Aarhus 19-21 June 2012 Development of micro and nano technologies roadmap for 2020 Lambertini Vito.
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Transcript of Aarhus 19-21 June 2012 Development of micro and nano technologies roadmap for 2020 Lambertini Vito.
Aarhus 19-21 June 2012
Development of micro and nano technologies roadmap for 2020
NANOfuturesassociation
Lambertini Vito
Aarhus 19-21 June 2012
NANOfutures European Technology Innovation Platform
Roadmapping ApproachRoadmapping Approach
Roadmap Overview Roadmap Overview
ConclusionConclusion
Roadmap for grand challengesRoadmap for grand challenges
Roadmap for Applications & Products
Roadmap for Applications & Products
Aarhus 19-21 June 2012
NANOfutures European Technology Innovation Platform
Roadmapping ApproachRoadmapping Approach
Roadmap Overview Roadmap Overview
ConclusionConclusion
Roadmap for Applications & Products
Roadmap for Applications & Products
Roadmap for grand challengesRoadmap for grand challenges
Aarhus 19-21 June 2012
Roadmapping ApproachRoadmapping Approach
If effective alignment of private and public efforts over promising areas is guaranteed from short to long term, European Nanotechnology is expected to give an outstanding contribution to major Societal challenges of our time:
Health, demographic change and wellbeing;
Food security, sustainable agriculture, marine and maritime research
and the bio-economy;
Secure, clean and efficient energy;
Smart, green and integrated transport;
Climate action, resource efficiency and raw materials;
Inclusive, innovative and secure societies.
NANOfutures - Grand Challenges
Aarhus 19-21 June 2012
INDUSTRIALIZATIONINDUSTRIALIZATION
Tech.Transfer and Innovation FinancingTech.Transfer and Innovation Financing
NETWORKINGNETWORKING
SKILLS AND EDUCATIONSKILLS AND EDUCATION
RESEARCH and TECHNOLOGYRESEARCH and TECHNOLOGY
COMMUNICATIONCOMMUNICATION
SAFETY RESEARCHSAFETY RESEARCH
INDUSTRIAL SAFETYINDUSTRIAL SAFETY
STANDARDIZATIONSTANDARDIZATION
REGULATIONREGULATION
11 ETPs11 ETPs
10 Horizontal working groups
10 Horizontal working groupsRoadmapping ApproachRoadmapping Approach
NANOfutures – Industrial sectors
Aarhus 19-21 June 2012
NANOfutures European Technology Innovation Platform
Roadmapping ApproachRoadmapping Approach
Roadmap Overview Roadmap Overview
ConclusionConclusion
Roadmap for Applications & Products
Roadmap for Applications & Products
Roadmap for grand challengesRoadmap for grand challenges
Aarhus 19-21 June 2012
Roadmap Overview
Lightweight multifunctional materials and sustainable composites
Integration of nano
Structured Surfaces
Functional Fluids
Alloys Ceramics, Intermetallics
Infr
ast
ruct
ure
fo
r M
ulti
sca
le M
od
elli
ng
an
d
Test
ing
Nano-enabled surfaces for multi-sectorial applications
Nano-Micro scale manufacturing
Safety & Sustainability
Nano-enabled surfaces
Nano structures and composites
Value Chains
Cro
ss S
ect
oria
l No
n-T
ech
no
log
ica
l Act
ion
s
Design, Modelling and Testing of materials
Key Nodes
Aarhus 19-21 June 2012
Roadmap OverviewFINAL
PRODUCTWASTE
TREATMENTMODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
ACTIONACTION
ACTION
MARKET DEFINITIONT
RL
7-8
TR
L 5
-6T
RL
1-4
NON-TECH ACTIONS NON-TECH
ACTIONS
NON-TECH ACTIONS
NON-TECH ACTIONS to complete the
definition of the market
LEGENDA:SHORT TERM
MEDIUM TERM
LONG TERM
Aarhus 19-21 June 2012
NON- TECHNOLOGICAL CROSS- CUTTING ACTIONS FOR ALL VALUE CHAINS
TARGETS
• Smart Sustainable Growth• effective technology transfer and innovation financing
actions, boosting private investment and industrial uptake
• must address the Grand Challenges of our time
• Ensure high levels of safety• Research into effects on human health and
environment, life-cycle assessment, test methods /equipment
• Further review & effective implementation of standardization and regulation
• Consolidate Public Trust• Dialogue and Education• Effective Communication
SAFETY REGULATION
ENVIRONMENTSTANDARDIZATION TECH TRANSFER & INNOVATION FINANCING
COMMUNICATION & NETWORKING
EDUCATION
Aarhus 19-21 June 2012
MODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
SAFETY
ENVIRONMENT
Understand the hazardous nature of
the materialAssess and control
potential releases to workplace air during manufacturing and
life cycle
Adopt safety by design into
material selection
Assess and control potential release to workplace air during
component manufacturing and
assembly
Control potential release during professional
and/or consumer use.
Control potential worker
exposure during
recycling & disposal
FINAL PRODUCT
WASTE TREATMENT
Characterise and control potential
release to the environment
(air/soil/water) from the
developed processes
Apply technologies/techniques
that maximise the extent to which the
material is incorporated into the product in order to i) maximise functionality and ii)
minimise releases to the environment
Understand fate and behaviour of these materials in the environment
Apply standards/SOPs for
safe disposal of these
materials
Recommend safety advice to professional and/or consumer users
Characterise and control potential
release to the environment
(mainly water) from the
developed processes
NON- TECHNOLOGICAL CROSS- CUTTING ACTIONS: DETAILS/1
STANDARDIZATION Apply standards/SOPs for safe handling of these materials , considering the whole life cycle
REGULATION
Apply standards/SOPs for safe handling
of these materials
Appropriate level of regulation to
address EHS issues whilst supporting
innovation
Appropriate level of regulation to address
EHS issues whilst supporting innovation
Appropriate nomenclature
for nano
Aarhus 19-21 June 2012
Communication of knowledge regarding hazardous nature of the material down the supply chain.
More information flow and dialogue between industry and educational expertsInitiate dialogue with the public (with industry, regulators etc. ) about future
potential benefits about nanotechnology. Develop tools to assess societal impacts of nanoproducts .
Communication and clustering actions across different sectors and between Academia and Industry, Infrastructure facilities and Society.
Better Regional/National Funding Agencies Coordination
MODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
COMMUNICATION & NETWORKING
FINAL PRODUCT
WASTE TREATMENT
Effective communication to the EU society on
the social and economic impact.
To foster more dialogue among
policy makers about best practices in
nano
Extra EU trans-national cooperation& Networking
NON- TECHNOLOGICAL CROSS- CUTTING ACTIONS: DETAILS/2
TECH TRANSFER & INNOVATION FINANCING
Actions for the benefit of SMEsInvolvement of investors
and Investment readiness programmes for SMEs
ICT and TT commercialization
tools
Cross-sectorial TT programme
TT from academia to industry.
New business strategies and business models for nano-enabled products
Support infrastructure for TT service (eco-system of labs and skilled persons)
Aarhus 19-21 June 2012
VC6 Integration of
nano
Direct manufacturing
Finished net shaped
Semi finished
Catalysis and
filtration
3D structures for nanoelectronics &
photonics
VC3 Structured Surfaces
Energy (PV batteries,
harvesting)
ICT (Nanoelectronics, photonics, sensors)
Transportation
Construction and buildings
Textile and passive funct.
Medicine (Bio-sensors,
Lab on a Chip, regen.
medicine)
Cross Sectorial Non-Technological Actions
VC7 Infrastructure for Multiscale Modelling and
Testing Complex Adaptive
Systems for complete product
design
VC2 - Nano-enabled
surfaces for multi-sectorial applications
Plasma and Vacuum
Engineered Surfaces
Wet Engineered Surfaces
VC4Alloys
Ceramics, Intermetallics
Energy Harvesting & Conversion
ICT Functional Packaging
VC5 Functional
Fluids
Construction and building
Transportation
Medicine &Pharma
Consumer Products
(Cosmetics & Household Cleaning)
ICT (Thermal & Electrical
Management)
ICT
VC1 - Lightweight multifunctional materials
and sustainable composites
Textile and sport sector
Energy
Packaging
Transportation
Construction and buildings
Roadmap Overview
Aarhus 19-21 June 2012
Advanced smart multifunctional
foams
VC1c - LIGHTWEIGHT MULTIFUNCTIONAL MATERIALS and SUSTAINABLE COMPOSITES for TRANSPORTATION
LEGENDA:
SHORT TERM
MEDIUM TERM
LONG TERM
NON-TECH ACTIONS
specific to the value chain
Multilayer materialsThin glass
Metal-foam sandwich panel
structuresCeramic parts
Metal foams based panels
Ceramic partsMultilayer materialsThin glass
Development of cost effective
industrial scale technologies for
synthesis and technologies for
dispersion/exfoliation (extrusion)
Integration of novel materials into existing
production and assembly lines
Development of methods for
functionalization during synthesis to reduce
production steps and alignment of nano-
objects
Design of multifunctional
materials tailored for
different needs
Monitoring of materials structure,
properties and functionalities
Characterization and monitoring
of materials structure,
properties and functionalities
Understanding of relationships
morphology/functionality/triggers
of multifunctional
polymers
Adaptation/modification of novel technologies for production on industrial
scale smart polymer; implementation of these materials into different
devices
Low cost and large scale
functionalized composites
FINAL PRODUCT
WASTE TREATMENT
MODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
TR
L 7
-8T
RL
5-6
TR
L 1
-4
SAFETYAssess and control potential
human exposure during assembly and finishing of
products
SAFETYCharacterise and control
potential release of nanoparticles during waste
treatment and reprocessing. Understand potential
environmental hazards resulting from recycling
processes
LCA and ELV
Thin glass/Plastic glazingComposites
with added functionality
Aarhus 19-21 June 2012
VC1f - LIGHTWEIGHT MULTIFUNCTIONAL MATERIALS and SUSTAINABLE COMPOSITES for CONSTRUCTION & BUILDING
LEGENDA:
SHORT TERM
MEDIUM TERM
LONG TERM
FINAL PRODUCT
WASTE TREATMENT
MODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
TR
L 7
-8T
RL
5-6
TR
L 1
-4
NON-TECH ACTIONS
specific to the value chain
Composites: development of
materials and construction
partsMultilayer
barrier materials
Development of methods for
functionalization during synthesis to reduce production
steps and alignment of nano-
objects
Composites with added
functionalityDesigning of multifunctional materials tailored for
different needs
Monitoring of materials structure,
properties and functionalities
Multilayer components
Integration of novel materials into existing
production and assembly lines
Characterization and
monitoring of mateials
structure, properties and functionalities
SAFETYAssess and control potential
human exposure during assembly and finishing of
products
SAFETYCharacterise and control
potential release of nanoparticles during waste
treatment and reprocessing. Understand potential
environmental hazards resulting from recycling
processes
Low cost and large scale
functionalized compositesAdvanced
smart multifunctional
foams and multilayer
components
Adaptation/modification of novel technologies for production on industrial scale smart polymer and
concrete
Adaptation of machines and
process’ parameters to
maintain functionalities
Materials modelling,
thermal simulation and process design
LCA of the process
and integration of wastes in the LCA
analysis
Aarhus 19-21 June 2012
ROADMAPS for ALL VALUE CHAINS and RELATED MARKETS
Aarhus 19-21 June 2012
NANOfutures European Technology Innovation Platform
Roadmapping ApproachRoadmapping Approach
Roadmap Overview Roadmap Overview
ConclusionConclusion
Roadmap for Applications & Products
Roadmap for Applications & Products
Roadmap for grand challengesRoadmap for grand challenges
Aarhus 19-21 June 2012
PRODUCTS AND APPLICATIONS FOR TRANSPORTATION
Enabling technologies: nanocomposites, nano-enabled thin glasses, metal-foams sandwitch panels, ceramic structures, nanoporous structures, coatings, structured surfaces and functional fluids tuned for transportation
VC1,VC2,VC3,VC4,VC5,VC6,VC7
Long time, low cost fuel cell membranes and batteries; Low friction engines & lubricants; Smart glass surfaces; Lightweight metal or plastic sheet for chassis; efficient tires, wiper
blades, seals; sustainable lightings and heating systems; smart sensors and radar systems
ETPsAddressing Grand Challenges: Smart, green and integrated transport; Climate action, resource efficiency and raw
materials.
Related actions
Products
Involved Value Chains
Advanced smart multifunctional
foams LEGENDA:
SHORT TERM
MEDIUM TERM
LONG TERM
NON-TECH ACTIONS
specific to the value chain
Multilayer materialsThin glass
Metal-foam sandwich panel
structuresCeramic parts
Thin glass
Metal foams based panels
Ceramic partsMultilayer materialsThin glass
Development of cost effective
industrial scale technologies for
synthesis and technologies for
dispersion/exfoliation (extrusion)
Integration of novel materials into existing
production and assembly lines
Development of methods for
functionalization during synthesis to reduce
production steps and alignment of nano-
objects
Design of multifunctional
materials tailored for
different needs
Monitoring of materials structure,
properties and functionalities
Characterization and monitoring
of materials structure,
properties and functionalities
Understanding of relationships morphology/functionality/trigge
rs of multifunctional
polymers
Adaptation/modification of novel technologies for production on industrial
scale smart polymer; implementation of these materials into different
devices
Composites with added
functionality
Low cost and large scale
functionalized composites
FINAL PRODUCT
WASTE TREATMENT
MODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
TR
L 7-
8T
RL
5-6
TR
L 1-
4
SAFETYAssess and control potential
human exposure during assembly and finishing of
products
SAFETYCharacterise and control
potential release of nanoparticles during waste
treatment and reprocessing. Understand potential
environmental hazards resulting from recycling
processes
SAFETYAssess and control potential
human exposure during manufacture
LEGENDA:
SHORT TERM
MEDIUM TERM
LONG TERM
NON-TECH ACTIONS
specific to the value chain
FINAL PRODUCT
WASTE TREATMENT
MODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
TR
L 7
-8T
RL
5-6
TR
L 1
-4
Liquid-based deposition processes of nano-enabled thin films on rigid organic
and metallic substrates
Integration of novel nano-enabled surfaces on
common rigid engineering materials into existing
industrial production and assembly lines
Process upscaling for deposition on rigid
organic and metallic sheet materials
Unraveling relationships processing /
morphology / functionality of nano-
enabled thin films with complex architectures
Implementation of novel technologies for
production of nano-enabled surfaces with
dedicated functionalities on flexible substrates into
novel devicesProcess
development for deposition on semi-flexible and flexible substrate materials
Design and modeling strategies for
improved interface adhesion with
substrate and within nano-enabled layers High speed
characterization of nano-enabled
thin films on rigid substrates
and combinatorial
approaches
SAFETYAssess and control potential
human exposure during assembly and finishing of
products SAFETYCharacterise and control
potential release of nanoparticles during waste treatment and reprocessing
SAFETYAssess and control potential
human exposure during manufacture
LEGENDA:
SHORT TERM
MEDIUM TERM
LONG TERM
FINAL PRODUCT
WASTE TREATMENT
MODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
NON-TECH ACTIONS
specific to the value chain
Cost effective industrial scale
technologies for filler synthesis and
technologies for dispersion
Integration of novel materials in existing production and assembly lines (blending,
inkjet, R2R)
Adaptation of existing tools for direct use or
integration in devices of novel multi-fluids
Monitoring of materials structure,
properties and functionalities
Development of technology able to
produce in reproducible way
complex nanomaterials
Design of multifunctional
materials tailored for
different needs
Modeling of nanoparticles
behavior in active systems
through re-engineering of actual systems
Adaptation of devices
integration smart fluids
Monitoring of
material behavior
in useAnalysis and process control of dispersion of nanofillers into
liquid
TR
L 7
-8T
RL
5-6
TR
L 1
-4
SAFETYFor fuel-based products, characterise and control potential release to the environment from use.Characterise and control
potential release of nanoparticles during disposal and waste
treatment
Aarhus 19-21 June 2012
PRODUCTS AND APPLICATIONS FOR ENERGY
Multifunctional and smart polymer nanocomposites, multilayer structures, porous structures, metal alloy, ceramics, intermetallics, nanostructured surfaces, coatings and paints for energy generation, harversting, storage and distribution/management needs (high barrier properties for energy cell, enhanced gas absorption and trapping, efficient energy transmission, magnetic storage, catalytic structures and coatings, power electronics) .
Involved Value Chains: VC1, VC2, VC3, VC4, VC6 and VC7
Efficient catalysis & carbon capture and storage -CCS (pollution control in fuels, in
geothermal etc.)
ETPs
*Source: http://ec.europa.eu/energy/energy2020/roadmap/doc/com_2011_8852_en.pdf**Source: http://www.iea.org/IEAEnergy/Issue2_Renewables.pdf
Addressing Grand Challenges: Secure, clean and efficient energy; Smart, green and integrated transport; Climate action, resource efficiency and raw materials;
Advanced Solar cells (Including organic &
hybrid PV)
Storage technologies (hybrid batteries, gas, hydrogen). Power electronics for
industrial applications and engine management)
solid state lighting (LED, OLED, PLED)
Products
Target Market Size :- In 2030, at least 30% shares of renewables in gross final energy consumption*-In 2035 renewables, including hydro, produce roughly 15000 terawatthours(TWh) in the world**
Aarhus 19-21 June 2012
Applications & Products
TRANSPORTATION
ENERGY
CONSTRUCTION & BUILDINGS
TEXTILE AND SPORT SECTORS
ICT
PACKAGING
MEDICINE & PHARMA
CONSUMER GOODS
Aarhus 19-21 June 2012
NANOfutures European Technology Innovation Platform
Roadmapping ApproachRoadmapping Approach
Roadmap Overview Roadmap Overview
ConclusionConclusion
Roadmap for Applications & Products
Roadmap for Applications & Products
Roadmap for grand challengesRoadmap for grand challenges
Aarhus 19-21 June 2012
Societal ChallengesCross KET
Value chains
Technologiocal and non-techn
actions
Applications & Products
FROM SOCIETAL CHALLNGES to PRODUCTS
Health, demographic change
and wellbeing;
Food security, sustainable
agriculture, marine and
maritime research;
Clean and efficient energy;
Green transport;
Climate action, resource
efficiency and raw materials;
Inclusive, innovative and secure
societies. Direct manufacturing
Medicine &Pharma
Consumer Products (Cosmetics &
Household Cleaning)
ICT
Textile and sport sector
Energy
Packaging
Transportation
Construction and buildings
VC6 Integration of nano
VC3 Structured Surfaces
VC7 Infrastructure for Multiscale Modelling
and Testing
VC2 Nano-enabled surfaces for multi-
sectorial applications
VC4 - Alloys Ceramics, Intermetallics
VC5 Functional Fluids
VC1 Lightweight multifunctional mat.
and sustainable composites
Advanced smart multifunctional
foams LEGENDA:
SHORT TERM
MEDIUM TERM
LONG TERM
NON-TECH ACTIONS
specific to the value chain
Multilayer materialsThin glass
Metal-foam sandwich panel
structuresCeramic parts
Thin glass
Metal foams based panels
Ceramic partsMultilayer materialsThin glass
Development of cost effective
industrial scale technologies for
synthesis and technologies for
dispersion/exfoliation (extrusion)
Integration of novel materials into existing
production and assembly lines
Development of methods for
functionalization during synthesis to reduce
production steps and alignment of nano-
objects
Design of multifunctional
materials tailored for
different needs
Monitoring of materials structure,
properties and functionalities
Characterization and monitoring
of materials structure,
properties and functionalities
Understanding of relationships morphology/functionality/trigge
rs of multifunctional
polymers
Adaptation/modification of novel technologies for production on industrial
scale smart polymer; implementation of these materials into different
devices
Composites with added
functionality
Low cost and large scale
functionalized composites
FINAL PRODUCT
WASTE TREATMENT
MODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
TR
L 7-
8T
RL
5-6
TR
L 1-
4
SAFETYAssess and control potential
human exposure during assembly and finishing of
products
SAFETYCharacterise and control
potential release of nanoparticles during waste
treatment and reprocessing. Understand potential
environmental hazards resulting from recycling
processes
SAFETYAssess and control potential
human exposure during manufacture
LEGENDA:
SHORT TERM
MEDIUM TERM
LONG TERM
NON-TECH ACTIONS
specific to the value chain
FINAL PRODUCT
WASTE TREATMENT
MODELLINGMATERIALSTOOLS METROLOGY COMPONENTS ASSEMBLY
TR
L 7
-8T
RL
5-6
TR
L 1
-4
Integrated multilayer materials
Composites
Multilayer materials
Assembled multilayer materials
Control of nanolayer
interfaces and adhesion
Nano control of porous
structuring
Design methodologies
for foams production
Design methodologies for foams production
and joining technologies
Materials modelling,
thermal simulation and process design
Control of nanolayer
interfaces and adhesion
SAFETYCharacterise and control potential
release of nanoparticles during waste treatment and
reprocessing
Aarhus 19-21 June 2012
Smart, green and integrated transport;
Climate action, resource efficiency and raw materials.
Transport
Building & Construction
Energy
Packaging
VC1 Lightweight materials and sustainable composites for TRANSPORTATION
VC2, VC3, VC4, VC5, VC6, VC7 for TRANSPORTATION
VC1, VC2, VC3, VC5, VC6, VC7 for CONSTRUCTION
VC1, VC2, VC3, VC4, VC6, VC7 for ENERGY
…
Metal-foam sandwich panel
structures
Cost effective industrial scale synthesis and
dispersion of nano-objects
Integration of novel materials into existing production and
assembly lines
Human exposureCharacterise and control potential
release of nanoparticles during waste treatment and reprocessing.
Societal Challenges
Cross KET Value chains
Technologiocal and non-techn actions
Applications & Products
FROM SOCIETAL CHALLNGES to PRODUCTS
SAFETY
Multilayer materialsThin glass
Functionalization methods during
synthesis to reduce production steps
Design of multifunctional
materials tailored for different needs
Monitoring of materials structure, properties and functionalities
Characterization and monitoring of materials structure, properties
and functionalities
Understanding of relationships morphology/functionality/triggers
of multifunctional polymers
Smart polymer on industrial scale; implementation of these
materials into different devices Green and large scale functionalized composites
Common NON-TECH ACTIONS to all value chain
Aarhus 19-21 June 2012
NANOfutures European Technology Innovation Platform
Roadmapping ApproachRoadmapping Approach
Roadmap Overview Roadmap Overview
ConclusionConclusion
Roadmap for Applications & Products
Roadmap for Applications & Products
Roadmap for grand challengesRoadmap for grand challenges
Aarhus 19-21 June 2012
ConclusionConclusion
• The NANOfutures Integrated Research and Innovation Roadmap has been drafted, focusing on market-driven value chains and including also broad cross-cutting actions.
• The Roadmap has been circulated for further development (definition of expected budget, finalization of non-tech actions specific to the value chains) among ETPs, Working Groups and Key Node experts.
• The Final Roadmap will be released at the end of July, but it will be a living document!!