Summary
This network brings together the major academic players active in Europe on the fundamentals and application of multivalency and cooperativity. The network is complemented by industrial partners ranging in scale from a small spin-off to a large multinational. The main objective of this consortium is to raise a new generation of researchers able to develop complex chemical systems that harness cooperativity for enhanced functional properties.
Multivalency is one of Nature’s governing principles for achieving strong and selective biomolecular recognition. Many biological processes rely on the cooperative effects associated with the occurrence of multivalent interactions. Consequently, there is an enormous interest in the development of chemical multivalent systems that display similar features for innovative applications in fields as various as diagnostics, drug discovery, materials science and nanotechnology.
The central theme of multivalency and cooperativity is used to connect partners from academia and industry with a common interest in understanding how multivalency works, but for very different scopes and using very different approaches. This network is thus uniquely positioned to train the next generation of European researchers in all multidisciplinary aspects related to multivalency. A broad training program has been developed that comprises top-level individual research projects, both general and specific network-wide dedicated courses, secondments, personalized scientific training and a broad package of complementary skill training. The industrial partners contribute in the form of training, supervision, technical contributions, and perspectives on the commercialisation of multivalent systems.
After completion of the program, the ESRs will be the first generation of researchers able to fully exploit the potential of multivalent chemical systems. Their unrivalled career profiles will enable them to compete successfully for positions in academia or industry.
Multivalency is one of Nature’s governing principles for achieving strong and selective biomolecular recognition. Many biological processes rely on the cooperative effects associated with the occurrence of multivalent interactions. Consequently, there is an enormous interest in the development of chemical multivalent systems that display similar features for innovative applications in fields as various as diagnostics, drug discovery, materials science and nanotechnology.
The central theme of multivalency and cooperativity is used to connect partners from academia and industry with a common interest in understanding how multivalency works, but for very different scopes and using very different approaches. This network is thus uniquely positioned to train the next generation of European researchers in all multidisciplinary aspects related to multivalency. A broad training program has been developed that comprises top-level individual research projects, both general and specific network-wide dedicated courses, secondments, personalized scientific training and a broad package of complementary skill training. The industrial partners contribute in the form of training, supervision, technical contributions, and perspectives on the commercialisation of multivalent systems.
After completion of the program, the ESRs will be the first generation of researchers able to fully exploit the potential of multivalent chemical systems. Their unrivalled career profiles will enable them to compete successfully for positions in academia or industry.
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| Web resources: | https://cordis.europa.eu/project/id/642793 |
| Start date: | 01-01-2015 |
| End date: | 31-12-2018 |
| Total budget - Public funding: | 2 321 096,40 Euro - 2 321 096,00 Euro |
Cordis data
Original description
This network brings together the major academic players active in Europe on the fundamentals and application of multivalency and cooperativity. The network is complemented by industrial partners ranging in scale from a small spin-off to a large multinational. The main objective of this consortium is to raise a new generation of researchers able to develop complex chemical systems that harness cooperativity for enhanced functional properties.Multivalency is one of Nature’s governing principles for achieving strong and selective biomolecular recognition. Many biological processes rely on the cooperative effects associated with the occurrence of multivalent interactions. Consequently, there is an enormous interest in the development of chemical multivalent systems that display similar features for innovative applications in fields as various as diagnostics, drug discovery, materials science and nanotechnology.
The central theme of multivalency and cooperativity is used to connect partners from academia and industry with a common interest in understanding how multivalency works, but for very different scopes and using very different approaches. This network is thus uniquely positioned to train the next generation of European researchers in all multidisciplinary aspects related to multivalency. A broad training program has been developed that comprises top-level individual research projects, both general and specific network-wide dedicated courses, secondments, personalized scientific training and a broad package of complementary skill training. The industrial partners contribute in the form of training, supervision, technical contributions, and perspectives on the commercialisation of multivalent systems.
After completion of the program, the ESRs will be the first generation of researchers able to fully exploit the potential of multivalent chemical systems. Their unrivalled career profiles will enable them to compete successfully for positions in academia or industry.
Status
CLOSEDCall topic
MSCA-ITN-2014-ETNUpdate Date
28-04-2024
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Organisations
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| UNIVERSITA DEGLI STUDI DI PADOVA - University of Padova (Coördinator)
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| Eindhoven University of Technology
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| FREIE UNIVERSITAET BERLIN
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| PHILIPS ELECTRONICS NEDERLAND B.V.
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| THE CHANCELLOR, MASTERS AND SCHOLARS OF THE UNIVERSITY OF OXFORD
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| THE UNIVERSITY OF CAMBRIDGE
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| UNIVERSITEIT TWENTE
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| WESTFAELISCHE WILHELMS-UNIVERSITAET MUENSTER (WWU)
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| mivenion GmbH