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Let there be Light: Deterministic arrays of Quantum Dots | Graphene FlagshipLet there be Light: Deterministic arrays of Quantum Dots | Graphene FlagshipA key result from Flagship researchers demonstrates large scale, fully integrable arrays of single photon quantum emitters in layered materials, which may lead to hybrid on-chip photonics devices for networks and sensing.<img alt="" src="/SiteCollectionImages/News/2017/LED-arrays-single-photon-graphene-flagship-750.jpg" style="BORDER:0px solid;" />2017-05-22T10:00:00.0000000Zhttps://graphene-flagship.eu/let-there-be-light-deterministic-arrays-of-quantum-dots24/05/2017 13:58:56069010aspx112htmlFalseaspx
The Graphene Flagship Steers Towards Higher Technology Readiness Level | Graphene FlagshipThe Graphene Flagship Steers Towards Higher Technology Readiness Level | Graphene FlagshipSix application-oriented spearhead projects and an invitation to express interest in joining the consortium. Those are examples of how the Graphene Flagship will move forward as it reaches midterm of its ten-year voyage. <img alt="" src="/SiteCollectionImages/750x400/Jari_Kinaret_2017_750x400.jpg" style="BORDER:0px solid;" />2017-05-02T14:00:00.0000000Zhttps://graphene-flagship.eu/graphene-flagship-steers-towards-higher-technology-readiness-level24/05/2017 13:58:56052492aspx719htmlFalseaspx
Report from Boston | Graphene FlagshipReport from Boston | Graphene FlagshipAs a receiver of a Graphene Flagship Mobility Grant, Santiago Cartamil Bueno from TU Delft has just completed a stay at Boston University, in the Atomic Membrane laboratory of Professor Scott Bunch. Here is his short report of the experience.<img alt="" src="/SiteCollectionImages/News/2017/Santiago_Boston_750x400.jpg" style="BORDER:0px solid;" />2017-05-02T11:00:00.0000000Zhttps://graphene-flagship.eu/report-from-boston-university24/05/2017 13:58:56047959aspx461htmlFalseaspx
Hybrid Heterostructures with Programmable Potentials | Graphene FlagshipHybrid Heterostructures with Programmable Potentials | Graphene FlagshipIn a novel controllable chemical method, Flagship researchers have created hybrid nanomaterials that can be tailored to have programmable electronic and optical properties - ideal for designing new types of electronics with new functionalities.<img alt="" src="/SiteCollectionImages/News/2017/hybrid-heterstructure-graphene-flagship-750.jpg" style="BORDER:0px solid;" />2017-04-25T22:00:00.0000000Zhttps://graphene-flagship.eu/hybrid-heterostructures24/05/2017 13:58:56021551aspx760htmlFalseaspx
Spotlight: Cinzia Casiraghi | Graphene FlagshipSpotlight: Cinzia Casiraghi | Graphene FlagshipThe Graphene Flagship's Spotlight series tells the stories behind the research. Cinzia Casiraghi describes her experiences working in academic graphene research, and the challenges she faced in becoming a professor.<img alt="" src="/SiteCollectionImages/News/2017/cinzia-casiraghi-spotlight-graphene-flagship-750.jpg" style="BORDER:0px solid;" />2017-04-20T13:00:00.0000000Zhttps://graphene-flagship.eu/spotlight-cinzia-casiraghi24/05/2017 13:58:56016438aspx661htmlFalseaspx
Join the Graphene Flagship - Expression of Interest now Open | Graphene FlagshipJoin the Graphene Flagship - Expression of Interest now Open | Graphene FlagshipThe Graphene Flagship is now inviting organisations with specific competences, including topics such as Ecotoxicity, Neural Interfaces, Sensors and Smart Textiles, to submit their Expression of Interest to join the consortium.<img alt="" src="/SiteCollectionImages/News/2017/Research750x400.jpg" style="BORDER:0px solid;" />2017-04-20T09:00:00.0000000Zhttps://graphene-flagship.eu/expression-of-interest-now-open24/05/2017 13:58:56014391aspx821htmlFalseaspx
Dark-State Gas Sensors | Graphene FlagshipDark-State Gas Sensors | Graphene FlagshipThe Graphene Flagship is exploring graphene and related materials for novel sensor concepts. A new mechanism of gas sensing using dark exciton states has been proposed for efficient sensing via distinct optical fingerprints.<img alt="" src="/SiteCollectionImages/News/2017/nanosensor750x340.jpg" style="BORDER:0px solid;" />2017-04-18T22:00:00.0000000Zhttps://graphene-flagship.eu/dark-state-gas-sensors24/05/2017 13:58:5609232aspx1047htmlFalseaspx
Ultra-Thin Logic: Flexible Computing with Layered Materials | Graphene FlagshipUltra-Thin Logic: Flexible Computing with Layered Materials | Graphene FlagshipResearchers from the Graphene Flagship have demonstrated the first fully functional microprocessor based on a layered material. The processor chip consists of 115 integrated transistors and is a first step toward ultra-thin, flexible logic devices. <img alt="" src="/SiteCollectionImages/News/2017/Microprocessor-Chip-Flexible-Computer-750.jpg" style="BORDER:0px solid;" />2017-04-11T15:00:00.0000000Zhttps://graphene-flagship.eu/flexible-microprocessors24/05/2017 13:58:56086034aspx1662htmlFalseaspx
Ink-Jet Printable and Biocompatible Layered Electronics | Graphene FlagshipInk-Jet Printable and Biocompatible Layered Electronics | Graphene FlagshipIn a step toward rapid and low-cost prototyping of electronic devices, researchers from the Graphene Flagship have demonstrated fully ink-jet printed programmable memory devices, using biocompatible water-based inks.<img alt="" src="/SiteCollectionImages/News/2017/ink-jet-printed-memory-heterostructures-Graphene-Flagship-750.jpg" style="BORDER:0px solid;" />2017-03-27T22:00:00.0000000Zhttps://graphene-flagship.eu/ink-jet-printable-and-biocompatible-layered-electronics24/05/2017 13:58:56081703aspx1274htmlFalseaspx
Graphene-Based Neural Probes Probe Brain Activity in High Resolution | Graphene FlagshipGraphene-Based Neural Probes Probe Brain Activity in High Resolution | Graphene FlagshipGraphene-based transistors enable a flexible neural probe with excellent signal-to-noise ratio. Such probes are useful for examining neural activity for understanding diseases, as well as in neuroprosthetics for control of artificial limbs.<img alt="" src="/SiteCollectionImages/News/2017/neural-probe-graphene-flexible-Flagship-750.jpg" style="BORDER:0px solid;" />2017-03-26T22:00:00.0000000Zhttps://graphene-flagship.eu/graphene-based-neural-probes-probe-brain-activity-in-high-resolution24/05/2017 13:58:56081582aspx2586htmlFalseaspx