Rechercher des projets européens

4 projets européens trouvés

Recherche sur 125080 projets européens

 TERMINÉ 

Intelligent materials for in-situ heart Valve tissue engineering (IMAVALVE)

Date du début: 1 janv. 2014, Date de fin: 31 déc. 2017,

In situ tissue engineering using a biodegradable synthetic scaffold that recruits endogenous cells from the bloodstream is emerging as a promising technology to create living heart valves inside the human body having the potential to last a life-time: one valve for life. Compared to classical tissue engineered heart valves this new technology demonstrates off-the-shelf availability at substantiall ...
Voir le projet

 7

 TERMINÉ 

Hierarchical Self Assembly of Polymeric Soft Systems (SASSYPOL)

Date du début: 1 sept. 2013, Date de fin: 31 août 2017,

... the fellows’ training beyond that of traditional academic settings −they will have the critical role of bridging fundamental science with application and commercialisation of the results. Indeed, SupraPolix (a SME), one of SASSYPOL’s industrial full partners is a perfect example of the commercialisation of cutting-edge science initially developed at an academic laboratory. Our activities will thus ...
Voir le projet

 10

 TERMINÉ 

Bioactive Implantable Polymers based on UreidoPyrimidinone (BIP-UPy)

Date du début: 1 févr. 2013, Date de fin: 31 janv. 2017,

BIP-UPy addresses the need for biomedical implants which can be easily fine-tuned in their properties in regards to bioactivity, biodegradability, and mechanical performance, and thereby be optimized for their targeted clinical application.This project will develop a library comprising of a selection of synthetic polymers and specific bioactivities which can be used to provide the required propert ...
Voir le projet

 11

 TERMINÉ 
A composite aero-structure with self-repair capabilities will offer durability, extend its service life and prolong maintenance protocols leading to lower aircraft operational costs. Despite the extensive research activities in the area of self-healing resins applied to composite materials, the research for aeronautical applications is currently very limited. To this end, the main objective of HIP ...
Voir le projet

 11