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Designed nanostructured hybrid polymers: polymerisation catalysis and tecton assembly

Cel

Learning from nature, the major objective of the Nanohybrid project is to develop fundamental knowledge in order to be able to elaborate new melt processable nanophase-separated hybrid materials with controlled architecture, derived from low cost petrochem ical olefin feedstocks without sacrificing easy polymer melt processing. On the contrary to most current nanocomposites, where mainly physical bonding between nanofiller and matrix are obtained, the NANOHYBRID project will strive for combining chemical and physical bonding which would allow a real breakthrough in material's properties. The project will be focussed on : 1) Creation of new knowledge related to macromolecular architecture designs via transition metal catalysis which will open up access to nove l random and block copolymers (BCs) and polymer product compositions. 2) Understanding the phenomena of nanocompomers' and nanocomposites' formation either during in-situ polymerisation or during melt processing 3) Investigation of fundamental characterist ics of the organic-inorganic interphase region by multi-scale analysis. 4) Application-oriented property enhancement, thanks to nanostructured hybrid polyolefins. In the medium to long term, tecton and hybrid approaches to advanced nanostructured polymers via catalytic polymerisation combined with block copolymer self-assembly will offer unique benefits and opportunities for new applications and products. Targeted enhanced properties are: scratch resistance, modulus improvement without sacrificing stiffness , heat distortion temperature, flame retardancy, barrier properties (super hydrofobic/hydro philic, UV radiation, conductivity, antimicrobial, etc.). The industrial sectors concerned could be automotive, communication technology, MEMS, packaging, and texti le. The consortium of the NANOHYBRID project involves top scientists from 3 national research centres, 5 academics, 3 industrial technology providers and 2 end users.'

Zaproszenie do składania wniosków

FP6-2003-NMP-TI-3-MAIN
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Koordynator

CONSIGLIO NAZIONALE DELLE RICERCHE
Adres
Piazzale Aldo Moro, 7 (Project Postal Address: Ismac-cnr Via E. Bassini, 15 Milano, 201333, Italy)
Roma
Włochy

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Uczestnicy (12)

CENTRO DI CULTURA PER L'INGEGNERIA DELLE MATERIE PLASTICHE
Włochy
Adres
Viale T. Michel, 5
Alessandria

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UNIVERSITY OF MONS-HAINAUT
Belgia
Adres
20, Place Du Parc
Mons

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SLOVAK UNIVERSITY OF TECHNOLOGY IN BRATISLAVA
Słowacja
Adres
Vazovova 5
Bratislava

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SASOL GERMANY GMBH
Niemcy
Adres
Anckelmannsplatz, 1
Hamburg

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BASELL POLIOLEFINE LTALIA S.P.A.
Włochy
Adres
25, Via G.b. Pergolesi
Milano

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CEBAL S.A.S. FRANCE
Francja
Adres
1, Avenue Du Général De Gaulle
Gennevilliers

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Linki
CENTRO RICERCHE FIAT S.C.P.A
Włochy
Adres
Strada Torino, 50
Orbassano

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NANOCYL S.A.
Belgia
Adres
4 Rue De L'essor
Auvelais

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ALMA CONSULTING GROUP S.A.S
Francja
Adres
Domaine Des Bois D'houlbec'
Houlbec Cocherel

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ALBERT- LUDWIGS- UNIVERSITÄT FREIBURG
Niemcy
Adres
Fahnenbergplatz, 4
Freiburg

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COMMISSARIAT A L'ENERGIE ATOMIQUE
Francja
Adres
33, Rue De La Fédération
Paris

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RHEINISCH-WESTFÄLISCHE TECHNISCHE HOCHSCHULE AACHEN (RWTH)
Niemcy
Adres
Templergraben 55
Aachen

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