Participer aux futurs projets KET et multi

Paris, 08 Novembre 2012
Colloque "Technologies clés génériques : saisir les nouvelles
opportunités européennes pour la recherche et l’innovation"
Participer aux futurs projets KET
et multi-KET d’Horizon 2020
Thomas Skordas
Head of the Photonics Unit, DG CONNENT
European Commission
[email protected]
Towards a European
(Industrial) Strategy in KETs
Research &
Innovation
Regional
Cohesion
Policy
KETs
International
Trade
Education
& Skills
Venture Capital
& project bonds
State Aids
Public
Procurement
KETs
Implementation in Horizon 2020
Joint Undertakings
ENIAC JTI
Contractual PPPs
Factories of the Future, Energyefficient buildings, Photonics, Process
Industries
Support for:
•Individual KETs: technology-specific
and multidisciplinary research
•An integrated, multi-KETs approach
Activities:
Î Technological Research
Î Process & Product Demonstration
Î Competitive Manufacturing
Individual KETs
A large set of R&I Measures & Instruments
STREPs, IPs…
PPPs (JTIs,
Contractual PPPs)
SME instrument
Pilots & Demos
ERANET+
Networking
Instruments
PCP/PPI
Prizes
■ Disruptive and Roadmap based R&D
■ Pilot manufacturing lines; Large scale demonstration activities
■ Innovative SMEs: light touch open schemes; access to technology and support services
■ Innovation Support Actions: Inducement prizes; Pre-commercial procurement actions
& public procurement initiatives; Support to collaboration among and with innovation
clusters
■ Coordination with national programmes (e.g. through ERANET+)
■ Coordination and support actions: Education, training and skills development;
Standardization; International Cooperation; Outreach, …
■ …
A joint WP for Multi-KETs
Aim: cross-fertilisation of different KETs for the development of new
technologies, innovative products and services or new manufacturing
processes requiring multi-KET integration capabilities
Î enhance product competitiveness and impact
Î A joint work programme for cross-cutting
(Multi-)KETs
g
n
i
n
n! for different
activities providing generic KETs building
inblocks
o
g
i
e
it
application areas, including societalthchallenges
e b defin
in WP
l
l
i
t
WHAT: bring together different KETs
new technologies, innovative
s forKdeveloping
ET
e
r
a as for
lticontributing to solving societal challenges
processes and products, as well
e
u
W em
th2 (Pilots) actions?
HOW: Pillar 1 (RTD) and Pillar
f
o
Larger-scale pilot lines and demonstrator projects
• technology validation in an industrial environment to a complete & qualified system;
• providing innovative solutions to societal challenges
WHO: Strong private sector involvement; Inter-disciplinary KET teams;
Cooperation with Societal Challenges (EIPs; ETPs, etc.), EIT KICs, Structural Funds,
etc.
A joint WP for Multi-KETs
An example (1)
Silicon Photonics
at the cross-roads between micro-electronics, photonics and advanced manufacturing
Europe has key assets:
■Excellent R&D environment to support the building of a silicon photonics industry
■Key industrial players along the whole value chain
■CMOS foundries committed in More than Moore
Î R&I Action, including pilot line(s)?
Courtesy L. Fulbert, CEA-Leti
A joint WP for Multi-KETs
An example (2)
Advanced Materials for Photonics and Electronics Components
at the cross-roads between advanced materials, micro-electronics, nanotechnology,
photonics and advanced manufacturing
■
(Flexible / Organic) Electronics: Materials with improved
electrical performance, processability and stability for developing
highly performing components and flexible electronic devices
■
Efficient lasers and devices: Semiconductor or other material
lasers for higher efficiency or for currently inaccessible wavelengths
■
Lighting:
■
Courtesy Merck
–
Materials for OLED lighting with high efficacy, uniformity over
large areas, high brightness
–
Alternatives to the use of critical raw-materials for white high
quality LED (e.g. substituting rare earths)
Materials for multi-band photonic sensing devices (e.g.
alternatives to today’s bismuth tellurides) and precise design
and fabrication techniques (hundreds of nanometre-thin layer
structures) for MIR lasers and detectors
© Holst Centre / IMEC
Europe has key assets:
■
Key industrial players along materials and components
Î R&I Action?
© Polytec GmbH
Some Open Questions
■ [Except for JTIs] Same financial rules as in rest of H2020 Æ limited overheads …
■ PPPs - Long term commitment from private side
• Which forms of commitment? How to monitor commitment and performance?
■ Huge investments Æ which additional forms of support (financial engineering)?
• Links to Structural Funds / regional dimension?
• Links to the European Investment Bank and other sources of financing?
■ How far do we go to TRL? Up to 7 or 8? (Æ EP proposes support to focus on
"the pre-commercial and pre-competitive stage")
• Should we finance particular industrial pilot production lines? Where is the EU added
value? What about "open access" to manufacturing capabilities? Who should be the
"partners"? What role for SMEs? What should be the selection criteria?
■ For multi-KETs:
• Only Pillar 2 or Pillar 1 (R&D) too?
• Links and coordination with societal challenges (TBD)
Cohesion Policy 2014-2020:
Linking R&I to "Smart Specialisation"
Ex-ante Conditionality
For R&I: existence of a national or regional
R&I strategy for smart specialisation (RIS3):
http://ec.europa.eu/research/era/publication_en.cfm
Designed to assist EU regions
and EU Member States in
developing RIS3 strategies
http://s3platform.jrc.ec.europa.eu/home
Smart Specialisation Æ Strengthening R&I
■ … centres of competence, business R&I investment, technology
transfer, networking, clusters and open innovation in SMEs, …
■ Key Enabling Technologies: supporting research, pilot lines,
early product validation actions, advanced manufacturing
capabilities and first production
THANK YOU
FOR YOUR ATTENTION!