The graphene market is very new and in the embryonic stage with only a few products being commercialised yet. However, we forecast an increasing number of graphene companies will drive investment over the coming years resulting in wider adoption of graphene across a range of industries.
Electronics is based on the manipulation of electrons and other charge carriers, but in addition to charge, electrons possess a property known as spin. When spin is manipulated with magnetic and electric fields, the result is a spin-polarised current that carries more information than is possible with charge alone. Spin-transport electronics, or spintronics, is a subject of active investigation within Europe's Graphene Flagship.
Lomiko Metals Inc. ("Lomiko") investment Graphene 3D Lab Inc. will announce details of a newly-developed water-soluble 3D filament at the Canadian Manufacturers & Exporters' (CME) Canada Makes: Additive Manufacturing Forum at Mohawk College in Hamilton, Ontario on April 30, 2015. The water-soluble filament is the latest in a line of specialty-functional filaments that Graphene 3D is introducing to the 3D printing industry.
Cambridge Nanosystems, a young company born out of the University of Cambridge, has officially opened a new factory in Cambridge UK that will revolutionise the commercial production of grapheneglobally.
From mobile phones and computers to television, cinema and wearable devices, the display of full colour, wide-angle, 3D holographic images is moving ever closer to fruition, thanks to international research featuring Griffith University.
Building on the successes of 2014, Thomas Swan continues to focus on its vision of being the most trusted supplier of consistently high quality graphene on the market. With 1kg per day capacity now available the company is keen to ensure prototype materials are accessible to all and will announce a new pricing structure at Graphene Live, Berlin on 28th - 29th April.
Electrons were observed to travel in a solid at an unusually high velocity, which remained the same independent of the electron energy. This anomalous light-like behavior is found in special two-dimensional materials, such as graphene, but is now realized in a three-dimensional bulk material. High-resolution angle-resolved electron spectroscopy, stimulated by synchrotron x-ray radiation, was used to substantiate the theoretically predicted exotic electron structure.
Researchers from Yale-NUS College, the University of Texas at Austin (UT Austin), and from the National University of Singapore (NUS), have collaborated in a study to establish a theoretical framework for understanding the physics of graphene.
FlexEnable, the leader in the development and industrialisation of flexible electronics, has announced its participation in the Graphene Flagship, the EU's biggest ever initiative in the field of graphene and related materials.
Group NanoXplore Inc., a Montreal-based company specialising in the production and application of graphene and its derivative materials, announced today that it is producing Graphene Oxide in industrial quantities. The Graphene Oxide is being produced in the same 3 metric tonne per year facility used to manufacture NanoXplore's standard graphene grades and derivative products such as a unique graphite-graphene composite suitable for anodes in Li-ion batteries.
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