Jari Kinaret Chalmers University of Technology Sweden “FET Flagships are ambitious large-scale, science-driven, research initiatives that aim to achieve a visionary goal. The scientific advance should provide a strong and broad basis for future technological innovation and economic exploitation in a variety of areas, as well as novel benefits for society.” Scale: 10 year project period, 1 B€ project cost (500 M€ from EC) Coordinated by Chalmers University of Technology Ramp-up phase: Oct., 2013 – March, 2016 142 partners, 54 M€ EC funding Core 1 project: April, 2016 – March, 2018 156 partners, 89 M€ EC funding Core 2 project: April, 2018 – March, 2020, 88 M€ EC funding Funding by member states, and other EU programs (in 2014) MS: over 47 M€ plus investments in research infrastructures EU: about 54 M€ (ERC, Marie Curie, collaborative projects in addition to the flagship funding) 2 Flagship consortium in May, 2015 142 partners, 27% industrial (Airbus, Alcatel-Lucent, BASF, Ericsson, FIAT, Italcementi, Nokia, ST Microelectronics, Varta,…) Additional industrial partners will join in H2020 (ABB, Infineon,…) Increasing number of Associated Members. MS expected to fund several transnational projects funded through the FLAG-ERA collaboration. 3 Strategic Advisory Council Konstantin Tapani Ryhänen Andre Geim Novoselov NOKIA HELSINKI 2010 2010 MANCHESTER LUDWIGSHAFEN Norbert Wagner BASF PARIS STUTTGART Albert Fert THALES 2007 Byung Hee Hong Seoul National U. 1985 Klaus von Klitzing GETAFE MPI Silvia Lazcano-Urena Luigi Colombo AIRBUS Texas Instruments Flagship in Horizon 2020 Framework Partnership Core Project 1 National projects ca. 150 partners, 2 yrs FLAG-ERA Core Project 2 > 120 partners, 2 yrs Regional projects Core Project 3 > 120 partners, 2 yrs Other EU projects Impact: translational nanotechnology Andrea’s flexible screen video (Video: A. Ferrari, (Figure: BASF) (Figure: Chalmers) Cambridge) (Figure: C. Dekker, Delft) ICT MATERIALS ENERGY HEALTH consumer and high ultralight, strong advanced batteries Rapid electronic DNA performance composites for, e.g., and supercapacitors sequencing, new electronics, aerospace and cars, for cars and portable biosensors optoelectronics conductive inks appliances 6 Estimated technology readiness levels Materials HF Optoel. & Sensors Flexible Energy Composites Production electronics photonics TRL 9 Sports Chemical equipment exfoliation CVD TRL 8 R2R CVD TRL 7 Touch screen Packaging? TRL 6 Humidity, Supercaps, pressure batteries TRL 5 TRL 4 Freq. Flexible screen Anti-corrosive multiplier, coatings amplifier TRL 3 Other LMs Data transmission TRL 2 TRL 1 Emerging areas: nanofluidics, medical technologies Scientific and technological roadmap Graphene disruptive technologies - from academic Thanklaboratoriesyou for yourtoattentionsociety! 9.