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Ultra-compact, low-cost plasmo-photonic bimodal multiplexing sensor platforms as part of a holistic solution for food quality monitoring

Periodic Reporting for period 2 - GRACED (Ultra-compact, low-cost plasmo-photonic bimodal multiplexing sensor platforms as part of a holistic solution for food quality monitoring)

Periodo di rendicontazione: 2022-07-01 al 2023-06-30

The continuously increasing consumer demand for fresh fruits and vegetables also increases the risk of microbiological and chemical contamination. Fresh produce remains the leading cause of foodborne illness outbreaks. Current techniques for inspection are timely and costly with tests carried out in random batches at production and processing facilities, not covering the entire value chain. GRACED proposes a novel solution based on a low-cost bio-photonic sensor, capable of simultaneously and quickly detecting different analytes of interest throughout the value chain. The sensor will be used in two versions of a sensing device, developed within the project: a portable instrument version and a fully autonomous device version suitable for unattended deployment in fields. The approach will be validated in real-world pilots representing different production and distribution systems. A data analytics platform & decision-support system (DSS) will also be developed, to gather data from the measurements performed by the devices and assist in decision-making processes.
In the first 30 months of the project, all the user and stakeholders’ requirements for the sensor, the devices and the DSS were gathered, and a conceptual design of the prototypes was initially developed. Work has then been performed on the actual development of all system components. For the sensor (GRACED chip), different designs and materials were tested, first through simulations and then in real-life produced prototypes. Since this is a completely novel approach, several approaches were tested, before arriving to a solution that seems promising. This is the latest version of the GRACED chip, which will soon be used for the validation of the system in controlled, laboratory conditions. The functionalization of the sensor surface using antibodies has also progressed, as well as the design of the microfluidic system that delivers the sample on the sensing area of the sensor. For the GRACED devices, all the submodules have been designed and produced (we are currently using the second version of the GRACED devices), in order to allow the integration of the final version of both the instrument and the autonomous node. The DSS has also been delivered. All these components are currently being prepared for use in the supervised validation of the GRACED system, which is the last step before the production of the final prototypes to be used in field conditions (last year of the project). Regarding dissemination, GRACED partners participated in several conferences and have presented the project to several relevant communities, including through journal publications and the general press. Continued active social media channels and project website are used for announcing project news, events and results. The project’s zenodo community is regularly updated with all publications under open access.
In terms of progress beyond the state-of-the-art (SotA) in portable devices for contamination checks along food value chains, the GRACED protocol developed in this period will allow making a measurement in less than 1 hour. This is significantly faster than current techniques (requiring several hours), while the cost of the analysis is also kept low (cheap consumables). The device is also highly reconfigurable to detect different types of contaminants, depending on the application. In terms of the GRACED photonic sensor, this is also beyond SotA, due to the compact sensor size and bi-modal interferometer approach, but also because of the possibility of integrating multiple sensing elements on the same chip. The possibility of using cheaper on-chip light sources is being investigated and could lead to a leap forward in the SotA.
Microfluidic cell
Pilot farm
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