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From FP7 − ► Horizon 2020 Industrial Technologies, Aarhus, June 2012

From FP7 − ► Horizon 2020 Industrial Technologies, Aarhus, June 2012. “ Forward Planning For Standards & Metrology Research & Innovation In Horizon 2020”. Terry Wilkins CEO, Nanomanufacturing Institute, University of Leeds, UK Yorkshire Forward Professor of Nanomanufacturing Innovation

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From FP7 − ► Horizon 2020 Industrial Technologies, Aarhus, June 2012

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  1. From FP7 −► Horizon 2020 Industrial Technologies, Aarhus, June 2012 “Forward Planning For Standards & Metrology Research & Innovation In Horizon 2020” Terry Wilkins CEO, Nanomanufacturing Institute, University of Leeds, UK Yorkshire Forward Professor of Nanomanufacturing Innovation Chair of European Commission’s Expert Advisory Group Nano-, Materials- & Production Technologies Research & Innovation t.a.wilkins@leeds.ac.uk

  2. Topics • Introduction to the NMP EAG strategy processes • Metrology & Standards recommendations for Horizon 202 • Environment, Health & safety Metrology & Standard recommendation for Horizon 202) • Concluding remarks Note N= Nanotechnology M= Materials technology P= Production technologies

  3. Industry & Research Member States Annual Work Programme Expert Advisory Group Programme Committee NMP FP7 Strategic Plan Annual Implementation Plan 2007-12 • Initial plan • Mid-term review • Horizon 2020 plan EC Interservice Committees Calls Published ~July EU NMP Strategic and Annual Planning Processes Framework-7 (2007-2013) EC NMP Directorate Planning Inputs 36 Industry sectors European Technology Platforms FP6/7 Project Portfolio Foresight Reports Other Stakeholders Budget = €3.5 billion 2006-12 NB : ETP Nanomedicine is one of the 3 most influential ETPs • NMP = Nano-, Materials & Production Technologies programme • TAW President of the EAG

  4. Standardisation & Metrology interactions academia & industry Best Practices In Innovation Key Enabling Technologies NMP EAG’s 6 Orientation Papers (For planning Enabling Technologies in Horizon 2020 Clustering of Projects & Dissemination Simplification & SME-related issues NMP

  5. Special thanks to…… Rob AitkenIOM Nano EHS Kamal HosseinNPL Metrology & Stds Co – chairs of the Working Group Acknowledgments and Grateful thanks …..are due in large measure to EAG Members for their unique knowledge and commitment to developing an innovative approach to research and innovation strategy for NMP throughout FP7 and on into Horizon 2020. EAG Members

  6. Metrology for Quality of Life….(Health)

  7. Metrology for Industry (Trade & Commerce)

  8. Emerging Technology... (Standards & Metrology)

  9. Barriers to Standards Development

  10. Research Standards & Markets Synergy

  11. Recommendations

  12. Recommendations – (2)

  13. Infrastructure for European Metrology & Standards Research (Example of NMP policy in action for the long haul) 2002-06 2007-13 2014-20 FP6 FP7 Horizon 2020 MERA iMERA iMERA Plus EMRP EMRP - II • €64.6 M • ERA-NET Plus • EU/MS (1/3 ::2/3) • 19 Countries • €400 M • Article - 169 • EU/MS (1/3::2/3) • 22 Countries ? - ERA-NET http://www.emrponline.eu/ Key: MERA = Metrology European Research Area EMRP = European Metrology Research Programme

  14. Importance of Environment, Health & Safety for Engineered Nanoparticles for Nanomanufactured Products

  15. FP7 EHS R&D For Nanotechnology • Large amount of EC funding deployed ~ €150 million (10% of NMP Nanotechnology Unit budget) • 33 projects and large multi-disciplinary community sharing knowledge and materials creating a new field of science • Strong potential to contribute to the development of new metrology methods and key standards • Lack of awareness of standards activities amongst nanotechnology R& I Project teams and vice versa

  16. Summary of FP6/7 Environment, Health & Safety Projects Supporting EC REACH Strategy for Engineered Nanoparticles REACH & CLP Regulation, Classification, Labelling, & Packaging of Nanomaterials Marina Marina Nano Device Nanofate NaNex Nano NanoGen Tox FRAMING NANO Nano House EU Observatory Nano Impact Net NHRES Nanolyse Nano Immune ENPRA ENNSATOX NANONEXT Qnano QSAR & Modelling NanoReg New ENPs Submitted For regulatory testing REACH & CLP Approval Nano PolyTox Mod NanoTox NanoReTox Neuro Trans Kinetics Nano Sustain Cell NanoTox Nano Valid Nano Interact Nano SIINN Nanosh ModNano Tox European Industry Development & Scale up of novel nanomaterials Nano Registry Nano Test Nano Futues Neuro Nano Research Infrastructure Regulatory Testing Infrastructure Key Experimental EH&S projects Experimental EH&S projects containing some modelling research NanoFutures European Technology Platform – 12 Industry Sectors Input into nanosafety research needs

  17. High-Throughput Screening Data Mining Risk Management Modelling &Simulation Importance of High-Throughput Testing in Europe’s Nano E, H & S Risk Management Strategy Instrumentation Metrology Analytical Methods Human Health Studies Environmental Studies Human & Environmental Exposure Risk Management Methods Standardisation Empirical QSAR Theoretical QSAR • Captures real quantitative knowledge on risk • Accelerates rate & quality of risk assessment • Reduces overall costs longer term

  18. Recommendations for Nano EHS Metrology Focus on:- • Implementation of the Nanosafety Cluster’s strategy • Development of an “Innovation pathway” for EHS Projects • Establishment of centre(s) of excellence in EHS • Integration of EHS research with industrial priorities through the activities of the NANOFUTURES European Technology Platform (ETP)* Note: * NANOFUTURES integrates needs of 12 industry sectors

  19. Recommendations for Nano EHS Standards • Specific funding for translational work to enable continuation after a project has finished to support standards development • Development of common data bases for information sharing plus specific funding to develop underlying data structure (e.g. for toxicity or exposure data) • Consider all currents work is concerned with 1st generation nanomaterials. Translation of this work to standards and planning for 2nd, 3rd & 4th generation nanomaterials should be prioritised

  20. Knowledge Value Chain Horizon 2020 - 3 Pillar Structure

  21. Concluding thoughts • Velocity of creation of new value chains defines competitivity for emergent technologies • Rapid creation of new metrology methods and standards are essential for delivering emergent technologies to application in a timely manner • FP7 Nano EHS research in risk management for engineered nanoparticles needs to be converted into policy and regulatory testing during Horizon 2020 • NMP has been developing a coherent policy for metrology and standards together with Member States National Metrology Institutes since FP4

  22. Long View for Metrology & Standards Technical Skills? • Long-term trickle down effect to PhD, MSc & BSc training? FP7 ERC Advanced & Starting Grants (2007-2010) * Grounded theory cluster analysis”, T Wilkins & N Delyanakis, EC EAG, Nov 2010

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