how to use Raman spectroscopy to probe those external perturbations.…”

Section: Peak Positions Of the C And Lb Modesmentioning

confidence: 99%

Raman spectroscopy of graphene-based materials and its applications in related devices

et al. 2018

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Graphene-based materials exhibit remarkable electronic, optical, and mechanical properties, which has resulted in both high scientific interest and huge potential for a variety of applications. Furthermore, the family of graphene-based materials is growing because of developments in preparation methods. Raman spectroscopy is a versatile tool to identify and characterize the chemical and physical properties of these materials, both at the laboratory and mass-production scale. This technique is so important that most of the papers published concerning these materials contain at least one Raman spectrum. Thus, here, we systematically review the developments in Raman spectroscopy of graphene-based materials from both fundamental research and practical (i.e., device applications) perspectives. We describe the essential Raman scattering processes of the entire first- and second-order modes in intrinsic graphene. Furthermore, the shear, layer-breathing, G and 2D modes of multilayer graphene with different stacking orders are discussed. Techniques to determine the number of graphene layers, to probe resonance Raman spectra of monolayer and multilayer graphenes and to obtain Raman images of graphene-based materials are also presented. The extensive capabilities of Raman spectroscopy for the investigation of the fundamental properties of graphene under external perturbations are described, which have also been extended to other graphene-based materials, such as graphene quantum dots, carbon dots, graphene oxide, nanoribbons, chemical vapor deposition-grown and SiC epitaxially grown graphene flakes, composites, and graphene-based van der Waals heterostructures. These fundamental properties have been used to probe the states, effects, and mechanisms of graphene materials present in the related heterostructures and devices. We hope that this review will be beneficial in all the aspects of graphene investigations, from basic research to material synthesis and device applications.

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Section: Peak Positions Of the C And Lb Modesmentioning

confidence: 99%

Raman spectroscopy of graphene-based materials and its applications in related devices

et al. 2018

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“…In the review article: ‘ Unravelling external perturbations effects on the optical phonons response of graphene ’, Nedjma Bendiab et al . report the state‐of‐the‐art regarding the effect of external perturbations on the optical phonons of graphene, with a peculiar focus on the understanding of the doping and/or strain effects on the Raman response of graphene . They describe how doping can tune the unusual electron–phonon coupling in graphene and thus modify the phonons intensities thanks to quantum interferences.…”

Section: Graphene and Related 2d Materials: Raman Study State‐of‐the‐artmentioning

confidence: 99%

Graphene and related 2D materials: An overview of the Raman studies

Paillet

Parret

Sauvajol

et al. 2017

J Raman Spectroscopy

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After a brief overview of the discovery and the Raman study of new forms of carbons (intercalated graphite, carbon fiber, fullerenes, carbon nanotubes), the invaluable contribution of late Professor M. Dresselhaus is noted, and the 10 reviews and 9 contributions collected to present a picture of the current Raman investigations of graphene and related 2D materials (such as black phosphorus, MoS 2 ) are introduced. Methods for numbering the graphene layers, the effects of external perturbations (temperature, pressure, doping, and magnetic field) on the phonons of graphene, characterization of the chemical and structural properties of graphene at the nanoscale level by tip-enhanced Raman spectroscopy, surface enhanced Raman spectroscopy and hyperspectral imaging, and applications combining graphene and Raman spectroscopy are addressed.

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“…Bendiab and co‐workers described unravelling external perturbation effects on the optical phonon response of graphene. In this paper, they review the state of the art regarding the effect of external perturbations on the optical phonons of graphene and describe how doping can tune the unusual electron–phonon coupling in graphene and thus modify not only the resonance conditions but also the phonon intensities due to quantum interferences . Bera et al described enhanced Raman and photoluminescence response in monolayer MoS 2 due to laser healing of defects.…”

Section: Nanomaterialsmentioning

confidence: 99%

“…Jorio presented a dedication to the life‐long contributions of Mildred S. Dresselhaus (1930–2017) in the same special issue of JRS highlighting her contributions to our understanding of graphite, graphite intercalated compounds, graphite ion‐implantation, graphite fibers, fullerenes, carbon nanotubes, and two‐dimensional systems, starting from graphene . Other reviews in the special issue on graphene and related 2D materials, previously described above, were the following: Beams on Tip‐enhanced Raman scattering of graphene ; Faugeras and co‐workers on Raman scattering of graphene‐based systems in high magnetic fields ; Bendiab et al on Unravelling external perturbation effects on the optical phonon response of graphene ; Lee and Cheong on Resonance Raman effects in transition metal dichalcogenides ; Machon et al on Raman scattering studies of graphene under high pressure ; and Ribeiro and co‐workers on the Raman spectroscopy in black phosphorus . Huang and colleauges provided a conference report from the 5th International Taiwan Symposium on Raman Spectroscopy (2017) and Taiwan Association of Raman Spectroscopy Summer Camp .…”

Section: Special Issues and Reviewsmentioning

confidence: 99%

“…In this paper, they review the state of the art regarding the effect of external perturbations on the optical phonons of graphene and describe how doping can tune the unusual electron-phonon coupling in graphene and thus modify not only the resonance conditions but also the phonon intensities due to quantum interferences. [82] Bera et al described enhanced Raman and photoluminescence response in monolayer MoS 2 due to laser healing of defects. They show that exposing monolayer MoS 2 in air to a modest laser intensity for a brief period of time enhances simultaneously the photoluminescence intensity associated with both trions and excitons, together with approximately three to five times increase of the Raman intensity of first-order and second-order modes.…”

Section: Carbon Nanotubes Carbon Materials Graphene Layered Solimentioning

confidence: 99%

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Recent advances in linear and nonlinear Raman spectroscopy. Part XIII

Nafie

2019

J Raman Spectroscopy

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This article is an overview of advances in Raman spectroscopy published in 2018 in the Journal of Raman Spectroscopy (JRS) and, in addition, trends over the past decade across journals that have published papers important to the field of Raman spectroscopy. The trends are based on statistical data of article counts obtained from Clarivate Analytic's Web of Science Core Collection byyear and by subfield of Raman spectroscopy. Coverage is provided for presentations involving Raman spectroscopy at four international conferences this published in JRS in 2018 are highlighted and arragned by topics at the frontier of Raman spectroscopy. Based on these data, presentations, and publications, it is clear that Raman spectroscopy continues as an expanding field of research across a wide range of novel disciplines and applications that provide sensitive photonic information at the molecular level.KEYWORDS advances in Raman spectroscopy, applications of Raman spectroscopy, developments in Raman spectroscopy, review

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Unravelling external perturbation effects on the optical phonon response of graphene

Cited by 27 publications

References 146 publications

Raman spectroscopy of graphene-based materials and its applications in related devices

Raman spectroscopy of graphene-based materials and its applications in related devices

Graphene and related 2D materials: An overview of the Raman studies

Recent advances in linear and nonlinear Raman spectroscopy. Part XIII

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