The main objective of PhotonicSensing was to prepare, launch, implement and follow up a single joint transnational call for project proposals which contribute to the fast development and implementation of photonics based sensing technologies and therefore further improves the European market share in this domain.
PhotonicSensing supported photonics based technologies with a high impact on the human life in the following five application areas:
• Safety including food safety
• Civil security
• Manufacturing / production
• Environmental monitoring
• Medical applications
A total of 12 highly innovative transnational projects could be supported. Overall, the PhotonicSensing ERA-NET Cofund can be considered a success story: We succeeded in mobilising more than 11 million Euros of public funding with a total project volume of around 20 million Euros.
The projects clustered to application areas Safety/Security and Production focussed on new technology developments in detecting, imaging and identifying objects. Both projects realised this by designing and developing prototypes and sensor technology with low maturity (2-3) at the beginning of the projects are taken to higher TRL 5+ through the successful development achieved within the duration of the project.
The projects of application area Environment focussed on the development of various optical, bio and gas sensor technologies, integrated into prototypes and systems for detecting and measuring obstacles under water or trace gas molecules. In these cases sensors and lasers were either non-existent or had to be significantly improved (wavelengths, thermal management, noise level). Thanks to the progress made in the projects, higher TRLs were achieved.
Projects dealing with medical applications were bundled into Health. They mainly focused on providing and/or improving photonic based technology (IR, X-ray, Multi-parametric molecular imaging (MMI), bottle micro-resonators (BMRs) etc.) for diagnostic or monitoring applications within the health sector. Starting from low TRLs and non-existent methods, limited efficiencies of photonic crystals, limit of detection (LoD) of sepsis biomarkers, projects could realise new concepts, enhance limits and reach TRLs up to 5-6 or even 8-9.