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Doping carbons beyond nitrogen: an overview of advanced heteroatom doped carbons with boron, sulphur and phosphorus for energy applications

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      Most cited references 163

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      Electric Field Effect in Atomically Thin Carbon Films

      We report a naturally-occurring two-dimensional material (graphene that can be viewed as a gigantic flat fullerene molecule, describe its electronic properties and demonstrate all-metallic field-effect transistor, which uniquely exhibits ballistic transport at submicron distances even at room temperature.
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        Helical microtubules of graphitic carbon

         Sumio Iijima (1991)
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          The rise of graphene

          Graphene is a rapidly rising star on the horizon of materials science and condensed matter physics. This strictly two-dimensional material exhibits exceptionally high crystal and electronic quality and, despite its short history, has already revealed a cornucopia of new physics and potential applications, which are briefly discussed here. Whereas one can be certain of the realness of applications only when commercial products appear, graphene no longer requires any further proof of its importance in terms of fundamental physics. Owing to its unusual electronic spectrum, graphene has led to the emergence of a new paradigm of 'relativistic' condensed matter physics, where quantum relativistic phenomena, some of which are unobservable in high energy physics, can now be mimicked and tested in table-top experiments. More generally, graphene represents a conceptually new class of materials that are only one atom thick and, on this basis, offers new inroads into low-dimensional physics that has never ceased to surprise and continues to provide a fertile ground for applications.
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            Author and article information

            Journal
            EESNBY
            Energy & Environmental Science
            Energy Environ. Sci.
            Royal Society of Chemistry (RSC)
            1754-5692
            1754-5706
            2013
            2013
            : 6
            : 10
            : 2839
            10.1039/c3ee41444b
            © 2013
            Product
            Self URI (article page): http://xlink.rsc.org/?DOI=c3ee41444b

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