N. L. Rupesinghe scite author profile

We present the science and technology roadmap for graphene, related two-dimensional crystals, and hybrid systems, targeting an evolution in technology, that might lead to impacts and benefits reaching into most areas of society. This roadmap was developed within the framework of the European Graphene Flagship and outlines the main targets and research areas as best understood at the start of this ambitious project. We provide an overview of the key aspects of graphene and related materials (GRMs), ranging from fundamental research challenges to a variety of applications in a large number of sectors, highlighting the steps necessary to take GRMs from a state of raw potential to a point where they might revolutionize multiple industries. We also define an extensive list of acronyms in an effort to standardize the nomenclature in this emerging field.

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Growth process conditions of vertically aligned carbon nanotubes using plasma enhanced chemical vapor deposition

Chhowalla¹,

Teo²,

Ducati³

et al. 2001

994

615

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The growth of vertically aligned carbon nanotubes using a direct current plasma enhanced chemical vapor deposition system is reported. The growth properties are studied as a function of the Ni catalyst layer thickness, bias voltage, deposition temperature, C 2 H 2 :NH 3 ratio, and pressure. It was found that the diameter, growth rate, and areal density of the nanotubes are controlled by the initial thickness of the catalyst layer. The alignment of the nanotubes depends on the electric field. Our results indicate that the growth occurs by diffusion of carbon through the Ni catalyst particle, which rides on the top of the growing tube.

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Capacitive Energy Storage from −50 to 100 °C Using an Ionic Liquid Electrolyte

Lin

Taberna

Fantini

et al. 2011

J. Phys. Chem. Lett.

378

354

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Field emission from graphene based composite thin films

et al. 2008

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Field emission from graphene is challenging because the existing deposition methods lead to sheets that lay flat on the substrate surface, which limits the field enhancement. Here we describe a simple and general solution based method for the deposition of field emitting graphene/polymer composite thin films. The graphene sheets are oriented at some angles with respect to the substrate surface leading to field emission at low threshold fields (∼4Vμm−1). Our method provides a route for the deposition of graphene based thin film field emitter on different substrates, opening up avenues for a variety of applications.

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N. L. Rupesinghe

Science and technology roadmap for graphene, related two-dimensional crystals, and hybrid systems

Growth process conditions of vertically aligned carbon nanotubes using plasma enhanced chemical vapor deposition

Capacitive Energy Storage from −50 to 100 °C Using an Ionic Liquid Electrolyte

Field emission from graphene based composite thin films

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