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nano inside Prof. dr. ing. Dave H.A. Blank Chief Scientific - PowerPoint PPT Presentation

nano inside Prof. dr. ing. Dave H.A. Blank Chief Scientific Ambassador, University of Twente MESA+ Institute for Nanotechnology Chairman NanoNextNL Boegbeeld NWA route quantum/nano revolution Capt. of science topteam HTSM AWTI advisory


  1. nano inside Prof. dr. ing. Dave H.A. Blank Chief Scientific Ambassador, University of Twente MESA+ Institute for Nanotechnology Chairman NanoNextNL Boegbeeld NWA route quantum/nano revolution Capt. of science topteam HTSM AWTI advisory committee government An exciting and brave new world…

  2. Citrate synthesis of Nanomaterials

  3. nano-particles synthesis SEM: nano particles after sintering

  4. Nano in products (smart textile)

  5. Impact of nanotechnology ……………

  6. Medicine with nano-particles

  7. Imaging with quantum nanodots CdSe/ZnS Nanocrystal Quantum confinement

  8. Deterministic encapsulation & fusion Chip 25x25 µ m and drop generator type with expanding channel 500x slow (300x slow) E.W.M. Kemna et al., Lab Chip, (2012), 12(16), 2881-2887.

  9. Nanopill for earlier diagnostic Albert van den Berg Nano-wires

  10. NanoMed Diagnostic Early detection of cancer in urine Biomarker panels hmDNA: Cervical cancer, Lung cancer, Bladder cancer, Colon cancer

  11. Building blocks for new functionalities superconductor metal half-metal semi-conductor isolator YBa 2 Cu 3 O 7 SrRuO 3 LaCaMnO PrBa 2 Cu 3 O 7 BaTiO 3 diamagnetism ferromagnetic ferroelectric

  12. Building with atoms Atomic level control enables design of complex functional materials G. Rijnders & DB Nature 433 , 369 – 370

  13. Building with atoms: artificial materials Growth Growth Direction Direction 2 nm 2 nm

  14. Earlier diagnostics: nanonose

  15. Earlier diagnostics: nanonose

  16. Human avatars to prevent and cure diseases HEALTH EU sustainable healthcare human avatars internet of healthcare personalized preventive smart behavioral therapies & drugs healthcare aging engineering

  17. Internet of Things

  18. Energy for 1 Google search: 2 min of 9 watt LED lamp

  19. BlueGene/L rat CPU 90 TeraFlops 80 TF Memory 7 TeraBytes 8 TB

  20. BlueGene/L rat Power 300 MWatt 50 mWatt 25 m 3 6 cm 3 Volume

  21. Nanoscale programmable architectures

  22. Need for complex (oxide) materials (that learn) 0.02 Au/Ti Ti/PCMO/SRO/STO/Si 2 50x50 µ m PCMO HRS 0.00 Current(A) I/V SrRuO 3 -0.02 SrTiO 3 LRS Si -0.04 20 cycles -6 -4 -2 0 2 4 6 Voltage (V) RRAM Pr 0.6 Ca 0.4 MnO 3 grown at : 2J/cm 2 , 650 o C, 5x10 -5 mBar Muller PCMO: 100nm SRO: 60nm Au: 100nm, Ti: 16nm

  23. Collaboration in themes Societal Needs Scientific output • Commercialization • Generic Safe-by-design • Themes

  24. Facts and Figures Scientific output to date: • >1250 peer-reviewed publications • Impact factor citations >1.78 • 21%publications with IF > 10 • 230 PhD theses • At least 95 granted EU projects • 127 unique patents

  25. Facts and Figures Commercialization 24 start-ups benefitted from NNNL • 18 start-ups emerged from NNNL • 86 demonstrators were developed • Average Technology Readiness • Level (TRL) from 4.9 to 6.9 The patent-over-budget-filing ratio was 15 times higher than the average within the EU FP 7 programme

  26. Facts and Figures Safe-by-Design innovation Risk Analysis and Technology • Assessment (RATA) has been integrated with NanoNextNL, bringing responsible research and Safe-by-Design innovation into practice. The RATA research • theme participated in about 30 EU projects.

  27. Impact of nanotechnology Information Technology § Computers, Data Communication Materials and instruments § Health and medication § Energy and environment § Transport § Safety § Risk & Technology Assessment §

  28. Shaping the Future with nano inside

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