Photonics and nanotechnologies are highly multi-disciplinary fields and two of the principal enabling technologies for the 21st century. They are key technology drivers for industry sectors such as information technologies, communication, biotechnologies, transport, and manufacturing. Photonics/nanophotonics and nanomaterials/nanotechnologies can benefit from each other in terms of new functions, materials, fabrication processes and applications. The MONA Roadmap identifies potential synergies between photonics/nanophotonics and nanomaterials/nanotechnologies. The challenge of mastering nanoelectronics and nanophotonics science and technologies at an industrial scale is of utmost strategic importance for the competitiveness of the European industry in a global context.
Posts Tagged ‘solar cells’
Modern materials sciences take as their objective to develop and tailor materials with a desired set of properties suitable for a given application. Next to conventional approaches, predictive modelling and simulation is more and more used. This results into a rapidly increasing knowledge base, allowing for more precise experimental set-ups, more precise simulations and tailoring of goal-oriented materials. They play a key role in the value chain and in product innovation. Although limited profits are made from materials, materials are technology enablers for new high added value products and therefore a key in innovation acceleration. More success and increased opportunities for applications is the outcome. The SMART project aimed at providing support for future strategic decisions in this sector to foster the strengthening of the European Research Area.
The objective of this Platform Foresight project is the analysis of emerging science and technology priorities in public research policies of the European countries, the US and Japan. The aim is to provide the European Commission and the member states with policy recommendations as to become leaders in these emerging technologies.
The objective of the UK Foresight Project entitled EEMS – ‘Exploiting the Electro-Magnetic Spectrum’ was to provide a vision for the future exploitation of the electromagnetic spectrum to ensure increased UK innovation in related areas. Technologies that ‘exploit’ the Electro-Magnetic Spectrum include lasers, X-rays and other medical technologies as well as technologies for communication, the miniaturization of complex micro-systems, sensing, imaging as well as security.