Nanotechnology Research - Initiatives and Networks
Showing results 11 - 20 of 137 of initiatives and networks in EU:
The EU FP6 project Circles of Light is expected to increase the European competitiveness in Nanophotonics by providing new solutions to overcome technological gaps and to make silicon a leading material base also in photonics.
Co-Pilot aims to assist business in the execution of pilot production of nanomaterials. Co-Pilot is developing an open access infrastructure for companies interested in the production of high quality (multi-)functional nano-composites on a pilot scale.
The goal of the European CONTACT project is to establish a tailored supply chain of new CNT-filled composites with enhanced mechanical and electrical properties for applications including electrodes, structural materials and windblades.
CORONA is a European project of nine partners all along the value chain in micro and nanotechnologies (MNT). CORONA attempts to accelerate the businesses of European companies.
The DEEPEN project is Europe?s leading research partnership for integrated understanding of the ethical challenges posed by emerging nanotechnologies in real world circumstances, and their implications for civil society, for governance, and for scientific practice.
The project Development of Lithography Technology for Nanoscale Structuring of Materials Using Laser Beam Interference (DELILA) focuses on researching and developing a new production technology for fabrication of 2D and 3D nano structures and devices. In particular, DELILA will enable low cost and large volume production of surface structures and patterns with nanometric resolution.
The "Design for Micro & Nano Manufacture (Patent-DfMM)" Network of Excellence aims to establish a new technical community that will address the underlying engineering science to ensure that problems affecting the manufacture and reliability of products based on MNT can be addressed before prototype and pre-production.
DINAMICS is a European FP6-funded project that aims to promote the uptake of nanotechnological approaches by developing an integrated costeffective nanobiological sensor for detection of bioterrorism and environmental assays. The prime deliverable is an exploitable lab-on-a-chip device for detection of pathogens in water using on-the-spot recognition and detection based on the nanotechnological assembly of unlabelled DNA.
The DIAMANT team has pioneered the discovery and development of diamond as a uniquely promising material system for solid-state molecular technologies: Diamond has exceptional optical and magnetic properties that are associated with dopant complexes - or 'solid-state molecules' - in the diamond lattice. The DIAMANT project will develop new technologies to enable placement of exactly one atom at a time into a selected location in the diamond lattice with nanometre precision.
The European Union's 7th Framework Programme's collaborative research project FP7-2009-IST-4-248613 DIAMOND - Diagnosis, Error Modelling and Correction for Reliable Systems Design aims at improving the productivity and reliability of semiconductor and electronic systems design in Europe by providing a systematic methodology and an integrated environment for the diagnosis and correction of errors.