Graphene Extraordinary Combination of Physical and Chemical Properties

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graphene
Graphene is an extraordinary combination of physical and chemical properties: it is the thinnest material, it conducts electricity much better than copper, it is 100-300 times stronger than steel and it has unique optical properties
graphene
Graphene is an extraordinary combination of physical and chemical properties: it is the thinnest material, it conducts electricity much better than copper, it is 100-300 times stronger than steel and it has unique optical properties

THUNDER BAY – Mining – Graphene is an extraordinary combination of physical and chemical properties: it is the thinnest material, it conducts electricity much better than copper, it is 100-300 times stronger than steel and it has unique optical properties. Graphene is a carbon-based material that offers incredible potential.

There are several graphite discoveries in Northwestern Ontario. Zenyatta Resources in the company’s Albany Project.

While many in the region are awaiting a mining future in the region awash in chromite, it is entirely possible that graphene will prove to be the mineral that will change our world far more.

The European Commission today announced the winners of a multi-billion euro competition of Future and Emerging Technologies (FET). The winning Graphene and Human Brain initiatives are set to receive one billion euros each, to deliver 10 years of world-beating science at the crossroads of science and technology. Each initiative involves researchers from at least 15 EU Member States and nearly 200 research institutes.

The discovery of graphene resulting in the awarding of the Nobel Prize.

In addition, researchers at MIT are studying the transparency of graphene.

Graphene – Future and Emerging Technology

“Graphene” will investigate and exploit the unique properties of a revolutionary carbon-based material. The use of graphene was made possible by European scientists in 2004, and the substance is set to become the wonder material of the 21st century, as plastics were to the 20th century, including by replacing silicon in ICT products.


New Technology for Graphene: Set For Industrial Production by NTDTelevision

The “Human Brain Project” will create the world’s largest experimental facility for developing the most detailed model of the brain, for studying how the human brain works and ultimately to develop personalised treatment of neurological and related diseases. This research lays the scientific and technical foundations for medical progress that has the potential to will dramatically improve the quality of life for millions of Europeans.

The European Commission will support “Graphene” and the “Human Brain Project” as FET “flagships” over 10 years through its research and innovation funding programmes. Sustained funding for the full duration of the project will come from the EU’s research framework programmes, principally from the Horizon 2020 programme (2014-2020) which is currently negotiated in the European Parliament and Council.

European Commission Vice President Neelie Kroes said: “Europe’s position as a knowledge superpower depends on thinking the unthinkable and exploiting the best ideas. This multi-billion competition rewards home-grown scientific breakthroughs and shows that when we are ambitious we can develop the best research in Europe. To keep Europe competitive, to keep Europe as the home of scientific excellence, EU governments must agree an ambitious budget for the Horizon 2020 programme in the coming weeks.”

“Graphene” is led by Prof. Jari Kinaret, from Sweden’s Chalmers University. The Flagship involves over 100 research groups, with 136 principal investigators, including four Nobel laureates. “The Human Brain Project” involves scientists from 87 institutions and is led by Prof. Henry Markram of the École Polytechnique Fédérale de Lausanne.

The future of computing and science will be driven by collaboration. The FET flagships programme is a world-leading effort to ride this wave. The flagship race has fostered collaboration on a new scale and duration. Instead of the usual two-to-four year funding cycles, the 10 year duration and the massive financial incentive has driven the level of science in the project proposals to a much higher level, which will deliver greater benefits to Europe over the long-term, including new technologies and faster innovation.

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James Murray
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