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| Funder | European Commission |
|---|---|
| Recipient Organization | Sintef As |
| Country | Norway |
| Start Date | Jan 01, 2024 |
| End Date | Dec 31, 2027 |
| Duration | 1,460 days |
| Number of Grantees | 11 |
| Roles | Participant; Coordinator; Associated Partner |
| Data Source | European Commission |
| Grant ID | 101135796 |
The main objective of COMPAS is to develop a compact, inexpensive and ultrasensitive PIC sensing platform (PSP) for air and water monitoring, relying on the co-integration of light source, detectors and electronic IC for on-chip signal processing.The PIC sensor principle will be based on interference between two guided light modes, one of which interacts with analytes and the other being a reference.
The resulting intensity changes offers excellent sensitivity to changes in concentration of analytes in air or solution. Multiple light paths can be placed on the same device offering multi-analyte sensing in an ultracompact device.
COMPAS builds a first-of-a-kind fully integrated system around this principle (including light source, detectors and signal processing).
The COMPAS PSP begins at TRL2 and will end with TRL5 validation in relevant environment by end-users towards air and water monitoring.
The project will -Define sensing parameters for validating developed PIC Sensor Platform (PSP) towards three use-cases in relevant environments, being in line with the European Green Deal’s zero pollution ambition -Develop core photonic technology for implementing photonic based sensing.
These include a novel photonic IC material system (Aliminium Nitride), BiModal waveguide interferometers that show superior temperature stability and sensitivity, novel material coating systems for enhanced sensing selectivity and innovative nano structured metasurfaces for novel mode engineering for increased sensitivity and optimized light coupling to facilitate the use of low power laser diodes.-Develop a Chiplet approach to co-integration of photonic sensor with microelectronic IC and photodetectors, and a coherent light-source.
This will combine heterogeneous integration of a laser light source and monolithically integrated photodetector in the silicon base material.
Institutul de Chimie Macromoleculara Petru Poni; Dublin City University; Flowphys As; Fraunhofer Gesellschaft Zur Forderung Der Angewandten Forschung Ev; Phix Bv; Stiftelsen Nilu; Sintef As; Fondazione Bruno Kessler; University of Lancaster; Oliveris Tech Incubator Limited; Airmotec Ag
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