Obiettivo
In this proposed integrating project we will develop innovative in-line high throughput manufacturing technologies which are all based on atmospheric pressure (AP) vapour phase surface and on AP plasma processing technologies. Both approaches have significant potential for the precise synthesis of nano-structures with tailored properties, but their effective simultaneous combination is particularly promising. We propose to merge the unique potential of atmospheric pressure atomic layer deposition (AP-ALD), with nucleation and growth chemical vapour deposition (AP-CVD) with atmospheric pressure based plasma technologies e.g. for surface nano-structuring by growth control or chemical etching and, sub-nanoscale nucleation (seed) layers. The potential for cost advantages of such an approach, combined with the targeted innovation, make the technology capable of step changes in nano-manufacturing. Compatible with high volume and flexible multi-functionalisation, scale-up to pilot-lines will be a major objective. Pilot lines will establish equipment platforms which will be targeted for identified, and substantial potential applications, in three strategically significant industrial areas: (i) energy storage by high capacity batteries and hybridcapacitors with enhanced energy density, (ii) solar energy production and, (iii) energy efficient (lightweight) airplanes.
A further aim is to develop process control concepts based on in-situ monitoring methods allowing direct correlation of synthesis parameters with nanomaterial structure and composition. Demonstration of the developed on-line monitoring tools in pilot lines is targeted.
The integrating project targets a strategic contribution to establishing a European high value added nano-manufacturing industry. New, cost efficient production methods will improve quality of products in high market value segments in industries such as renewable energy production, energy storage, aeronautics, and space.
DoW adaptations being made responding on requests from Phase-2 Evaluation Report
In Phase-2 of the evaluation process, a number of points were noted by the evaluators where the project had insufficient information or could benefit from “upgrading” or justification. Our response and actions against each point raised has been summarized and send to the project officer, Dr. Rene Martins, in a separate document.
Campo scientifico
CORDIS classifica i progetti con EuroSciVoc, una tassonomia multilingue dei campi scientifici, attraverso un processo semi-automatico basato su tecniche NLP.
CORDIS classifica i progetti con EuroSciVoc, una tassonomia multilingue dei campi scientifici, attraverso un processo semi-automatico basato su tecniche NLP.
Programma(i)
Invito a presentare proposte
FP7-NMP-2012-LARGE-6
Vedi altri progetti per questo bando
Meccanismo di finanziamento
CP-IP - Large-scale integrating projectCoordinatore
80686 Munchen
Germania
Mostra sulla mappa
Partecipanti (24)
Partecipazione conclusa
M5 4WT SALFORD-MANCHESTER
Mostra sulla mappa
02200 Espoo
Mostra sulla mappa
82024 Taufkirchen
Mostra sulla mappa
9400 RORSCHACH
Mostra sulla mappa
T12 YN60 Cork
Mostra sulla mappa
M5 4WT Salford
Mostra sulla mappa
01069 Dresden
Mostra sulla mappa
1117 Budapest
Mostra sulla mappa
12555 BERLIN
Mostra sulla mappa
91058 ERLANGEN
Mostra sulla mappa
01705 FREITAL
Mostra sulla mappa
8010 GRAZ
Mostra sulla mappa
1015 Lausanne
Mostra sulla mappa
Partecipazione conclusa
12681 BERLIN
Mostra sulla mappa
06766 BITTERFELD-WOLFEN OT THALHEIM
Mostra sulla mappa
Partecipazione conclusa
18 Dublin
Mostra sulla mappa
M13 9PL Manchester
Mostra sulla mappa
10709 BERLIN
Mostra sulla mappa
76326 REHOVOT
Mostra sulla mappa
2000 Neuchatel
Mostra sulla mappa
73479 Ellwangen Jagst
Mostra sulla mappa
6411TE HEERLEN
Mostra sulla mappa
06766 Bitterfeld-Wolfen
Mostra sulla mappa
75651 UPPSALA
Mostra sulla mappa