Appels H2020 NMBP - Nanotechnologies - Advanced Materials - (Biotech) - Production technologies - Pierre Fiasse NCP-Wallonie 28/09/2017 - NCP Wallonie
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Appels H2020 NMBP
- Nanotechnologies
- Advanced Materials
- (Biotech)
- Production technologies
Pierre Fiasse
NCP-Wallonie
28/09/2017
1
Prochains appels :
c’est demain
Appels connus
Deadlines : très proches
Consortia en préparation
Places limitées
15:17 2
H2020 - Timing 2018 Calls NMBP
Today 10 pages
Jan18
June17 Oct 17
Drafts Official Deadlines
Launch 23/01 1/03
27-10 2stage single stage
Project preparation
This draft has not been adopted or endorsed by the
European Commission. Any views expressed are the
Start preliminary views of the Commission services and may
asap ! not in any circumstances be regarded as stating an official
3
position of the Commission
H2020
Eléments Clés (Pilier 2 et 3)
Innovation
Transfert to industry : demonstrators, pilots
Industry = part of consortia
Project’s type
Horizon 2020 5-8 M€, 5 -15 partenaires
Tendance vers de plus gros projets sur les 3 derniers
appels
Tendance Industry 4.0
EU Commission
70 b€, 2014-2020
Top – Down / Bottom upInstruments existants
RIA (Research & Innovation Action) 100%
IA (Innovation Action) 70% (100% Non Profit)
CSA (Coordination & Support Action) 100%
5
DateStratégie H2020 - LEIT / Innovation
Innovation
Transférer résultats à l’industrie
Démonstrateurs – Scale-up – Pilotes
… Standardisation
Métrique : Technology Readiness Levels
• 1 – Basic Research
• 2 – Technology concept
• 3 – Proof of Concept
• 4 – Technology validation in laboratory
• 5 – Validation in relevant environment
• 6 – Demonstration in relevant environment
• 7 – Demonstration in operational environment
• 8 – System complete and qualified
15:17 • 9 – Deployment 6Projet RIA Projet IA
Briques Phase Demo /
technos labo/ proto Transfert
TRL 2-3 TRL 4-5 TRL 6-7
• Universités • Universités • Entreprises / Acteurs Sectoriels
• Centre Recherche • Centre Recherche • End-users /
• Entrepr. high-tech • Utilisateurs
Date 7Nouveautés 2018 ( à 2020)
Topics plus gros et moins nombreux (- 50%)
Open Innovation hub
Pilots
1 appel en Cascade + Lump Sum
DT-NMBP-20-2018 A digital 'plug and produce' online equipment platform for
manufacturing (IA)
Industry 4.0 : « Digitizing Industry »
(FoF + appels ICT )
8Thématiques NMBP
Open Innovation Hubs
Material characterisation and Computationnal modelling
Transforming European Industry
FoF - Factories of the Future
Medical Technology Innovations
Biotechnology
Industrial Sustainability
EeB – Energy efficient Buildings
Innovative Materials for renewable Energy
SPIRE – Sustainable Process Industry
Catalysing Circular Economy
Cultural heritage
Risk, regulatory, Governance
9Open Innovation Hubs
10Open Innovation Hubs
NMBP-01-2018: Open Innovation Hubs for Lightweight
IA
nano-enabled multifunctional materials and components € 7 - 15
Enable industry and users to develop, test and adopt new lightweight, high
performance, multifunctional, and environmentally friendly materials for high- 4→7
value composite components and structures
Hub – Facilities : available to industry for upscaling. Including design services,
testing, etc
Multifunctional : electrical, thermal, UV shielding. Transport, packaging, …
Excluded : Biobased materials and building sector
Impact :
15% improved industrial process parameters and 20% faster verification of
materials performance
20% improvement in industrial productivity, reliability, environmental performance,
durability, and reduction of life-cycle costs of these materials.
Indirect 15% reduction in energy consumption
HUB access to SMES : 20% increase
11Open Innovation Hubs
NMBP-02-2018: Open Innovation Hubs for Safety Testing of
Medical Technologies for Health
IA
€
upgrade or develop materials facilities and make available to industry and
7 - 15
interested parties services for the design, development, testing, safety 4→7
assessment, and upscaling of new/existing medical devices in compliance with
EU regulatory frameworks since the beginning of the development process.
… contribute to develop methodologies to accelerate and simplify the
subsequent pre-clinical and clinical testing
Quality control processes and tools must be validated to allow on-line quality
controls.
Medical devices should be demonstrated in relevant industrial environments
IMPACT
Faster assessment of new medical devices compliance with EU safety
regulations by Member States notifying bodies.
Cost effective, innovative, and safe
Reduced time to market, new market opportunities
12Open Innovation Hubs /
Material characterisation
IA NMBP-07-2018: Open Innovation Characterisation Hub €5
Efficiency of materials up-scaling and use in new products in European
manufacturing industries depends on advances in characterisation and testing
Create an open industry-driven characterisation hubs including all aspects of 4→6
novel multi-scale and multi-modal characterisation solutions
Impact :
Enable industry to translate industrial needs into characterisation workflows
Effective access of materials manufacturing companies to the know-how and
advanced tools.
Measurable reduction of costs for product design and time-to-market by
means of faster and cheaper evaluation of production process deviations.
+ Coordination action project
support and network all materials characterisation stakeholders €4
Support the hubs for the fast adoption of innovative tools for characterisation
CSA by industryCalls 2019-20 NMBP-03-2019: Open Innovation Hubs for nano-enabled surfaces and membranes NMBP-04-2020: Upscaling of bio-based nano-materials and solutions (IA) NMBP-05-2020: Upscaling of functional materials for building envelopes (IA) NMBP-06-2020: Upscaling of nano-pharmaceuticals production (IA) 15:17 - 14 -
Material characterisation and
Computationnal modelling
15Material characterisation and
Computationnal modelling
IA NMBP-09-2018: Accelerating the uptake of materials modelling software €4
Many modeling software (dvlp by Academic, SME ) exists. They are still not fully
(commercialy) exploited at industrial level 4→7
Provide industry-ready integrated, standardised, interoperable software solutions
(customer friendly)
Coupling and linking of models should allow reliable top-down and bottom up
design of new materials and processes for faster product development. Excluded
Impact :
Widening and upscaling of software of commercial companies into better,
faster, optimised materials modelling suites enlarging application possibilities
in all industry sectors.
16Calls 2019-20 NMBP-08-2019: Real-time nano-characterisation technologies (RIA) NMBP-10-2019: Translation of manufacturing problems into materials modelling (RIA) NMBP-11-2020: Open Innovation Materials Modelling Hub (IA) NMBP-12-2019: Sustainable Nano-Fabrication (CSA) 15:17 - 17 -
Risk and regulatory aspects & Governance
18Risk and regulatory aspects
RIA NMBP-13-2018: Risk Governance of nanotechnology €5
Transfer of Nanotech to applications : risk governance is required based on a clear
understanding of risk and of societal risk perception by all stakeholders. 5-6
Develop furher data and mngt tools for safety of nanomaterials for risk
assessment, hazard and exposure, human health and environment, and risk
mitigation
➔ high quality data for industry and regulators decision making
Plans for future scientific and regulatory research paying attention to social,
ethical and environmental aspects should be established
Mechanisms to monitor progress in several industrial sectors and to revise plans.
19Risk, regulatory, Governance
RIA NMBP-14-2018: Nanoinformatics: from materials models to predictive €6
toxicology and ecotoxicology
Development of a sustainable multi-scale modelling framework : predictively 4→6
linking of physico-chemical NM property models to NM functionality and hazard
(avoid animal testing)
Uptake and valid use of these tools and models, user-friendly interfaces
Targets : industry, regulators, and civil society
Impact :
Increased confidence in nanosafety predictive models through agreed standards,
harmonised standard operating procedures
20Calls 2019-20 NMBP-15-2019: Safe by design, from science to regulation: metrics and main sectors (RIA) NMBP-16-2020: Safe by design, from science to regulation: behaviour of multi- component nanomaterials (RIA) NMBP-17-2020: Regulatory science for medical technology products – INCO with US, Japan, but not exclusively (RIA) 15:17 - 21 -
Industrial Sustainability
Innovative Materials for renewable Energy
Circular Economy
SPIRE Sustainable Process Industry
EeB Energy efficient Buildings
22Industrial Sustainability
/
Innovative Materials for renewable Energy
LC-NMBP-30-2018: Materials for future highly performant electrified vehicle batteries
RIA
Li-Ion Batteries : flamable, energy density limits > need to develop new solutions € 6-8
Develop new or significantly improved materials and/or chemistries – beyond State of the Art
e.g. high voltage, nickel- or Li-rich cathode materials, Li-Silicon, Li-Sulphur, Li metal, metal-air,
new polymer or ceramic electrolytes, or any other technology
investigate phenomena and problems at the interfaces of the components of the battery cell
electrode systems (often not well understood). Investigate ageing processes
Study processability / during projects prototyping phase + modeling 3→5
+ Safety, LCA, recyclability, sustainability – circularity … future standardisation
Impact :
CO2 reduction, increase EU competitiveness/ reduction of EU dependance (Li)
Contribute to EU 2030 targets : Gravimetric energy density at cell level : 400-450 Wh/kg by
2030, power density beyond 700 W/kg.
Significantly reduced recharging times , cyclability : 5000 cycles for second life-usebatteries
by 2030
cost of the new solution to be competitive in the markets in 5-10 years and, by 2030, should be
below 75 €/kWh at cell level and below 150 €/kWh for a 100 kW reference system
23Calls 2019-20 NMBP-27-2019: Strengthening EU materials technologies for non-automotive battery storage (RIA) NMBP-29-2019: Materials for non-battery based energy storage (RIA) NMBP-32-2019: Smart materials, systems and structures for energy harvesting (RIA) NMBP-28-2020: Advanced materials for innovative multilayers for durable photovoltaics (IA) NMBP-31-2020: Materials for off shore energy (IA) 15:17 - 24 -
Industrial Sustainability
/
Catalysing Circular Economy
RIA NMBP-23-2018: Catalytic transformation of hydrocarbons € 5-7
Development of novel catalytic materials and routes for the valorisation of currently
unexploited light hydrocarbons resources, bio- or stranded gas for chemical and energy
production. 3→5
The proposal shall address at least one of the following:
Selective direct conversion of light hydrocarbon resources (C1-C4 alkanes) to mono-
olefins and/or butadiene, with improved performance (on energy/carbon bases) and
competitive costs compared to existing industrial processes.
Conversion of non-transportable gas resources to liquid hydrocarbons (not passing
through CO/H2 formation)
Novel energy-efficient and cost-competitive routes for the direct utilisation of light
alkanes in the production of high-value chemicals.
Assessment of environmental and safety issues and should involve industries in a
leadership role as well as validate the feasibility of the proposed route in industrial
relevant environments.
25Calls 2019-20 NMBP-24-2019: Photocatalytic synthesis (RIA) NMBP-25-2020: Materials and structures with intelligent recycling properties by design (RIA) 15:17 - 26 -
Industrial Sustainability
/ Sustainable Process Industry (SPIRE)
27EeB – Energy efficient Buildings
28Transforming European Industry
FoF - Factories of the Future
Medical Technology Innovations
Biotechnology
15:17 - 29 -Transforming European Industry
IA NMBP-20-2018: A digital 'plug and produce' online equipment platform for € 15 - 20
manufacturing
Accelerate digitisation of the manufacturing industry 5→7
Create online platform to facilitate B2B transactions and host associated services
in the form of digital product models allowing users to simulate (e.g. digitally test)
the capabilities of the equipment on offer
Cascading grant !
Lumpsum pilot !
30FoF – Factories of the Future
31Transforming European Industry
/
Medical Technology Innovations
IA € 4-6
NMBP-22-2018: Osteo-articular tissues regeneration
User-centred innovative and smart nanobiomaterials that will lead to a personalised 3→5
regeneration (/ self healing) of osteoarticular tissues (bones, cartilages, tendons,
joints).
At least one of the following technologies :
3D-bioprinting;
stem cells seeding, activation, functionalisation, and cell printing;
nanofunctionalisation;
3D-printable biophotopolymeration;
rapid prototyping technologies;
additive manufacturing by laser sintering, stereolithography, inkjet
techniques
32Calls 2019-20 NMBP-21-2020: Custom-made biological scaffolds for specific tissue regeneration and repair (RIA) DT-NMBP-23-2020: Next generation organ-on-chip (RIA) 15:17 - 33 -
Biotechs
34Transforming European Industry
/
Biotech
CSA BIOTEC-01-2018: Standardisation in Synthetic Biology €1
Aim : strengthen European leadership in future biotechnological research and
production via setting up a standardisation framework (not existing)
35Transforming European Industry
/
Biotech
BIOTEC-03-2018: Synthetic biology to expand diversity of nature's chemical
RIA production € 6-8
bioengineering of the genome of organisms (e.g. yeast, algae, bacteria) to be used in
industrial processes 3→5
To design and synthesis of naturally unavailable and efficient pathways for the
production of new complex and high value added chemicals for the pharmaceutical,
agricultural or material sectors.
Emerging synthetic biology techniques (engineering of large genomic regions,
synthetic regulation for the control of gene expression and gene editing, among
others) can be combined with knowledge of synthetic chemistry, systems biology and
bioinformatics.
Impact :
New approaches for the production of complex chemicals
Pathway design and validation for the production of at least two new compounds
that would be difficult to make exclusively by chemistry
Proved contribution to the standardisation of synthetic biology genetic parts and
gene clusters
36Transforming European Industry
/
Biotech
BIOTEC-04-2018: New biotechnologies for environmental remediation
RIA €5
Efficient and low cost remediation strategies using microorganisms by means of
bio-electromechanical systems or alternate systems that require minimum or zero 3→5
external energy or chemicals
Focus on hydrocarbons and their derivatives, metals, nutrients, antibiotics or
micropollutants
Solutions able to adress : multi-contaminant, complex contaminants, accelerated
remediation time (use of mixed microbial communities
Impact :
At least two high-value added compounds will be produced
A demonstration of the feasibility of scaling up the technology for field
testing
A demonstration of the benefits over standard physicochemical
remediation approaches, including energy efficiency
37Calls 2019-20 BIOTEC-02-2019: Boosting the efficiency of photosynthesis (RIA) BIOTEC-05-2019: Microorganism communities for plastics bio-degradation (RIA) BIOTEC-06-2020: Reprogrammed microorganisms for biological sensors (IA) BIOTEC-07-2020: Multi-omics for the optimisation of genotype-phenotype associations (RIA) 15:17 - 38 -
Cultural Heritage
2019: Innovative and affordable solutions for the preventive conservation of
cultural heritage (IA)
39Méthodologie NCP 15:17 - 40 -
Méthodologie/ Stratégie
de particpation
Information Identification Topic
Consortium Rédaction
Draft appel Rôle/ Chaine R&D
Wallons :
• 90% Partenaires
• 10% coordinateurs
Coaching /
Vers Consultants
- 41 -Méthodologie/ Stratégie
de participation
Information Identification Topic
Consortium Rédaction
Draft appel Rôle/ Chaine R&D
Wallons :
• 90% Partenaires Stratégie : trouver coordinateur 1er plan
• 10% coordinateurs
- 42 -Appels NMP
- Gds participants
- Taux succès
Message :
- taux de succès au dessus de la
moyenne EU
- Certains sont très performants en
coordination
- 43 -Méthodologie/ Stratégie
de participation
Information Identification Topic
Consortium Rédaction
Draft appel Rôle/ Chaine R&D
trouver coordinateur 1er plan
1° Votre réseau
- 44 -Méthodologie/ Stratégie
de participation
Information Identification Topic
Consortium Rédaction
Draft appel Rôle/ Chaine R&D
trouver coordinateur 1er plan
1° Votre réseau
2° Bases données projets EU
Cordis http://cordis.europa.eu/projects/home_en.html
Qlikview
- 45 -Méthodologie/ Stratégie
de participation
Information Identification Topic
Consortium Rédaction
Draft appel Rôle/ Chaine R&D
trouver coordinateur 1er plan
1° Votre réseau
2° Bases données projets EU
3° Brokerage Events & Infodays
- 46 -H2020 - Timing 2018 Calls
« brokerage » project networking events
PPP Infodays KETS Strasbourg
Today 4-5/10 17/10
Jan18
June17 Oct 17
Suschem 18/10
17/10
Drafts Official Deadlines
Launch 23/01 1/03
27-10 2stage single stage
Project preparation
Start NCP peut vous « représenter »
asap !
47Méthodologie/ Stratégie
de participation
Information Identification Topic
Consortium Rédaction
Draft appel Rôle/ Chaine R&D
trouver coordinateur 1er plan
1° Votre réseau
2° Bases données projets EU
3° Brokerage Events & Infodays
4° Recherches de partenaires
http://www.nmpteam.eu/ …
En collaboration avec l’ADRE! - 48 -Merci de votre attention
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