Patented microcrystalized hydrophobic phtalocyanine liposomal drug form plus nayf4 (dopped by yb and er) nanoparticle drug form with matching lasers will be developed, converting 980 nm to 670 nm and enabling unlimited light penetration for infrared pdt curing tumors/metastases in any location.
Euripides2 will cover the electronic systems integration value chain, from materials, equipment and technologies, through components, modules, up to embedded, mechatronics, enmeshed and implanted systems.
To develop a new, high density, high resistance cloth for aviation purposes. The textile will replace traditional nylon 6.6 based cloth and should find a wide range of application in air born sports, e.G. Paragliding, base jumping and skydiving and in outdoor fields.
Will lay technical foundation for design&discovery of next-generation metallic alloys, compounds&composites that can be processed into higher-performance metallic components. Will integrate industrial metallic materials,advanced manufacturing, end-user oem engineering&academic research across europe
To create a new embedded computing platform for real time data processing needs combining stadard cpus and programmable hardware as well as tools for efficient development of software and testing. The platform should be smart, energy efficient, and economically feasible.
The objective is to design optimised reactor for an efficient decontamination of solid waste, containing highly chlorinated pops (persistent organic pollutants) using cdc technology. This technology will be based on an optimized catalytic reaction with copper-based catalyst.
The goal of the project is to develop and certify light cloth for aviation safety systems.