Roadmapping for the Micro-Nano-Production community in Europe Speaker: Dr. Udo Gommel Brussels, September 8 th 2010
Micro- and Nanomanufacturing approach from Technology to Application Displays Automotive Electronics Textiles & Clothes Aerospace Micro - and NanoManufacturing Technology Equipment Nanomedicine Materials Source: Süss MicroTec, Jenoptik, Kugler Präzisionsschleifen, Trumpf Lasertechnik Process Technology Roadmapping Survey Actors Markus Dickerhof (KIT) Andreas Schmidt (KIT) Bertrand Fillon (CEA) Pierre Juillet (CEA) Pieter Bolt (TNO Science & Industry) Christian Woegerer (Profactor) Svetan Ratchev (University of Nottingham) Joel Segal (University of Nottingham) Konstantin Konrad (Fraunhofer-IPA) Chris Matthews (Cardiff University)
MINAM Organisation - Retrospection 15% 2% 52% About 600 Members in 27 European Countries Industrial Management Group IMG-President (Paolo Matteazzi) IMG- Secretariat Expert - Groups Nanomaterials Micro and Nanosurfaces Microcomponents System Integration 31% MINAM Micro/ Nano manufacturing Research Industry Association EU commision Operational Support Group OSG- Secretariat IMG - tasks: Spokesman for industry Strategic trends and direction Power of decision Short ways to industrial policy-makers Tasks of MINAM-Expert-Groups: Support for representatives of the community (e.g. Surveys, SRA, Roadmap, Vision Paper) Implementation in plans, events, workshops Participation in research projects, trainings, Issues arising from science Acting as a cross-platform to tackle information from other platforms OSG - tasks: Implementation of Corporate Strategy Realising of decisions and guidelines Drafting of technical contents Bundling know-how /compet. Preparation and support of databases, knowledge-tools...
MINAM Roadmapping Approach Bridging the Gap between Application Requirements and Technological Capabilities Application related aspects (Markets, Applications, MN- Functional elements) linked with Technology related aspects (production technologies, production processes, materials, system integration aspects) Market / Application Pull + Technology Push Questions Application and technology development properly synchronized Where are (technological, economical) bottlenecks?
Distribution of MINAM Survey 11-2008 / 01-2009 Participant /Country 232 participants from 28 countries More than 120 from industry More than 15.000 single datasets
Aim and setting of the roadmap Key objectives Availability appropriate technologies at the right time Maturity of processes robust, scalable processes Scalability further development of new technologies towards large scale production capacities
Excerpt of Technology Aspects: NanoManufacturing -Technologies 35% 30% 25% 20% 15% 10% 5% 0% 2016 2012 2009 Year
Relations between Applications, Functional elements and NanoManufacturing Technologies 14 12 10 8 6 4 2 0 Nanosurface Creation Medical devices Energy Medical devices Functional surface Energy Microactuator Identified! In total 203 relations for specific applications 10 8 6 4 2 0 Medical devices Sensor 8 7 6 5 4 3 2 1 0 Local Surface Modification Medical devices Functional surface Life sciences, Pharma & Diagnostics Micro_fluidic Element Energy MicroOptic Medical devicesmedical devicesmedical devices Energy Safety and Security Energy Functional surface Nanostructuring Micro_fluidic Element Medical devices Sensor Medical devices Microactuator MicroOptic Sensor
12 application areas, each represented by time bar For example: ENERGY - Technology Roadmap 2009 Thin film technologies: - Generation II PV cells based on thin films (BIPV) -Thin film Li batteries. -Powering mobile systems 2012 Ceramic engineering: µ PIM, nanomembranes - Microreactors -- Thermoelectric Devices. - µ fuel cells - Catalyst integrating Systems/ -- Dye and organic solar Cells Polymer based nanocomposites engineering. -Solar concentrator - Power batteries for hybrid vehicle 2016 Nanoobjects integration In surface engineering (Nanotubes, nanowires, nanodots:) - Generation III PV cells. -Up and down solar Conversion -- advanced thermoelectric Devices. - Energy harvesting Heterogeneous assembling. -Polymer based fuel cells. 2020+ Nanoobject integration in bulk materials & assembling. -Hydrogen storage. -High temperature electrolyser. - Solide Oxide Fuel Cells for stationary applications Integration of very high performance environmental Barriers -High temperature turbine blades
For example: ENVIRONMENT - Technology Roadmap 2016 2009 - Photokatalyses with Nanoparticles for enviromental use - purifictation of water (lab plants) - CO2 free production, Materials for CO2 reduction and adsorpti, basis research, - materials and plants for nanophotocatalyses and adsorption 2012 - Manufacturing of Nanocomponents and materials for Oxidation - Sensors - Catalysts - Membrane - Surface treatment (phys./chem.) - Fuel_Cell - Materials for CCP and CCS, Catalyist for CO2 Elimination - Pilot scale - CO2 Elimination - CCP, CCS and CO2 free production of H2 - Sensors - Catalysts - Membrane - Surface treatment (phys./chem.) - Fuel_Cell - Materials for CCP and CCS, Catalyist for CO2 Elimination - Industrial scale
MINAM 2.0: NEXT ROADMAP UPDATE FOR THE MN PRODUCTION COMMUNITY AND ITS CUSTOMERS - STARTING NOV 2010 ROADMAP METHODOLOGY & ASSIGNMENT TO OTHER COMMUNITIES Enhancement of the MINAM Top down - Bottom up Roadmapping approach ROADMAP 2012-2017 Preparation and proceeding of follow-up surveys Analysis of results Detailed report on developments in NMP for next 10 years PROVIDING SUPPORT TO THE PREPARATION OF FP8 PROGRAMME
MINAM 2.0 Partners 9 Project partners: KIT, CEA, FhG-IPA, TNO, Uni Nottingham, Profactor TNO, 4M Assoc., mst bw, Plastipolis LOI from: EPoSS, Nanomedicine, Manufuture, Micronarc, SusChem, Veneto nanotech, FlexNet, PolyNet, Plastival, PVT, Clusterland, ProPlast, Reseau Plasturgie, EUMINAfab, IVAM, VDMA
Key objectives MINAM 2.0 Objective 1 Ensure information flow among industry about regional/national clusters and European Commission -- faster and improved Objective 2 Leadership in the development of a joint research agenda linking major European industrial sectors with specific focus on accelerated technology uptake and commercialization Objective 3 Provision of sustainable business model ; horizontal and vertical information exchange, linking regional communities
Interposition MINAM 2.0 Plants EuMat EPoSS Manufutures NanoFutures ECTP ENIAC PHOTONICS21 TPWind Technological Requirements Sectoral/ Application Requirements FOOD SusChem EUROP Eurpean Commission Nano; Materials; Production programme International /national networking programmes EUREKA MINAM 2.0 The European Micromanufacturing Community Regional Cluster (NL, NL, D, D, I, I, F, F, A, A, UK, UK, CH, CH ) IntergramPlus ERAnet NMT horizontal and vertical information exchange linking regional communities
Invitation to Brainstorming session with the MINAM group for future developments Discuss with us next steps to MINAM community next steps and interactions with other CSAs; Nanofutures, interaction with Manufuture,... Thanks for attention! Udo Gommel MINAM@ipa.fraunhofer.de