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Statements

Subject Item
n2:RIV%2F00216208%3A11320%2F13%3A10140081%21RIV14-MSM-11320___
rdf:type
n8:Vysledek skos:Concept
rdfs:seeAlso
http://dx.doi.org/10.1016/j.crhy.2012.11.003
dcterms:description
Carbon-based nano-materials, such as graphene and carbon nanotubes, represent a fascinating research area aiming at exploring their remarkable physical and electronic properties. These materials not only constitute a playground for physicists, they are also very promising for practical applications and are envisioned as elementary bricks of the future of the nano-electronics. As for graphene, its potential already lies in the domain of opto-electronics where its unique electronic and optical properties can be fully exploited. Indeed, recent technological advances have demonstrated its effectiveness in the fabrication of solar cells and ultra-fast lasers, as well as touch-screens and sensitive photo-detectors. Although the photo-voltaic technology is now dominated by silicon-based devices, the use of graphene could very well provide higher efficiency. However, before the applied research to take place, one must first demonstrates the operativeness of carbon-based nano-materials, and this is where the fundamental research comes into play. In this context, the use of magnetic field has been proven extremely useful for addressing their fundamental properties as it provides an external and adjustable parameter which drastically modifies their electronic band structure. In order to induce some significant changes, very high magnetic fields are required and can be provided using both DC and pulsed technology, depending of the experimental constraints. In this article, we review some of the challenging experiments on single nano-objects performed in high magnetic and low temperature. We shall mainly focus on the high-field magneto-optical and magneto-transport experiments which provided comprehensive understanding of the peculiar Landau level quantization of the Dirac-type charge carriers in graphene and thin graphite. Carbon-based nano-materials, such as graphene and carbon nanotubes, represent a fascinating research area aiming at exploring their remarkable physical and electronic properties. These materials not only constitute a playground for physicists, they are also very promising for practical applications and are envisioned as elementary bricks of the future of the nano-electronics. As for graphene, its potential already lies in the domain of opto-electronics where its unique electronic and optical properties can be fully exploited. Indeed, recent technological advances have demonstrated its effectiveness in the fabrication of solar cells and ultra-fast lasers, as well as touch-screens and sensitive photo-detectors. Although the photo-voltaic technology is now dominated by silicon-based devices, the use of graphene could very well provide higher efficiency. However, before the applied research to take place, one must first demonstrates the operativeness of carbon-based nano-materials, and this is where the fundamental research comes into play. In this context, the use of magnetic field has been proven extremely useful for addressing their fundamental properties as it provides an external and adjustable parameter which drastically modifies their electronic band structure. In order to induce some significant changes, very high magnetic fields are required and can be provided using both DC and pulsed technology, depending of the experimental constraints. In this article, we review some of the challenging experiments on single nano-objects performed in high magnetic and low temperature. We shall mainly focus on the high-field magneto-optical and magneto-transport experiments which provided comprehensive understanding of the peculiar Landau level quantization of the Dirac-type charge carriers in graphene and thin graphite.
dcterms:title
Graphene in high magnetic fields Graphene in high magnetic fields
skos:prefLabel
Graphene in high magnetic fields Graphene in high magnetic fields
skos:notation
RIV/00216208:11320/13:10140081!RIV14-MSM-11320___
n8:predkladatel
n11:orjk%3A11320
n4:aktivita
n13:I
n4:aktivity
I
n4:cisloPeriodika
1
n4:dodaniDat
n15:2014
n4:domaciTvurceVysledku
n18:2138123
n4:druhVysledku
n9:J
n4:duvernostUdaju
n16:S
n4:entitaPredkladatele
n19:predkladatel
n4:idSjednocenehoVysledku
76837
n4:idVysledku
RIV/00216208:11320/13:10140081
n4:jazykVysledku
n10:eng
n4:klicovaSlova
Magnetic field; Graphite; Graphene
n4:klicoveSlovo
n14:Graphite n14:Graphene n14:Magnetic%20field
n4:kodStatuVydavatele
FR - Francouzská republika
n4:kontrolniKodProRIV
[95BCC45313CD]
n4:nazevZdroje
Comptes Rendus Physique
n4:obor
n12:BM
n4:pocetDomacichTvurcuVysledku
1
n4:pocetTvurcuVysledku
5
n4:rokUplatneniVysledku
n15:2013
n4:svazekPeriodika
14
n4:tvurceVysledku
Raquet, Bertrand Zeitler, Uli Escoffier, Walter Plochocka, Paulina Orlita, Milan
n4:wos
000317250800007
s:issn
1631-0705
s:numberOfPages
16
n17:doi
10.1016/j.crhy.2012.11.003
n20:organizacniJednotka
11320