Nanosciences, Nanotechnology and Nanosystems. ICT department

Transcription

1 Nanosciences, Nanotechnology and Nanosystems ICT department

2 Content ANR overview Nanotechnology development 2

3 Organisation of the ANR 7 scientific departments : 1 department in charge of the non thematic programs ( white program, young researcher program, international programs, post-doc return, excellence chairs) = 50 % budget of the agency 6 thematic departments : Biology and health ICT Durable Energy and environment Ecosystems et sustainable development Engineering, Processes et Security Human and societal sciences 1 transverse department Partnership with industry and competitiveness 3

4 Competitive calls Favour the emergence of new concepts Non thematic calls Increase the research activity on economic and societal priorities Thematic calls Intensify the collaborations between research and industry Calls for academic/industry projects Develop international partnerships transnational calls 4

5 The Nanotechnology development program overview The internet of thingd / embedded systems Systems for energy, buildings and transportation Nano- Innov Systems for health, environment quality System Demonstrator Scientific progress Other thematic calls P2N non thematic Concept Integrative research coupling design & technology Scientific and Technologic Disciplinary know-how Nanosim. Nanofab. Nanocharac. GENCI RTB

6 Thematic programs concerned with Nanotechnology In programs of the ICT dept and other thematic departments Numeric infrastructures (INFRA) Design and simulation Contaminants and environments (includes metrology) Functional Materials and Innovative Processes (MatetPro) Biotechnologies (BIOTECS) Ecotechnologies (ECOTECH) Energy (PROGELEC) Innovating Societies: for societal, cultural and economic aspects ERANETS CHISTERA (long terms challenges in ICT) Euronanomed. SIINN (on nanotoxicology) 6

7 The different programmes dedicated to Nanosciences and Nanotechnology Infrastructure RTB: Program dedicated to a network of large cleanroom facilities (IEMN, LAAS, PTA, LPN, IEF, FEMTO-ST, CEA-LETI) PNANO/P3N/P2N Main program dedicated to nanotechnology Creation of innovative technological know-how Pluridisciplinary research Main themes: nanotechnology, nanosystems for electronics, photonics, biology, energy and environment NanoInnov/RT (in 2009 only): Integrative research System demonstrators Required deliverables: patents, demonstrator 7 7

8 National Map of the BTR Facilities The BTR network in 2010 Seven technological facilities (CEA-CNRS) m2 clean room (6000 CNRS-8000 CEA) ~2500 researchers 1400 papers 300 patents ~ 130 defended PhD s 180 projects ANR and 110 European projects This network is completed by proximity facilities Smaller centers (about 10x lower in size) Much more specialized 8

9 Context and strategic aspects of P2N Basic Research in Nanosciences : not in the P2N program => in the non thematic program of ANR International aspects Foreign partner allowed but not funded Different kinds of projects Fundamental research, Industrial research Experimental development (demonstrator near to market) 60% of projects with an industrial partner selected in % of industrial research or exp development selected in 2010 Objectives Participation of PME is encouraged. 15% of funding to industry 9

10 The main challenges to were addressed in the Nanotechnology and Nanosystems program (P2N) for Domains with high societal impact - Application of Nanotechnologies to eco-technologies - Nanotechnologies for biology, health and agro-food 2. Nano electronics - More Moore : only sub 22 nm - 3D heterogeneous integration, flexible electronics and optoelectronics, sensors, green IT, MEMS - New technological concepts 3. New emerging fields: Quantum engineering: Chemistry in confined media 4. Societal aspects - Mainly in other dedicated programs, some aspects in the nano program (life cycle) 10

11 Thematic priorities P2N 2011 THEME 1 : SYNTHESIS AND FABRICATION OF NANOMATERIALS (NANOWIRES, NANOTUBES, GRAPHENE, ) AND CHEMISTRY IN CONFINED MEDIA Nanowires, nanotubes, graphene Hybrid materials (metamaterials, organic/inorganic hybrids) and bio-inspired materials "Clean" fabrication processes Relationship between composition and texture at the nanoscale and the physical properties Instrumentation for nanocharacterization of materials, simulation of material fabrication Chemistry in confined media and in particular the impact of nanomaterials in chemical media THEME 2 : NANOELECTRONICS INCLUDING MORE MOORE AND BEYOND CMOS AND QUANTUM ENGINEERING Technologies and architectures of devices for the nm nodes and below Stress engineering and high electronic mobility devices Alternative architectures, 3D architectures, multi-grid, bio-inspired architectures Devices for advanced memory Devices and systems using quantum properties of matter (entanglement, coherence ) New types of switches Instrumentation for device characterization and multiphysics/multiscale simulation of devices 11

12 Thematic priorities P2N 2011 THEME 3 : NANODEVICES AND NANOSYSTEMS ALLOWING HETEROGENEOUS INTEGRATION OF New sensors, transducers and actuators NEW MULTIPHYSICS FUNCTIONALITIES Optical high-rate communications inter and intra chips 3D integration and thermal management Functionalities based on photonic bandgap, plasmonics, phononics for IR, THz, RF Functionalities based on organic and bio-inspired materials Functionalities on flexible and textile materials Instrumentation for micro-nano-system characterization and multiphysics/multiscale simulation of micro-nano-systems THEME 4 : NANOTECHNOLOGIES AND NANOSYSTEMS FOR HEALTH, BIOLOGY AND AGRO- Contribution of nanotechnologies to FOOD Genomics, proteomics, metabolomics in particular on individual cells Theranostics Regenerative medicine and chirurgic gesture assistance Related aspects to instrumentation for health and biology in particular: Micro-nanofluidics, surface and particle functionnalization, interfacing the living Multiparameter lab-on chip development Specific contributions of the nanotechnologies in agro-food in the perspective of ecological print reduction and within a responsible and mastered way. 12

13 Thematic priorities P2N 2011 THEME 5 : NANOTECHNOLOGIES AND NANOSYSTEMS FOR SUSTAINABLE DEVELOPMENT INCLUDING GREEN TECHNOLOGIES, THE DOMAIN OF ENERGY AND THE CONTROL OF RISKS Materials for energy production Microsources of energy (micro-batteries, photovoltaic, energy harvesting) Nanodevices for energy storage Nanosensors/actuators and related networks for environment Nanostructured devices for the conversion and management of energy in particular with low losses The development of active nanostructures allowing interaction with the environment The control of risks and the life cycle analysis of nanoparticles 13