Author Archives: vaithekisellathurai

ECREAM cluster is joined by the innovative EU project BROMEDIR

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BROMEDIR is a collaborative project developed by a multidisciplinary team under Horizon Europe and has recently joined ECREAM to foster collaboration. The project aims to tackle the increasing need for miniaturized sensors providing simultaneous access to multiple chemical and biochemical parameters sensing. Optical spectroscopy is the golden standard for the identification and quantitative measurement of several chemicals simultaneously, using a single device: a spectrometer. In BROMEDIR, this new generation of miniature spectrometers will be used to develop sensing platforms, to be demonstrated in three application domains: sustainable farming, hydrogen supply chain quality monitoring and fuel quality control. Launched on January 1st, 2023, BROMEDIR has established a newsletter and regularly uploads its latest results to its website.

The ECREAM cluster projects are looking forward to the collaboration with and added knowledge by BROMEDIR!

To stay updated, follow the ECREAM or BROMEDIR LinkedIn channels.


ECREAM


BROMEDIR

Symposium on monitoring food contamination and quality by PHOTONFOOD project

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We are excited to announce the joint symposium Advancements in Monitoring Food Contamination and Quality, hosted by PHOTONFOOD in collaboration with DigiFoods and FoodSafeR. 

The symposium will highlight the latest trends and innovations in food safety and quality. A valuable chance for researchers and food authorities to discuss and share their expertise. PHOTONFOOD prototype demonstration and poster session will engage the idea exchange. 

Don’t miss this chance to collaborate and explore the future of food safety!  

Fore more information about the symposium and registration, please visit:


Project website

SYMPHONY – a groundbreaking project started in April 2024

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SYMPHONY is a Horizon Europe project which started in April 2024 to develop new technology for gas sensing. It aims to enable the implementation of dense networks of cloud-connected, low-cost, portable and easy-to-use sensors, capable of multi-target detection for applications in air quality control, pollution monitoring, industrial process control and safety. The project will focus on two use cases: air pollution monitoring to improve air quality control, and monitoring of biogas production to measure and understand the process and allow its optimisation.

 

SYMPHONY will address this challenge by making key developments in silicon photonics, neuromorphic circuits, artificial intelligence, integration and packaging, while exploiting state-of-the-art silicon microelectronics for ultra-low power edge computing with AI, and the connected sensor network for spatially-resolved analysis and prediction.

For more details, please visit the project website or follow SYMPHONY on LinkedIn. 


Project website


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GRACED and h-ALO in the Photonics Partnership Annual Meeting

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The ECREAM projects GRACED and h-ALO will be presented in the upcoming Photonics21 annual meeting in Brussels on the 15th of May 2024. Dr Stefano Toffanin, coordinator of h-ALO and Dr Alessandro Giusti, coordinator of GRACED, will present the latest updates on the two projects in the “Agriculture & Food” working group.

Both projects started in January 2021 and are close to their completion, thus, interesting results are now available to share with the research community, the end-users and the policymakers. Come join us in the “DoubleTree by Hilton Brussels City Hotel” from 11:00 until 12:30 on the 15  May 2024 for discussing project results, innovations, progress so far, but also next steps and opportunities.

You are invited to register for the event and explore the latest agenda:


Photonics Partnership Annual Meeting

MONPLAS comes to an end

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Against a growing concern for the potential health risks that micro and nanoplastics pose to us a H2020 ITN project began in January 2020 to train 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. The objectives of the project were threefold:

  1. to improve our ability to detect, trace the origin, determine the toxicity, and ultimately eliminate micro and nanoplastics from water
  2. to add to the limited data on microplastics in water and beverages, as well as develop and standardise a method for the initial data taking (identity and shape) of nanoplastic, so that uptake and effect on animal and human life can be studied through toxicokinetics and toxicity
  3. to develop and subsequently commercialise state of the art detection technologies, applications and methodologies through the creation of a multi- and inter- disciplinary network spanning different sectors.

A little over four years later, of which a half took place during the global pandemic, from leveraging advances in Lab on Chip and Machine Learning, it has successfully addressed all three objectives providing:

  • Its 14 ESRs with the skills and knowledge to develop state of art technologies that will lead to robust, easy to use and low cost in line instruments for microplastics and nanoplastics monitoring, some of which have been taken commercially up by its 8 equipment manufacturers and end-users.
  • 14 theses already defended or to be defended in the next 12 months, as well as 30 peer reviewed publications, four roundtable discussions held, two satellite workshops organised and innumerous outreach events to raise popular awareness of micro and nanoplastics and the interest of women in STEM.

Subsequently it has also led to over 15 submissions to national and international calls for proposals to further advance technologies and their applications for micro and nanoplastic monitoring, coherent with forthcoming ISO standards for drinking water and any harmonisation of analytical methods, in support the implementation of the 2020 EC drinking water directive.

Fore more information of the project, please visit:


Project website


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