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An affordable, miniaturised, cloud-connected system powered by deep learning algorithms for comprehensive air quality measurements based on highly integrated mid-IR photonic
Air Quality: Worldwide Analysis and Forecasting of Atmospheric Composition for Health
Ultra-compact, low-cost plasmo-photonic bimodal multiplexing sensor platforms as part of a holistic solution for food quality monitoring
photonic system for Adaptable muLtiple-analyte Monitoring of fOod quality | h-ALO
Mapping air quality with high accuracy and high spatial resolution
Maximizing freshness and minimizing losses of agriculture products through automated atmosphere management in storage facilities
Multiplex phOtonic sensor for pLasmonic-based Online detection of contaminants in milK
The training of early stage researchers for the development of technologies to monitor concentrations of micro and nanoplastics in water for their presence, uptake and threat to animal and human life
Photonic Accurate and Portable Sensor Systems Exploiting Photo-Acoustic and Photo-Thermal Based Spectroscopy for Real-Time Outdoor Air Pollution Monitoring
Flexible mid-infrared photonics solutions for rapid farm-to-fork sensing of food contaminants
Ultra low-power integrated optical sensor systems for networked environmental multichannel gas Sensing
The above projects have received funding from the European Union’s Horizon 2020 research and innovation programme.
The projects AEOLUS, GRACED, h-ALO, MOLOKO, PASSEPARTOUT, PHOTONFOOD, and TRIAGE are part of the Photonics21 Public Private Partnership: www.photonics21.org