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New Quantum Phenomena in Graphene SuperlatticesNew Quantum Phenomena in Graphene SuperlatticesGraphene Flagship researchers show the first new type of quantum oscillation to be reported for thirty years. The first of its kind to be present at high temperature and on the mesoscale it sheds light on the Hofstadter butterfly phenomenon.<img alt="" src="/SiteCollectionImages/News/2017/Hofstadter%20Butterfly%20Credit%20The%20University%20of%20Manchester%20(1).jpg" style="BORDER:0px solid;" />18/09/2017 07:00:00https://graphene-flagship.eu/new-quantum-phenomena-in-graphene-superlattices18/09/2017 13:57:4701350aspxhtmlFalseaspx
Graphene Week 2017: Graphene Technology Leaders Gather For Europe’s Most Influential Graphene ConferenceGraphene Week 2017: Graphene Technology Leaders Gather For Europe’s Most Influential Graphene Conference25-29 September 2017 sees graphene technology leaders from around the world gather in Athens for Europe’s most influential graphene and related materials conference.<img alt="" src="/SiteCollectionImages/News/2017/Graphene%20Week.jpg" style="BORDER:0px solid;" />15/09/2017 07:00:00https://graphene-flagship.eu/graphene-technology-leaders-gather-for-graphene-week-201718/09/2017 13:57:4702843aspxhtmlFalseaspx
Tough stuff: Spider silk enhanced with grapheneTough stuff: Spider silk enhanced with grapheneNatural spider silk has excellent mechanical properties. Researchers from the Graphene Flagship have found a way to boost the strength of spider’s silk using graphene-based materials, paving the way for a novel class of high-performance bionic composites.<img alt="" src="/SiteCollectionImages/News/2017/Spider-silk-graphene-flagship-750.jpg" style="BORDER:0px solid;" />12/09/2017 22:00:00https://graphene-flagship.eu/tough-stuff-spider-silk-enhanced-with-graphene-based-materials18/09/2017 13:57:4702583aspxhtmlFalseaspx
Graphene based Terahertz AbsorbersGraphene based Terahertz AbsorbersGraphene Flagship researches create a terahertz saturable absorber using printable graphene inks with an order of magnitude higher absorption modulation than other devices produced to date.<img alt="" src="/SiteCollectionImages/News/2017/Vitello%204.jpg" style="BORDER:0px solid;" />12/09/2017 06:30:00https://graphene-flagship.eu/graphene-based-terahertz-absorbers18/09/2017 13:57:4702386aspxhtmlFalseaspx
Paving graphene's silk road: First EU-China workshopPaving graphene's silk road: First EU-China workshopThe first EU-China workshop, held in Beijing 29 June - 2 July 2017, provided an opportunity for researchers from Europe and China to communicate recent developments and setup future collaborations on graphene and related materials. <img alt="" src="/SiteCollectionImages/News/2017/EU-China-Graphene-Flagship-Meeting.jpg" style="BORDER:0px solid;" />29/08/2017 22:00:00https://graphene-flagship.eu/paving-graphenes-silk-road-first-eu-china-workshop18/09/2017 13:57:470769aspxhtmlFalseaspx
Strengthening collaborations at the EU Japan MeetingStrengthening collaborations at the EU Japan MeetingThe second EU-Japan meeting, held in Barcelona during 6-8 May 2017, was an opportunity for graphene researchers from Europe and Japan to meet and discuss shared research questions and explore collaboration opportunities.<img alt="" src="/SiteCollectionImages/News/2017/EU%20Japan.jpg" style="BORDER:0px solid;" />15/08/2017 15:30:00https://graphene-flagship.eu/strengthening-collaborations-at-the-eu-japan-meeting18/09/2017 13:57:470103466aspxhtmlFalseaspx
Transporting Spin: A Graphene And Boron Nitride Heterostructure Creates Spin Signals Large Enough To Be Used In Real Life ApplicationsTransporting Spin: A Graphene And Boron Nitride Heterostructure Creates Spin Signals Large Enough To Be Used In Real Life ApplicationsGraphene Flagship scientists have created a device based on a bilayer of graphene and boron nitride which shows unprecedented spin transport efficiency at room temperature.<img alt="" src="/SiteCollectionImages/News/2017/Bart%20Van%20Wees%20Graphene%20and%20boron%20nitride%20(3).jpg" style="BORDER:0px solid;" />15/08/2017 08:00:00https://graphene-flagship.eu/graphene-and-boron-nitride-heterostructure-creates-large-spin-signals18/09/2017 13:57:470103465aspxhtmlFalseaspx
Launch of the Aachen Graphene and 2D-Materials CentreLaunch of the Aachen Graphene and 2D-Materials CentreGraphene Flagship Partners RWTH Aachen University and AMO GmbH recently launched a new joint research centre focusing on bridging the gap between fundamental science and applications within graphene and related materials based electronics and photonics.<img alt="" src="/SiteCollectionImages/News/2017/Aachen%20opening.jpg" style="BORDER:0px solid;" />14/08/2017 13:30:00https://graphene-flagship.eu/launch-of-the-aachen-graphene-2d-materials-centre18/09/2017 13:57:470103464aspxhtmlFalseaspx
Zero-Gravity: Graphene for Space ApplicationsZero-Gravity: Graphene for Space ApplicationsTwo experiments, testing graphene in zero-gravity conditions, are being prepared by Graphene Flagship researchers to be launched in November. Join us as we follow the progress – from the early stages in the laboratory to the moments of weightlessness!<img alt="" src="/SiteCollectionImages/Material/Zero%20Gravity%20Graphene/ZeroGravityGraphene_750x400.jpg" style="BORDER:0px solid;" />07/07/2017 10:00:00https://graphene-flagship.eu/zero-gravity-graphene-for-space-applications18/09/2017 13:57:470103461aspx534htmlFalseaspx
New Graphene Flagship Partners Approved New Graphene Flagship Partners Approved Following the Graphene Flagship's goal to take graphene and related materials from laboratories to society the General Assembly of the Flagship has voted in favour of 15 new partners to bring specific competences to the consortium. <img alt="" src="/SiteCollectionImages/News/2017/Research750x400.jpg" style="BORDER:0px solid;" />07/07/2017 09:00:00https://graphene-flagship.eu/new-partners-approved18/09/2017 13:57:470103463aspxhtmlFalseaspx

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