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Graphene

Known as: Graphine, Graphene ultracapacitors, Graphene ultracapacitor 
Graphene (/ˈɡræf.iːn/) is an allotrope of carbon in the form of a two-dimensional, atomic-scale, honey-comb lattice in which one atom forms each… Expand
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Papers overview

Semantic Scholar uses AI to extract papers important to this topic.
Highly Cited
2011
Highly Cited
2011
Scientists study the coupling, guiding and polarizing of electromagnetic waves in graphene and demonstrate a graphene-based fibre… Expand
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Highly Cited
2011
Highly Cited
2011
We prepared hydrazine-reduced materials from both graphite oxide (GO) particles, which were not exfoliated, and completely… Expand
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Highly Cited
2010
Highly Cited
2010
Nitrogen-doped graphene (N-graphene) is obtained by exposing graphene to nitrogen plasma. N-graphene exhibits much higher… Expand
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Highly Cited
2008
Highly Cited
2008
Reflectance and transmittance of graphene in the optical region are analyzed as a function of frequency, temperature, and carrier… Expand
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Highly Cited
2008
Highly Cited
2008
The adsorption of 12 different metal adatoms on graphene is studied using first-principles density-functional theory with the… Expand
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Highly Cited
2007
Highly Cited
2007
The effectively massless, relativistic behaviour of graphene’s charge carriers—known as Dirac fermions—is a result of its unique… Expand
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Highly Cited
2007
Highly Cited
2007
We study from first principles the magnetism in graphene induced by single carbon atom defects. For two types of defects… Expand
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Highly Cited
2007
Highly Cited
2007
In this letter, a top-gated field-effect device (FED) manufactured from monolayer graphene is investigated. Except for graphene… Expand
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Highly Cited
2007
Highly Cited
2007
Landau level quantization in graphene reflects the Dirac nature of its quasiparticles and has been found to exhibit an unusual… Expand
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Highly Cited
2006
Highly Cited
2006
The so-called Klein paradox—unimpeded penetration of relativistic particles through high and wide potential barriers—is one of… Expand
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