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Call for Nanotechnologies, Adv. Materials and Production
topics on nanotechnologies, advanced materials, production and support actions for the deployment of KETs. It includes contributions to cross-cutting KETs,
KETs for multiple applications, and KETs for applications in specific societal challenges or focus areas;
safety, outreach, structuring, business models and other innovation issues.
Call for Nanotechnologies, Adv. Materials and Production
Bridging the gap between nanotechnology res.and markets
Three of the key nano-enabled industrial value chains: •lightweight multifunctional materials and sustainable composites; •structured surfaces;•functional fluids.
Towards the deployment and market by: •scaling up laboratory experience to industrial scale•demonstrating the viability of a variety of manufacturing technologies.
Call for Nanotechnologies, Adv. Materials and Production
Bridging the gap between nanotechnology research and marketsNMP 1 - 2014: Open access pilot lines for cost-effective nanocomposites;
TRL 4-6, R&IA, SME addressed, Single-stageNMP 4 - 2014: High definition printing of multifunctional materials;TRL 4-6, IA , Single-stageNMP 5 - 2014: Industrial-scale production of nanomaterials for printing applications; TRL 4-6, IA , Single-stageNMP 2 - 2015: Integration of novel nanomaterials into existing production lines; TRL 5-7, IA NMP 3 - 2015: Manufacturing and control of nanoporous materials;
Call for Nanotechnologies, Adv. Materials and Production
Nanotechnology and Advanced Materials for more effective Healthcare
Potential of nanotechnologies and advanced materials to enable more effective therapies and diagnostics for important diseases.
(…) Following a successful proof-of-concept at the pre-clinical laboratory scale, the production technologies of the nanomedicines and nanomaterials have to be scaled-up to the pilot-scale, to provide production quantities that are sufficient for clinical testing. (…)
Call for Nanotechnologies, Adv. Materials and Production
Nanotechnology and Advanced Materials for low-carbon energy technologies and Energy Efficiency
Nanotechnologies and advanced materials as foundations of low-carbon energy technologies which in turn support the EU objectives to increase the use of renewable energy sources and to significantly improve energy efficiency.
Implementation the Materials Roadmap Enabling Low Carbon Energy Technologies (EMIRI)
Call for Nanotechnologies, Adv. Materials and Production
Nanotechnology and Advanced Materials for low-carbon energy technologies and Energy Efficiency
NMP 13 - 2014: Storage of energy produced by decentralised sources; TRL 5; R&IA, Two-stage
NMP 17 - 2014: Post-lithium ion batteries for electric automotive applications; TRL 5; R&IA, Single stage, EGVI
NMP 14 - 2015: ERA-NET on Materials (including Materials for Energy)
NMP 15 - 2015: Materials innovations for the optimisation of cooling in power plants; TRL 6; IA , Two-stage
NMP 16 - 2015: Extended in-service life of advanced functional materials in energy technologies (capture, conversion, storage and/or transmission of energy); TRL 6; IA , Two-stage
NMP 21 - 2014: Materials-based solutions for the protection or preservation of European cultural heritage;TRL 5-7, IA, Two-stage, SME part.
NMP 26 – 2014/2015: Accelerating the uptake of nanotechnologies, advanced materials or advanced manufacturing and processing technologies by SMEs (SME Instrument)
Call for Nanotechnologies, Adv. Materials and Production
Safety of nanotechnology-based applications and support for the development of regulation
The objective is to support methods, techniques and equipment for material characterisation, hazard identification, occupational exposure assessment and risk reduction and mitigation and their demonstration. The environmental fate and end-of-life treatment of products and waste containing nanomaterials are also of prime importance.
align with the EU Nanosafety Cluster and other international activities (e.g. EU-US communities of research, OECD-WPMN and CEN/ISO)
international cooperation is encouraged (US, Canada, Australia, Korea, Japan, China and Brazil)
Call for Nanotechnologies, Adv. Materials and Production
Addressing generic needs in support of governance, standards, models and structuring …
To deploy the key enabling technologies of nanotechnology, advanced materials and advanced manufacturing and processing for the benefit of European industry and society, it is essential to address a number of general, structural needs.
NMP 34 – 2014: Networking and sharing of best practises in management of new advanced materials through the eco-design of products, eco-innovation, and product life cycle management;CSA , Single-stage
Within the challenge “Biotechnology-based industrial processes driving competitiveness and sustainability” activities are aimed at bridging the gap from lab to market and at creating a path for participants in projects, in particular SMEs and large industries, to continue investing in an array of possibilities for the commercialisation of the knowledge generated.
Cutting-edge biotechnologies as future innovation drivers
BIOTEC 1 – 2014: Synthetic biology – construction of organisms for new products and processes; R&IA, Two-stageBIOTEC 2 – 2015: New bioinformatics approaches in service of biotechnology; R&IA, Two-stage
Biotechnology-based industrial processes driving competitiveness and sustainability
The PPP will concentrate on increasing the technological base of EU manufacturing through the development and integration of the key enabling technologies of the future, such as innovative technologies for adaptable machines, ICT for manufacturing, and the novel industrial handling of advanced materials.
ICT plays an essential role in innovating production systems in all sectors. It allows notably for a more personalized, diversified and mass-produced product portfolio and for rapid and flexible reaction to market changes.
This call will complement the call on Energy Efficiency of the Energy societal challenge, by helping deliver, implement and optimise building and district concepts that have the (…) potential to drastically reduce energy consumption and decrease CO2 emissions. (…)(…) it will increase the market for energy-efficient, clean and affordable buildings. Research priority will be given to delivering new building technologies, materials and components for energy saving and energy generation, thermal energy storage systems, advanced insulation systems, thermal distribution systems, lighting, windows and glazing, energy generation systems based on renewable sources.
Integration of key technologies into its operations in order to achieve sustainable, long-term competitiveness.
EeB 5 – 2015: Innovative design tools for refurbishment at building and district level; TRL 5-7; IA
EeB 6 – 2015: Integrated solutions of thermal energy storage for building applications; TRL 4-6; R&IA
EeB 7 – 2015: New tools and methodologies to reduce the gap between predicted and actual energy performances at the level of buildings and blocks of buildings; TRL 5-7; IA, SME
EeB 8 – 2015: Integrated approach to retrofitting of residential buildings; TRL 5-7; IA, SME
The SPIRE Public-Private Partnership (PPP) brings together cement, ceramics, chemicals, engineering, minerals and ores, non-ferrous metals, steel and water sectors.
The general goal is to optimise industrial processing, reducing the consumption of energy and resources, and minimising waste.
The specific goals are: A reduction in fossil energy intensity of up to 30% from current
levels by 2030. A reduction of up to 20% in non-renewable, primary raw material
intensity compared to current levels by 2030. A reduction of greenhouse gas emissions by 20% below 1999
levels by 2020, with further reductions up to 40% by 2030.
SPIRE 1 – 2014: Integrated Process Control; TRL 3-5; R&IA
SPIRE 2 – 2014: Adaptable industrial processes allowing the use of renewables as flexible feedstock for chemical and energy applications; TRL 5-7; IA; SME
SPIRE 3 – 2014: Improved downstream processing of mixtures in process industries; TRL 5-7; IA
SPIRE 4 – 2014: Methodologies, tools and indicators for cross-sectorial sustainability assessment of energy and resource efficient solutions in the process industry; CSA
Call for SILC II – Sustainable Industry Low Carbon IISILC II – 2014: Sustainable Industry Low Carbon (SILC) II
Contributions to other parts of the Work ProgrammeICT 29 – 2014: Development of novel materials and systems for OLED lightingH2020 – WASTE 1 – 2014: Moving towards a circular economy through industrial symbiosis
Fast track to Innovation – Pilot
Inducement PrizeInducement prize for the development of new materials and materials-based creative solutions by upstream collaboration between material scientists and designers
- Technologia regulowanej transmitancji świetlnej w oparciu o nanokompozyty (zjawisko elektrochromatyczne)
- Przed rozpoczęciem projektu technologia opracowana dla obiektów o małym rozmiarze
- W ramach projektu opracowanie technologii dla niskokosztowej produkcji obiektów o regulowanym zacienieniu o małym zużyciu energii i szybkiej odpowiedzi.
- Zastosowania dla: soczewek optycznych, urządzeń AGD, szyb samochodowych i lotniczych.