The goal of the MultiPlat project is to develop biomimetic proton conductive membranes with nanometer thickness (nanomembranes) through convergence of the number of fields. The primary application of this multipurpose nanotechnological platform is the next generation of fuel cells where it will replace the prevailing evolutionary modifications of the state of the art solutions.
MULTIPROTECT is an Integrated Project within the thematic priority of 'Nanotechnology and Nanosciences, knowledgebased multifunctional materials and new production processes and devices' of the 6th Framework Programme of the European Commission. The consortium aims to provide a generally applicable, highly innovative, heavy metal free, multifunctional and corrosion preventing surface technology on the basis of smart nanocomposite materials with new nanoparticles as functional design elements.
The European MUNDIS project will develop an angular position contact-less sensor, using an innovative approach to BMR based on the development of Multiple Nanocontact Devices (MUNDs), that will improve the performance of current contactless sensors with a lower price.
The project MUST aims at providing new technologies based on active multi-level protective systems for future vehicle materials. 'Smart' release nanocontainers will be developed and incorporated in commercial paints, lacquers and adhesive systems to prepare new products exhibiting self-healing properties.