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| Funder | European Commission |
|---|---|
| Recipient Organization | Universitetet I Tromsoe - Norges Arktiske Universitet |
| Country | Norway |
| Start Date | Apr 01, 2024 |
| End Date | Sep 30, 2025 |
| Duration | 547 days |
| Number of Grantees | 1 |
| Roles | Coordinator |
| Data Source | European Commission |
| Grant ID | 101158155 |
The demand for highly sensitive trace gas detection down to part-per-billion (ppb) levels and exceptional selectivity is paramount across various fields, including environmental monitoring, industrial process control, and healthcare.
Currently, such capabilities are only accessible through bulky and expensive high-end sensors, limiting their use primarily to research settings.
However, the ERC Starting Grant project sCENT has recently achieved a significant breakthrough by demonstrating the first chip-scale sensor capable of ppb-level detection and selectivity equivalent to that of high-end instruments.
These sensors merge the strengths of high-end commercial spectroscopic systems, offering sensitivity, selectivity, isotope detection capability, and long-term stability, while also being compact, lightweight, and requiring only microlitre sample volumes.
This success was possible due to a pioneering waveguide design supporting air-like modes, demonstrated within the ERC Starting Grant sCENT.The current project aims to explore the disruptive innovation potential of the sCENT sensor concept, advancing it from a proof-of-concept to the next level of technological readiness.
This entails (i) the development of a prototype module and (ii) its real-life application demonstration to study the metabolic emissions of methane-consuming bacteria native to permafrost soils.Additionally, the project encompasses crucial aspects such as IP protection management, monitoring target markets (primarily environmental intelligence), and designing a technology roadmap for the sensor's exploitation.
Outreach activities are meticulously planned to promote the sensors to potential commercial partners, end-users, and stakeholders.
The overarching vision for the sCENT sensor is to unlock new opportunities for large-scale in-situ gas monitoring with unparalleled data density, ultimately enhancing our capabilities for environmental intelligence in the face of our evolving climate.
Universitetet I Tromsoe - Norges Arktiske Universitet
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