Conferenza del Dipartimento DIITET 26 e 27 maggio 2014 Giancarlo Salviati, IMEM-CNR Attività Progettuale “Nanotecnologie e materiali avanzati” C ONSIGLIO

Conferenza del Dipartimento DIITET 26 e 27 maggio 2014

Giancarlo Salviati, IMEM-CNR

Attività Progettuale “Nanotecnologie e materiali avanzati”

CONSIGLIO NAZIONALE DELLE RICERCHE

26 e 27 Maggio, 2014Convegno del Dipartimento di Ingegneria, ICT e Tecnologie per l’Energia e i Trasporti

Conferenza del Dipartimento Roma, 26 e 27 maggio 2014

Finalità ed obiettivi

L’area progettuale sviluppa competenze interdisciplinari di sintesi, caratterizzazione, modellizzazione, sviluppo ed ottimizzazione di (nano)- materiali e nano dispositivi innovativi per impieghi in processi industriali, in energetica, sensoristica ed in campo bio-medico.

Le attività della AP sono quindi riconducibili all’azione Leadership in Enabling Industrial Technologies, Nanotechnologies, Advanced Materials, Biotechnology and Advanced Manufacturing and Processing, nell'ambito del pilastro Industrial Leadership di H2020. Le competenze della AP hanno inoltre un deciso impatto sociale ed economico e sono quindi di interesse anche per Sfide per la Società.

La multi- e l’interdisciplinarietà, unitamente a competenze fortemente complementari e convergenti, sono le chiavi di lettura della AP.

Ne sono testimonianza la qualità ed il numero dei progetti di ricerca, sia Europei che Nazionali, trasversali alla Fisica, Chimica, Matematica, Ingegneria, Biologia e Medicina. D’altro canto non potrebbe essere diversamente nell’era delle ”Converging Sciencies” dove la nozione di “ricerche di base ed applicate” è sostituita da quella di “ricerche finalizzate e comunicative”.


Principali tematiche individuate

Tematica B1 Nanomateriali per dispositivi e processi industriali (IAC, IDASC, IM, IMAMOTER, IMATI, IMEM, IRC, ITC)

(Link con AP Sistemi e dispositivi, Health)

Tematica B2 Nanomateriali per energetica (IRC, IMATI, IMEM, ITAE, ITC)

(link AP Low Carbon)

Tematica B3 Nanomateriali per impiego bio-medico (IEIIT, IFAC, IMEM)

(link con AP Health, Biotec)

Tematica B4 Modellistica e simulazione numerica (IAC, IEIIT, IM, IMATI, ITC)

(link con AP Low carbon)


Tematica B1: Nanomateriali per dispositivi e processi industriali

(IAC, IDASC, IM, IMAMOTER, IMATI, IMEM, IRC, ITC) (Link con AP Sistemi e dispositivi, Health & well being)

Tema B1.1 Micro-dispositivi acusto-opto-elettronici e sensori di grandezze chimiche e fisiche Sottotema B.1.1.1: Sensori chimici per rilevazione di gas tossici Sottotema B.1.1.2: Dispositivi passivi interrogabili a distanzaSottotema B.1.1.3: Biosensori di sostanze volatiliSottotema B.1.1.4 Sicurezza dei trasporti (aerei, marini, terrestri, multimodali)Sottotema B.1.1.5 Protezione dei beni culturaliSottotema B.1.1.6 Tecnologie per protezione da eventi naturali catastroficiSottotema B.1.1.7 Protezione delle infrastrutture criticheSottotema B.1.1.8 Protezione degli edificiSottotema B1.1.9: Sensori per gas a base di ossidi semiconduttori nano strutturati Sottotema B1.1.10: Ossidi nano strutturati per sensoristicaSottotema B1.1.11: Sviluppo di materiali nanostrutturati a matrice polimerica per applicazioni biomedicali

Tema B1.2 Nanostrutture di semiconduttori III-V realizzate mediante Epitassia da Fasci Molecolari

Sottotema B1.2.1: Punti quantici di In(Ga)As in matrice (In,Ga,Al)As Sottotema B1.2.2: Multistrati (In,Al)As/GaAs Sottotema B1.2.3: Nano/micro-tubi InGaAs/GaAs e nano-membrane GaAs

Tema B1.3 Nanostrutture e fluidi complessi impieganti nano materiali

Sottotema B1.3.1: Sintesi e caratterizzazione di nano materiali del tipo M-MO


Tematica B.2 Nanomateriali per energetica (IRC, IMATI, IMEM, ITC)

(Link AP Low Carbon)

Tema B.2.5 Nanomateriali per l’applicazione in sistemi elettrochimici di conversione dell’energiaSottotema B.2.5.1 Catalizzatori per celle a combustibile e sistemi di elettrolisi

Tema B.2.2 Nanostrutture di Grafene Sottotema B.2.2.1 Film ultrasottili "estesi" di MgO su AgSottotema B.2.2.2 Layers di grafene drogato su supporto metallico

Tema B.2.3 Materiali e tecnologie low carbon e per efficienza energetica Sottotema B.2.3.1 Caratterizzazione e modeling di refrigeranti alternativi a basso effetto serraSottotema B.2.3.2 Caratterizzazione dei nanofluidi.Sottotema B.2.3.3 Prestazioni dei refrigeranti e dei nanofluidiSottotema B.2.1.2: Catalizzatori

Tema B.2.1 Catalizzatori e materiali avanzati per la chimica e l’energia sostenibile Sottotema B.2.1.1: Materiali avanzati

Tema B.2.4 Sintesi e caratterizzazione di perovskiti ibride Sottotema B.2.5.2 Materiali nano strutturati per batterieSottotema B.2.5.3 Materiali nano strutturati per celle solari

Tema B.2.5 Nanomateriali per l’applicazione in sistemi elettrochimici di conversione dell’energia Sottotema B.2.5.1 Materiali nano strutturati per batterieSottotema B.2.5.2 Catalizzatori per celle a combustibile e sistemi di elettrolisiSottotema B.2.5.3 Materiali nano strutturati per celle solari


Tematica B3. Nanomateriali per impiego bio-medico

(IEIIT, IFAC, IMEM) (Link con AP Health, Biotec)

Tema B.3.1 Bio Materiali per ingegnerizzazione tissutale Sottotema B3.1.1: Biomateriali osteocondrali

Tema B3.2: Nanotecnologie e materiali avanzati una più efficace assistenza sanitariaSottotema B3.2.1: Terapia e sensing nella nanomedicina del cancro

Tema B3.3: Nanostrutture a base di SiC, ZnO ed Fe3O4 per nano medicina Sottotema B.3.3.1 Nanosistemi ibridi multifunzionali a base di Carburo di Silicio

per applicazioni biomediche Sottotema B.3.3.2 Nanoparticelle superparamegnetiche di Fe3O4 per trattamenti tumorali

e drug delivery Sottotema B.3.3.3 Nanostrutture di ZnO funzionalizzate con NP di Au ed Fe3O4

per diagnostica biomedicale Sottotema B.3.3.4 Nanoplatelets e nanoblets di ZnO per drug loading e delivering Sottotema B.3.3.5 Studio dell’interfaccia organico-inorganica


Tematica B4. Modellistica e simulazione numerica

(IAC, IEIIT, IM, IMATI, ITC)(link con AP Low carbon)

Tema B4.1 Modellizzazione di architetture per ingegneria tissutale Sottotema B.4.1.1: Modellizzazione e disegno di architetture interne Sottotema B.4.1.2: Trasporto fononico alla nanoscala

Tema B.4.2 Fluidodinamica computazionale per materiali avanzati e processi industriali Sottotema B.4.2.1 Modellazione e simulazione di processi dinamici e flussi complessi.Sottotema B.4.2.2 Modellazione e simulazione di dispositivi micro e nanofluidici,

microreattori, film sottili, processi manufatturieri

Tema B.4.3 Materiali e tecnologie low carbon e per efficienza energetica Sottotema B.4.3.1 Caratterizzazione e modeling di refrigeranti alternativi a basso effetto serra

Tema B.4.4 Nanostrutture di carbonio Sottotema B.4.4.1: Studio rigoroso del fenomeno di cristallizzazione in nanostrutture Sottotema B..4.4.2: Trasporto elettronico in dispositivi basati su nanotubi

Tema B.4.5 Leghe a memoria di forma Sottotema B.4.5.1 Modelli innovativi e robusti per le caratterizzazioni termo-magneto-meccaniche

di materiali multifunzionali

Progetto CoordinatoreEuropeo

Coordinatore CNR-DIITET

Informazioni schematiche

E3CARNanoelectronics for an Energy Efficient Electrical Car

Dr. Reiner JohnInfineon Technology

Dr. F. Albertini,CNR-IMEM

Realizzazione di nuove tecnologie micro-nanoelettroniche per i veicoli elettrici ad alta efficienza energetica.

STAGE-STE Scientific and Technological Alliance for Guaranteeing the European Excellence in Concentrating Solar Thermal Energy

CIEMAT (ES) Dr. S. di StasioCNR-IM

Studio dei materiali nanostrutturati per implementare lo storage termico in impianti Concentrated Solar Power.

SOFCOMSOFC CCHP with Poly-fuel: Operation and Maintenance

Prof. Ing.M. Santarelli PoliTo

Dr. V. Chiodo CNR-ITAE

Sviluppo di materiali nanostrutturati e processi per Solid Oxide Fuel Cells

NANOWIRINGITN People Marie Curie

Prof. A. RizziUniv. Gottinghen

Dr. A. CatellaniCNR-IMEM

Network multidisciplinare tra accademia, enti di ricerca ed industrie sull’impiego di nanofili a semiconduttore

DURAMET Improved Durability and Cost-Effective Components for New Generation Solid Polymer Electrolyte Direct Methanol Fuel Cells

Dr. A. S. Arico'CNR-ITAE


Sviluppo di materiali innovativi per fuel cells a metanolo diretto per applicazioni in generazione portatile di energia che in sistemi APU

Progetti FP7 (11)


Progetto coordinatore coordinatore CNR-DIITET Informazioni

schematicheELECTROHYPEMEnhanced performance and cost-effective materials for long-term operation of PEM water electrolysers coupled to renewable power sources



Sviluppo di catalizzatori nano-strutturati (2-10 nm) ad alta area superficiale, per produzione di H2 su larga scala

NECOBAUTNew Concept of Metal-Air Battery for Automotive Application based on Advanced Nanomaterials

Dr. A. Garcia Tecnalia Dr. V. BaglioCNR-ITAE

Sviluppo di materiali nano strutturati per batterie ferro-aria per applicazione a veicoli elettrici.

e-LIFTLaser printing of organic/inorganic material for the fabrication of electronic devices

P. DelaporteCNRS

Dr. E. VeronaCNR-IDASC

Fabbricazione di array di sensori chimici e di biosensori basati sulla propagazione di onde acustiche superficiali o di volume

SYNAPSESYnthesis and functionality of chalcogenide NAnostructures for PhaSE change memories

Dr. M. LongoCNR-IMM

Dr. L. LazzariniCNR-IMEM

Produzione di NWs di calcogenuri per dispositivi innovativi con memoria a cambiamento di fase


Progetti FP7 (11)

Progetto coordinatore coordinatore CNR-DIITET

Informazioni schematiche

LUS BUBBLELight and ultrasound activated microbubbles for cancer treatment - ERANET+ BiophotonicsPlus

Dr. F. RattoCNR-IFAC

Dr. F. RattoCNR-IFAC

Generazione di una piattaforma per imaging e trattamenti di tumori mediante microbubbles triggerate da eccitazione acustica ed ottica di particelle plasmoniche inviate alle cellule maligne.

NANOJETSERC Starting Grant

Dr. D. Pisignano CNR-NANO-NNL

G. Pontrelli, S. Succi

CNR-IACProduzione di nanofibre per manifattura tessile, piattaforme biologiche e materiali compositi

SEMEOTICONS CNR-IFC CNR-ISTI Sviluppo di un dispositivo per l’analisi di sostanze volatili dell’esalato per l’home health care


Progetti FP7 (11)


budget (€) budget CNR (€)

PON PRISMA Dr. C. RafanelliCNR-IDASC

Dr. C. RafanelliCNR-IDASC 26.500.000 1.700.000

PON DIONISO Prof. A. Teramo Univ. Messina

Dr. C. RafanelliCNR-IDASC 15.200.000 900.000

Progetto Bandiera NANOMAX Prof. F. S. Pavone UNIFI

CNR-IEIITCNR-IMEM 10.000.000 169.138

Progetto MiSE - Materiali e tecnologie abilitanti per la ricerca di sistema elettrico

Dr. M. FabrizioCNR-IENI

Dr. L. FedeleCNR-ITC 3.486.000 74.000

Industria 2015 – PIACE - Piattaforma Intelligente, Integrata e Adattativa di Microcogeneration ad elevata efficienza per usi residenziali

G. ToniatoGFE

Dr. S. BobboCNR-ITC

9.000.000 120.000

Progetto FIRB ItalNanoNet Rete Nazionale di Ricerca sulle Nanoscienze -

Dr. R. PsaroCNR-ISMN

Dr. S. PelliCNR-IFAC 9.000.000 130.000

Progetto FIRB MOSQOptomechanical tailoring of squeezed light

CNR-INO Dr. A. Borrielli CNR-IMEM 560.000 260.000

Progetto PRINInnovative chemical methodologies for smart biomaterials

Prof. F. Nicotra Università Milano Bicocca

CNR-IEIIT

1.194.000 161.015

Progetto PRIN DESCARTESDevelopment of Energy-targeted Self-assembled supramolecular systems

UniPd CNR-IMEM

1.000.000 20.000

TOT@CNR 3.534.153

Progetti con finanziamento ministeriale (MIUR, MiSE) – 9




Progetto Fondazione Cariparma BioNiMed Dr. G. SalviatiCNR-IMEM

Dr. G. SalviatiCNR-IMEM 750.000 350.000

Provincia Autonoma di Trento MaDEleNA CNR-IMEM CNR-IMEM2.360.000 433.000

Progetto Regione Toscana SINERGYSviluppo industriale multidisciplinare di materiali innovativi nanostrutturati multifunzionali

Colorobbia Italia SpA Dr. R. PiniCNR-IFAC

4.056.057 220.000

Progetto Regione Toscana IPERNANOSviluppo di un carrier nano-magneto-ottico targettato per la cura dei tumori


2.600.111 262.537

Progetto Regionale Nano TreatValutazione dell'impiego di nano particelle d'oro funzionalizzate per diagnostica e terapia dei tumori

EcoBioServices & Researches s.r.l.

Dr. R. PiniCNR-IFAC

559.800 124.872

Progetto Regionale NanochromNew nano-chromophores for minimally invasive photothermal therapies

Dr. R. PiniCNR-IFAC

Dr. R. PiniCNR-IFAC

374.500 374.500

Progetto Regionale NanocellNanosensori ottici all’interno delle cellule

Dr. F. BaldiniCNR-IFAC

Dr. F. BaldiniCNR-IFAC 435.000 225.000

Bando Aerospazio Lazio – CADMOControl Autoconfigurable Data network for Mobiles

INTERCONSULTING Dr. S. Iarossi CNR-IDASC 2.576.832 73.000

TOT@CNR 2.062.909

Progetti con finanziamento regionale – 8




SEED project finanziato da IIT – NIPSNanoparticle impact on pulmonary surfactant interfacial properties

Dr. F. RaveraCNR-IENI

Dr. M. AlfèCNR-IRC

340.000 117.000

Progetto FILAS Archeosekur AEROSEKUR Dr. S. IarossiCNR-IDASC 365.133 90.000

TOT@CNR 207.000

Altre tipologie di progetti – 2


Totale progetti FP7 3.279.359

Totale progetti nazionali 6.597.269


Call Horizon 2020 rilevanti per la AP


Nanotechnologies, advanced materials and production


Publication date 2013-12-11 Deadline Date 2015-03-26 17:00:00 (Brussels local time)

Stage 2 2015-09-08 +17:00:00 (Brussels local time)

Total Call Budget €152,000,000 Main Pillar Industrial Leadership

NMP-2015-two-stage Sub callNovel materials by design for substituting critical materials

http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/2507-nmp-23-2015.html

Specific challenge: …. Research is needed in particular to improve our fundamental understanding of the development of new material solutions with a reduced or completely eliminated critical content, while maintaining or enhancing the performance of the materials, components and products. Examples may be the critical raw materials (see COM(2011) 25 and related documents) or those materials which may be hazardous or pose a risk to human health and/or the environment. …

Scope: … investigate the development of such materials by rational design, with focus on the combination of theory with large-scale computational screening. Validation by experimental methods should be included. …international cooperation according to the current rules of participation is encouraged, in particular with Japan and the United States of AmericaExpected impact:· Reduced use or substitution of critical materials for well-defined technologies; · Improved performance of industrial products in the longer term; · Safer and/or more sustainable materials, components and products;Activities expected to focus on Technology Readiness Level 3 – 4The Commission considers that proposals requesting a contribution from the EU between EUR 3 and 5 million would allow this specific challenge to be addressed appropriately.

Tematica B1: Nanomateriali e dispositivi per processi industriali (IAC, IDASC, IM, IMAMOTER, IMATI, IMEM, IRC, ITC)


NMP-15-2015: Materials innovations for optimisation

of cooling in power plants http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/2503-nmp-15-2015.html

Specific challenge: Currently, power generation requires enormous amounts of cooling water … The lack of adequate cooling water may even lead to power plant shutdowns.

Scope: Proposals should develop robust materials solutions for optimising cooling in thermal power plants by · Allowing their functioning at higher temperatures, thus increasing their efficiency and reducing the amount of water withdrawn or consumed; · Allowing the use of alternative cooling fluids (including air-based or hybrid coolants); · Increasing the available effective water supply, either by permitting to upgrade the quality of the water (e.g. using membranes) or by improving the robustness of the cooling equipment.

Activities expected to focus on Technology Readiness Level 6.

The Commission considers that proposals requesting a contribution from the EU between EUR 6 and 10 million would allow this specific challenge to be addressed appropriately






NMP-PILOTS-2015 Sub callNovel nanomatrices and nanocapsules


Specific challenge: Encapsulation technologies have been widely used for a long time in the pharmaceutical industry for drug delivery applications. The emergence of nanotechnology and the availability of novel tools have paved the way for a new type of nanomatrices and nanocapsules, which can be used for targeted delivery and can carry payloads for localised action in many application fields.



Scope: …safe, controlled and reliable novel nanomatrices and nanocapsules containing active ingredients (e.g. drugs in nanomedicine, vitamins or anti-oxidants for cosmetic and personal care products, or cleaning and antimicrobial agents for housecleaning products), as well as their manufacturing processes. Different types of nanomatrices and nanocapsules are required, depending on the nature of the material (hydrophobic or hydrophilic) to be incorporated.

Activities expected to focus on Technology Readiness Level 4-5.


Tematica B3. Nanomateriali per impiego bio-medico (IEIIT, IFAC, IMEM)




Specific challenge: Maintaining Europe’s position in research related to materials science and engineering requires concentrated action on common European research priorities in view of implementing joint initiatives. … A strategic and industrial relevant approach to implement this roadmap needs to cover the entire research and innovation chain by pooling national research and innovation capacities, thereby mobilising European infrastructure networks as well as promoting education and training in materials research and innovation.

Scope: The proposed ERA-NET aims at coordinating the research efforts of the participating Member States, Associated States and Regions in the field of materials, continuing the activities started by M-ERA.NET, for materials research and innovation, especially enabling low carbon energy technologies, and to implement a joint transnational call for proposals (resulting in grants to third parties) with EU co-funding to fund multinational innovative research initiatives in this domain.

The Commission considers that proposals requesting a contribution from the EU of EUR 10 million would allow this specific challenge to be addressed appropriatel

NMP-ERA-NET-2015 Sub callERA-NET on Materials (including Materials for Energy)


Tematica B2: Nanomateriali per energetica (IRC, IMATI, IMEM, ITAE, ITC)



Nanotechnology and Advanced Materials for low-carbon energy technologies and

Energy Efficiency


NMP 14 – 2015 ERA-NET on Materials (including Materials for Energy)

Specific challenge: Maintaining Europe’s position in research related to materials science and engineering... A strategic and industrial relevant approach to implement the roadmap needs to cover the entire research and innovation chain by pooling national research and innovation capacities, thereby mobilising European infrastructure networks as well as promoting education and training in materials research and innovation.

Scope: The proposed ERA-NET aims at coordinating the research efforts of the participating Member States, Associated States and Regions in the field of materials, continuing the activities started by M-ERA.NET, for materials research and innovation, especially enabling low carbon energy technologies, and to implement a joint transnational call for proposals (resulting in grants to third parties) with EU co-funding to fund multinational innovative research initiatives in this domain.

The Commission considers that proposals requesting a contribution from the EU of EUR 10 million would allow this specific challenge to be addressed appropriately. At least 50% of this amount should be used for implementing the Materials Roadmap Enabling Low Carbon Energy Technologies.

Expected impact: Synergies and coherence in key fields of industrial materials research at national and regional level; Implementation of relevant parts of the Materials Roadmap Enabling Low Carbon Energy Technologies (SEC(2011)1609), and relevant objectives of the SET-Plan (COM (2009)519).



Specific challenge: Functional materials are enabling the large scale market penetration of secure, sustainable and affordable energy based on low-carbon, decentralised power generation. The benefits … more efficient energy generation, storage or transmission, under controlled conditions.

Scope: Proposals should investigate the long-term in-service degradation of functional materials that have already demonstrated enhanced performance in terms of energy capture, conversion, storage and/or transmission, and the capability of a production at a scale that could warrant an industrial uptake. Proposals must include relevant modelling and testing under realistic conditions at pilot level. …


The Commission considers that proposals requesting a contribution from the EU between EUR 6 and 10 million would allow this specific challenge to be addressed appropriately.

NMP 16 – 2015Extended in-service life of advanced functional

materials in energy technologies (capture, conversion, storage and/or transmission of energy)






Specific challenge: … develop materials which can perform well in severe operating environments … in all areas such as manufacturing, energy, transport and communications, deep-sea technologies etc. … This … requires a fundamental understanding of how the processing, microstructure, nanostructure and properties of such material interact in order to enhance their response under more severe conditions. … develop new products or components … for operation in e.g. high radiation environments, highly corrosive environments, low temperature environments, deep sea or space environments, or other extreme climate conditions.

Scope: Projects should develop bulk materials that can function within an aggressive environment without property degradation, …Projects should include appropriate numerical tools (e.g. density functional theory, molecular dynamics) to capture the multi-scale evolution of damage; and predictive modelling tools for materials operating in extreme environments. … Proof of concept in terms of product and/or process must be delivered within the project … The environmental sustainability … should also be assessed …

Activities expected to focus on Technology Readiness Level 5. The Commission considers that proposals requesting a contribution from the EU between EUR 6 and 8 million would allow this specific challenge to be addressed appropriately.

NMP 19 – 2015Materials for severe operating conditions,

including added-value functionalities Publication date 2013-12-11 Deadline Date 2015-03-26 17:00:00 (Brussels local time)



Tematica B4. Modellistica e simulazione numerica (IAC, IEIIT, IM, IMATI, ITC)



Nanomaterials for fuel cells and electrolysis Call Horizon 20-20 FCH 2 JU ( la call deve uscire a breve; budget totale 1,33 B€ per tutte le call FCH JU2)

To accelerate market entry of Fuel Cells and Hydrogen technologies, the Fuel Cells and Hydrogen 2 Joint Undertaking (FCH 2 JU) goes ahead with 1,33 B€.On the 6th May 2014, the Council of the EU formally agreed to continue the Fuel Cells and Hydrogen Joint Technology Initiative under the EU's new funding programme for research and innovation, Horizon 2020. Implemented by the FCH 2 JU, this second phase will continue to contribute to the objectives of the Joint Technology Initiative through the development of a strong, sustainable and global competitive Fuel Cells and Hydrogen sector in the Union with a ring-fenced budget of 665 M€, complemented by, at least, an equivalent level of investment by the Industrial and Research partners. The FCH 2 JU proposal is a part of the Innovation Investment Package worth a total of 22 billion euros, proposed by the European Commission to support research and innovation in key areas of the economy, boost economic growth and the creation of jobs and help face the most important societal challenges. Nanomateriali per Batterie Call Horizon 2020



Energy efficiency-PPP EeB and SPIRE topics


Publication date 2013-12-11 Deadline Date2014-12-09 17:00:00 (Brussels local time)Total Call

Budget €64,000,000 Main Pillar Industrial Leadership

EeB-06-2015 Integrated solutions of thermal energy storage for

building applicationshttp://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/2177-eeb-06-2015.html

Scope: …advanced solutions required to reduce thermal losses, reduce pressure drops, and improve heat exchange in and between storage material and heat carrier. Having in mind a system approach, innovations are required at different levels. High energy density storage materials are needed in terms of long term multi-cyclic stability at tuneable temperature levels…

Activities expected to focus on Technology Readiness Levels 4-6.


Expected impact:· Provide advanced thermal energy storage solutions.· Demonstrate solutions that have a stable long term performance in multi-cyclic seasonal use of at least 20 years.




EE-2015-1-PPP Sub callBuildings design for new highly energy performing

buildings Heating and cooling novel technologies

http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/2366-ee-02-2015


Total Call Budget €17,000,000 Main Pillar Societal Challenges

Specific Challenge: By the end of 2020 (2018 for buildings occupied and owned by public authorities), all new buildings should comply with the Energy Performance of Buildings Directive obligations and thus meet 'nearly zero-energy' performance levels using innovative, cost-optimal technologies with integration of renewable energy sources on site or nearby. …

Scope: Projects should focus on development and demonstration of solutions which significantly reduce the cost of new buildings with at least 'nearly zero-energy' performance levels, whilst accelerating significantly the speed with which these buildings and their systems are taken up by the market. Focus should lie on solutions for appropriate indoor air quality and comfort, design adapted to local climate and site, passive solutions (reducing the need for technical building systems which consume energy) or active solutions (covering a high share of the energy demand with renewable energies), building energy management systems (where appropriate), highly efficient HVAC (e.g. low temperature systems, solar cooling), electric and/or thermal energy storage of renewable energy onsite and nearby. … Such differences should be documented and minimized.


Publication date 2013-12-11 Deadline Date2014-12-09 17:00:00 (Brussels local time)Total Call Budget €64,000,000 Main Pillar Industrial Leadership

Scope: Research activities should be focused on design at buildings and district level, taking into account the adjacent systems such as district heating/cooling and decentralised thermal energy generation and other interactions with the neighbourhood, giving priority to local renewable resources. Projects should promote and set up an integrated approach in support of innovation, by providing actors with holistic methods and tools. Energy efficiency technologies should become elements of design databases that allow stakeholder to select the most suitable approach for performance improving, taking full advantage of geo-clustered data sets.

Activities expected to focus on Technology Readiness Level 5-7. A significant participation of SMEs with R&D capacities is encouraged.


EB-2015 Call for Energy-Efficient buildings

EeB-05-2015: Innovative design tools for refurbishing of buildings at district level http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/2176-eeb-05-2015.html

http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/2176-eeb-05-2015.html


Budget 64 M€ Pillar Industrial Leadership

EeB-05-2015: Innovative design tools for refurbishing of buildings at district level Publication date2013-12-11Deadline Date2014-12-09 17:00:00 (Brussels local time)Total Call Budget€64,000,000Main PillarIndustrial Leadership

EeB-06-2015: Integrated solutions of thermal energy storage for building applications

EeB-08-2015: Integrated approach to retrofitting of residential buildings

EeB-07-2015: New tools and methodologies to reduce the gap between

predicted and actual energy performances at the level of buildings and blocks of buildings









Budget 64 M€ Pillar Industrial Leadership

EeB-08-2015: Integrated approach to retrofitting of residential buildings

EeB-07-2015: New tools and methodologies to reduce the gap between predicted and actual energy performances at the level of buildings and blocks of buildings







Personalizing health and Care

H2020-PHC-2015-two-stage


PHC16 – 2015Tools and technologies for advanced therapies

http://www.ttopstart.com/uploads/H2020_PHC-16-2015_Tools_and_technologies_for_advanced_therapies.pdf

Innovative treatments and technologiesFocus Area 4

EU contribution: 4-6 million eachType of action: Research and Innovation action

“To develop specific components tools and techniques (cell isolation, scaffold development, delivery of the therapy to the the patient) for gene/cell therapies, tissue engineering or regenerative medicine. Specific attention to miniaturization, scaffolding, delivery”.

Stage 1 Dead line 14 Ottobre 2014



Nanotechnology and materials for effective healthcare


Publication date2013-12-11 Deadline Date2014-05-06 17:00:00 (Brussels local time)Budget €12,500,000 Main PillarIndustrial Leadership

Scope: …The Coordination and Support Action shall network SMEs, aiming to improve their knowledge of translation in a sustainable way; to build bridges with academia and hospitals; and to link them with large companies and investors. It shall provide education and training in translation and entrepreneurship to academia and SMEs and help the showcasing of preclinical or early clinical proofs of concepts to large companies and investors. It will assist nanomedicine research projects in better anticipating the requirements of the translation process, in order to improve the probability of the developments to reach the market. It will also seek synergies with other relevant SME support networks.


Expected impact: Reinforce support to European SMEs and academia as drivers of innovations in nanomedicine, by assisting them in the development of their bottom-up ideas, going from pre-clinical proof of concept to late clinical trials. Improve the innovation capacity of the European nano-bio-medical sector – especially at the level of SMEs . Improve the knowledge in the research community of the translation, regulatory and business aspects … Improve the capacities of SME networks regarding technologies and facilities that are required to facilitate the transfer of scientific knowledge to market or to facilitate clinical studies.

NMP 9 – 2014Networking of SMEs in the nano-biomedical sector

http://ec.europa.eu/enterprise/newsroom/cf/itemdetail.cfm?item_id=7200&lang=en&title=Networking-of-SMEs-in-the-nano-biomedical-sector



NMP 11 – 2015 Nanomedicine therapy for cancer

http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/2501-nmp-11-2015.html Publication date2013-12-11 Deadline Date2015-03-26 17:00:00 (Brussels local time)

Stage 22015-09-08 +17:00:00 (Brussels local time)Total Call Budget €152,000,000 Main PillarIndustrial Leadership

Scope: The aim is to translate promising novel nano-technology enabled therapies for cancer with pre-clinical proof-of-concept, from a pre-clinical lab stage up to Phase I clinical testing. The project shall start from an established pre-clinical proof-of-concept, with relevant efficacy and toxicity data. The project shall be focused on the translation process, so that ultimately new effective therapies can be introduced to the European healthcare market. An important aspect is the development of a pilot line for scaling-up the production of the nanomedicines and the quality control, taking into account GMP and medical regulatory requirements.

Projects may include the later stages of pre-clinical testing and Phase 1 clinical testing, but the latter is not a requirement. … Applicants must describe, according to industrial criteria, how the various barriers for advancing their new therapy to clinical application will be overcome, including technical, IPR, competitive, commercial and regulatory criteria, with efficacy and toxicity. ….

The research is to be implemented from TRL 4/5 and target TRL 6/7. Implemented as cross-KET activities.




Excellent Science

FET-OPEN - NOVEL IDEAS FOR RADICALLY NEW TECHNOLOGIES - RESEARCH PROJECTS http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/calls/h2020-fetopen-2014-2015-1.html

Total Call Budget 154 M€ Main Pillar Excellent Science

ERC PROOF OF CONCEPT GRANT http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/calls/erc-2014-poc.html

Marie Sklodowska-Curie Actions: Marie Curie Innovative Training Networks http://ec.europa.eu/research/mariecurieactions/about-msca/actions/itn/index_en.htm

Tematica B1, B2, B3, B4

http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/calls/h2020-fetopen-2014-2015-1.html

http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/calls/h2020-fetopen-2014-2015-1.html

http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/calls/erc-2014-poc.html


Cross link con call di interesse per altre AP

ICT 2014 (status: closed)INTEGRATING AND OPENING RESEARCH INFRASTRUCTURES OF EUROPEAN INTEREST

http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/calls/h2020-infraia-2014-2015.htmlTotal Call Budget €658,500,000 Main Pillar Industrial Leadership

ICT 2014 Smart System Integrationhttp://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/79-ict-02-2014.html


Specific Challenge: The aims are to develop the next generations of smart systems technologies and solutions, based on systemic miniaturisation and integration, of heterogeneous technologies, functions and materials, and to establish European competitive ecosystems for the design, R&D, prototyping and testing, manufacturing and industrialisation of smaller, smarter (predictive, reactive and cognitive) and energy autonomous Smart Systems.This specific challenge contributes to the strategy of micro and nano electronics KET in the area of More than Moore and complements the activities of topic ICT25

Scope: The focus is on: Research and development of application specific smart systems. Work will be driven by users-requirements and will target concrete solutions. It will exploit the convergence of key enabling technologies, focusing on the synergies between micro-nanoelectronics and biotechnologies.

a. Research & Innovation Actions …Secured and reinforced European leadership in the microsystem sector, expanding its share in smart systems for medical, telecom, consumer, safety and security, energy and transport applications,

http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/calls/h2020-infraia-2014-2015.html


Cross link con call di interesse per altre AP

FCT-2014 FIGHT AGAINST CRIME AND TERRORISM Develop novel monitoring systems and miniaturised sensors that improve

Law Enforcement Agencies' evidence- gathering abilities http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/topics/1105-fct-05-2014.html

Total Call Budget €56,770,000 Main Pillar Societal Challenges

The task is to develop a new type of sensors and equipments, monitoring station and their associated communication channel Law Enforcement Agencies … these electronic devices have to work can range from days to months or in real time. Access to the device could be limited or impossible. Secure remote operation over radio channel (or other type of communication channel, including GSM networks) should be possible

H2020-LEIT-Space-Competitiveness of the European Space Sector-2015http://ec.europa.eu/research/participants/portal/desktop/en/opportunities/h2020/calls/h2020-compet-2015.html

Publication date2013-12-11 Deadline Date2014-11-27 +17:00:00 (Brussels local time)Budget €36,500,000 Main Pillar Industrial Leadership


Istituti coinvoltiIAC, IASI, IDASC, IEIIT, IFAC, IM, IMAMOTER,

IMATI, IMEM, IRC, ISTI, ITAE, ITC

Ringraziamenti ai partecipanti al tavolo di lavoro

ANTONINO ARICO’ ITAE [email protected]

ALBERTINI FRANCA IMEM [email protected]

ALFE' MICHELA IRC [email protected]

BOBBO SERGIO ITC [email protected]

CALIENDO CINZIA IDASC [email protected]

D'ACUNTO MARIO ISTI [email protected]

DI STASIO STEFANO IM [email protected]

DURACCIO DONATELLA IMAMOTER [email protected]

FELICI GIOVANNI IASI [email protected]

PIETRA PAOLA IMATI [email protected]

PONTRELLI GIUSEPPE IAC [email protected]

RATTO FULVIO IFAC [email protected]

SCAGLIONE SILVIA IEIIT [email protected]

TREVISI GIOVANNA IMEM [email protected]

mailto:[email protected]













Spared




Tema B1.1 Micro-dispositivi acusto-opto-elettronici e sensori di grandezze chimiche e fisiche






Tema B.2.5 Nanomateriali per l’applicazione in sistemi elettrochimici di conversione dell’energia

Tema B.2.2 Nanostrutture di Grafene

Tema B.2.3 Materiali e tecnologie low carbon e per efficienza energetica

Tema B.2.1 Catalizzatori e materiali avanzati per la chimica e l’energia sostenibile

Tema B.2.4 Sintesi e caratterizzazione di perovskiti ibride

Tema B.2.5 Nanomateriali per l’applicazione in sistemi elettrochimici di conversione dell’energia




Tema B.3.1 Bio Materiali per ingegnerizzazione tissutale

Tema B3.2: nanotecnologie e materiali avanzati una più efficace assistenza sanitaria

Tema B3.3: Nanostrutture a base di SiC, ZnO ed Fe3O4 per nano medicina




Tema B4.1 Modellizzazione di architetture per ingegneria tissutale

Tema B.4.2 Fluidodinamica computazionale per materiali avanzati e processi industriali

Tema B.4.3 Materiali e tecnologie low carbon e per efficienza energetica

Tema B.4.4 Nanostrutture di carbonio

Tema B.4.5 Leghe a memoria di forma


NMP-15-2015 two stage Sub call: Extended in-service service of advanced functional

materials in energy technologies (capture, conversion, storage and/or transmission of energy)





Specific challenge: … The benefits of using advanced functional materials can often be demonstrated in terms of, e.g., more efficient energy generation, storage or transmission, under controlled conditions. …

Scope: Proposals should investigate the long-term in-service degradation of functional materials that have already demonstrated enhanced performance in terms of energy capture, conversion, storage and/or transmission, and the capability of a production at a scale that could warrant an industrial uptake. Proposals must include relevant modelling and testing under realistic conditions at pilot level. …




NMP-PILOTS-2015Sub callManufacturing and control of nanoporous materials


Scope: Proposals should address the development and demonstration in relevant industrial environments of reliable processes control and manufacturing routes, to obtain nanoporous materials with controlled porosity distribution or gradient aiming at improved mechanical properties, reliable permeation rate, different electrical properties, anti-fouling or other bio-, photo- or thermo-chemical/physical properties.Proposals should demonstrate the effectiveness of the developed approaches and technologies, through a pilot line aimed at the production of semi-finished products.

The implementation of this proposal is intended to start at TRL 4-5, target TRL 6.




Status Open


NMP-PILOTS-2015 Integration of novel nano materials into existing

production lines

Total Call Budget € 66,000,000 Main Pillar Industrial Leadership

Specific challenge: Nanomaterials are intended to improve the performance of existing production technologies, and to give new functionalities to products, such as lightweight solutions for transportation and construction, enhanced properties for packaging materials and processes, decreased wear and friction of yarns, enhanced electrical performance and reliability and high-performance thermal insulation and UV shielding fibrous materials.

Scope: Development and demonstration in operational environments; the integration of technologies and processing for using novel nanomaterials in production; to improve the control and monitoring of the conditions required for the use of nanomaterials in industrial processes; to increase the level of robustness and repeatability of such industrial processes; to optimize and evaluate the increased performances of the production lines in terms of productivity and cost-effectiveness; to assess the functionality and performance of the produced component/product.

The implementation of this proposal is intended to start at TRL 5-6, target TRL 7



LCE-2014-2015Call for competitive low carbon energy

Publication date 2013-12-11 Deadline Date 2014-04-01 +17:00:00 (Brussels local time)


Budget €113,000,000 Main Pillar Societal Challenges

Status Closed




Tema B1.1 Micro-dispositivi acusto-opto-elettronici e sensori di grandezze chimiche e fisiche Sottotema B.1.1.1: Sensori chimici per rilevazione di gas tossici Sottotema B.1.1.2: Dispositivi passivi interrogabili a distanzaSottotema B.1.1.3: Biosensori di sostanze volatiliSottotema B.1.1.4 Sicurezza dei trasporti (aerei, marini, terrestri, multimodali)Sottotema B.1.1.5 Protezione dei beni culturaliSottotema B.1.1.6 Tecnologie per protezione da eventi naturali catastroficiSottotema B.1.1.7 Protezione delle infrastrutture criticheSottotema B.1.1.8 Protezione degli edificiSottotema B1.1.9: Sensori per gas a base di ossidi semiconduttori nano strutturati Sottotema B1.1.10: Ossidi nano strutturati per sensoristicaSottotema B1.1.11: Sviluppo di materiali nanostrutturati a matrice polimerica per applicazioni biomedicali


Sottotema B1.2.1: Punti quantici di In(Ga)As in matrice (In,Ga,Al)As Sottotema B1.2.2: Multistrati (In,Al)As/GaAs Sottotema B1.2.3: Nano/micro-tubi InGaAs/GaAs e nano-membrane GaAs


Sottotema B1.3.1: Sintesi e caratterizzazione di nano materiali del tipo M-MO




Tema B.2.5 Nanomateriali per l’applicazione in sistemi elettrochimici di conversione dell’energiaSottotema B.2.5.1 Catalizzatori per celle a combustibile e sistemi di elettrolisi

Tema B.2.2 Nanostrutture di Grafene Sottotema B.2.2.1 Film ultrasottili "estesi" di MgO su AgSottotema B.2.2.2 Layers di grafene drogato su supporto metallico

Tema B.2.3 Materiali e tecnologie low carbon e per efficienza energetica Sottotema B.2.3.1 Caratterizzazione e modeling di refrigeranti alternativi a basso effetto serraSottotema B.2.3.2 Caratterizzazione dei nanofluidi.Sottotema B.2.3.3 Prestazioni dei refrigeranti e dei nanofluidiSottotema B.2.1.2: Catalizzatori

Tema B.2.1 Catalizzatori e materiali avanzati per la chimica e l’energia sostenibile Sottotema B.2.1.1: Materiali avanzati

Tema B.2.4 Sintesi e caratterizzazione di perovskiti ibride Sottotema B.2.5.2 Materiali nano strutturati per batterieSottotema B.2.5.3 Materiali nano strutturati per celle solari

Tema B.2.5 Nanomateriali per l’applicazione in sistemi elettrochimici di conversione dell’energia Sottotema B.2.5.1 Materiali nano strutturati per batterieSottotema B.2.5.2 Catalizzatori per celle a combustibile e sistemi di elettrolisiSottotema B.2.5.3 Materiali nano strutturati per celle solari




Tema B.3.1 Bio Materiali per ingegnerizzazione tissutale Sottotema B3.1.1: Biomateriali osteocondrali

Tema B3.2: Nanotecnologie e materiali avanzati una più efficace assistenza sanitariaSottotema B3.2.1: Terapia e sensing nella nanomedicina del cancro

Tema B3.3: Nanostrutture a base di SiC, ZnO ed Fe3O4 per nano medicina Sottotema B.3.3.1 Nanosistemi ibridi multifunzionali a base di Carburo di Silicio

per applicazioni biomediche Sottotema B.3.3.2 Nanoparticelle superparamegnetiche di Fe3O4 per trattamenti tumorali

e drug delivery Sottotema B.3.3.3 Nanostrutture di ZnO funzionalizzate con NP di Au ed Fe3O4

per diagnostica biomedicale Sottotema B.3.3.4 Nanoplatelets e nanoblets di ZnO per drug loading e delivering Sottotema B.3.3.5 Studio dell’interfaccia organico-inorganica




Tema B4.1 Modellizzazione di architetture per ingegneria tissutale Sottotema B.4.1.1: Modellizzazione e disegno di architetture interne Sottotema B.4.1.2: Trasporto fononico alla nanoscala

Tema B.4.2 Fluidodinamica computazionale per materiali avanzati e processi industriali Sottotema B.4.2.1 Modellazione e simulazione di processi dinamici e flussi complessi.Sottotema B.4.2.2 Modellazione e simulazione di dispositivi micro e nanofluidici,

microreattori, film sottili, processi manufatturieri

Tema B.4.3 Materiali e tecnologie low carbon e per efficienza energetica Sottotema B.4.3.1 Caratterizzazione e modeling di refrigeranti alternativi a basso effetto serra

Tema B.4.4 Nanostrutture di carbonio Sottotema B.4.4.1: Studio rigoroso del fenomeno di cristallizzazione in nanostrutture Sottotema B..4.4.2: Trasporto elettronico in dispositivi basati su nanotubi

Tema B.4.5 Leghe a memoria di forma Sottotema B.4.5.1 Modelli innovativi e robusti per le caratterizzazioni termo-magneto-meccaniche

di materiali multifunzionali

Altri progetti internazionali – 1 Progetto coordinatore coordinatore

CNR-DIITETbudget (€) budget CNR (€)

NATO Science for Peace ProjectPolymers Based Piezoelectric Sensor Array for Chemical Warfare Agents Detection

Dr. E. VeronaCNR-IDASCDr. M. Dinescu (National Institute for Lasers, Romania)

Dr. E. VeronaCNR-IDASC

295.000 50.000

TOT@CNR 50.000




PON PRISMA Dr. C. RafanelliCNR-IDASC

Dr. C. RafanelliCNR-IDASC 26.500.000 1.700.000

PON DIONISO Prof. A. Teramo Univ. Messina

Dr. C. RafanelliCNR-IDASC 15.200.000 900.000

Progetto Bandiera NANOMAX Prof. F. S. Pavone UNIFI

CNR-IEIITCNR-IMEM 10.000.000 169.138

Progetto MiSE - Materiali e tecnologie abilitanti per la ricerca di sistema elettrico

Dr. M. FabrizioCNR-IENI

Dr. L. FedeleCNR-ITC 3.486.000 74.000

Industria 2015 – PIACE - Piattaforma Intelligente, Integrata e Adattativa di Microcogeneration ad elevata efficienza per usi residenziali

G. ToniatoGFE

Dr. S. BobboCNR-ITC

9.000.000 120.000

Progetto FIRB ItalNanoNet Rete Nazionale di Ricerca sulle Nanoscienze -

Dr. R. PsaroCNR-ISMN

Dr. S. PelliCNR-IFAC 9.000.000 130.000

Progetto FIRB MOSQOptomechanical tailoring of squeezed light

CNR-INO Dr. A. Borrielli CNR-IMEM 560.000 260.000

Progetto PRINInnovative chemical methodologies for smart biomaterials

Prof. F. Nicotra Università Milano Bicocca

CNR-IEIIT

1.194.000 161.015

Progetto PRIN DESCARTESDevelopment of Energy-targeted Self-assembled supramolecular systems

UniPd CNR-IMEM

1.000.000 20.000

TOT@CNR 3.534.153

Progetti con finanziamento ministeriale (MIUR, MiSE) – 9




Progetto Fondazione Cariparma BioNiMed Dr. G. SalviatiCNR-IMEM

Dr. G. SalviatiCNR-IMEM 750.000 350.000

Provincia Autonoma di Trento MaDEleNA CNR-IMEM CNR-IMEM2.360.000 433.000

Progetto Regione Toscana SINERGYSviluppo industriale multidisciplinare di materiali innovativi nanostrutturati multifunzionali


4.056.057 220.000

Progetto Regione Toscana IPERNANOSviluppo di un carrier nano-magneto-ottico targettato per la cura dei tumori


2.600.111 262.537

Progetto Regionale Nano TreatValutazione dell'impiego di nano particelle d'oro funzionalizzate per diagnostica e terapia dei tumori

EcoBioServices & Researches s.r.l.

Dr. R. PiniCNR-IFAC

559.800 124.872

Progetto Regionale NanochromNew nano-chromophores for minimally invasive photothermal therapies

Dr. R. PiniCNR-IFAC

Dr. R. PiniCNR-IFAC

374.500 374.500

Progetto Regionale NanocellNanosensori ottici all’interno delle cellule

Dr. F. BaldiniCNR-IFAC

Dr. F. BaldiniCNR-IFAC 435.000 225.000

Bando Aerospazio Lazio – CADMOControl Autoconfigurable Data network for Mobiles

INTERCONSULTING Dr. S. Iarossi CNR-IDASC 2.576.832 73.000

TOT@CNR 2.062.909

Progetti con finanziamento regionale – 8




SEED project finanziato da IIT – NIPSNanoparticle impact on pulmonary surfactant interfacial properties

Dr. F. RaveraCNR-IENI

Dr. M. AlfèCNR-IRC

340.000 117.000

Progetto FILAS Archeosekur AEROSEKUR Dr. S. IarossiCNR-IDASC 365.133 90.000

TOT@CNR 207.000

Altre tipologie di progetti – 2


Totale progetti FP7 3.279.359

Totale progetti nazionali 6.597.269

Documents

Conferenza del Dipartimento DIITET 26 e 27 maggio 2014 Giancarlo Salviati, IMEM-CNR Attività Progettuale “Nanotecnologie e materiali avanzati” C ONSIGLIO