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Our upcoming two-day symposium on ‘Innovative measurement techniques for trace gases and radicals’ will take place on 9th and 10th January at University College Cork (UCC). It brings together a multidisciplinary group of academics and industry experts from around Europe who will exchange know-how on state-of-the-art technologies for identifying hard-to-detect trace gases and atmospheric radicals.

The event is based on our own EU-funded RADICAL project, which aims to develop innovative, low-cost sensors for detecting atmospheric radicals to improve air quality monitoring, and the Research Ireland-funded AtmoTrace project, which seeks to develop cutting-edge optical detection instruments for various lab and field applications in trace gas sensing. The symposium is jointly organised between UCC’s Schools of Chemistry and Physics and will bring together an interdisciplinary mix of experts from different scientific background using distinct approaches to trace gas sensing.

Poster for ‘Innovative measurement techniques for trace gases and radicals’

While research on new materials and surface reactions enable the development of low-cost, compact and lightweight smart detectors that can be deployed on a global scale, research in photonics and spectroscopy are key to create the ultimately most sensitive and selective radical detection instruments. Bringing these novel research areas together will help scientists to find new innovative approaches to better monitor radical and trace gases and to model their role in air quality and climate change. There are also many new applications conceivable in manufacturing, health, and chemical industries.

This symposium marks the end the RADICAL project that kicked off in November 2020. Since then, we have successfully developed an innovative, electronic sensor for detecting trace gases and atmospheric radicals to improve air quality monitoring.

“Short-lived atmospheric radicals are believed to play a key role in air quality cycles. By directly monitoring their concentrations at local, regional and global levels, scientists will have a greater ability to predict and control air quality, ultimately improving the quality of life for citizens. We are excited to discuss the latest discoveries in this field at the symposium.”

“Unlike traditional lab-based techniques for detecting radicals, the RADICAL sensor is low-cost, small, and able to be deployed on a global scale. This will help scientists better monitor and model the role of radicals in air quality and climate change.”

– Professor Justin Holmes, RADICAL Coordinator, UCC School of Chemistry

Along with materials scientists and atmospheric chemists from the RADICAL project, physicists from the UCC-led AtmoTrace project are co-hosting this event.

“Many trace species can have a large influence on climate, despite their very low concentrations. For example the ozone layer in the upper atmosphere, which shelters all life on this planet from hard UV radiation, can be significantly depleted if trace amounts of the “wrong radicals” are transported to or formed at high altitudes. Only with ultra-sensitive technologies can we monitor and understand the processes that potentially influence our future climate. It will be fantastic to have some of the world-experts in this area at UCC in January to discuss the newest developments.”

– Professor Andy Ruth, AtmoTrace lead, UCC School of Physics

A key highlight of the event will be a showcase of UCC’s new Irish Atmospheric Simulation Chamber. This custom-built facility is specially designed for investigating atmospheric processes, as well as testing and developing new atmospheric measurement techniques. Researchers from around the world can apply for access to this state-of-the-art facility in Cork through the ACTRIS network of atmospheric research facilities.

Researchers at work in the Irish Atmospheric Simulation Chamber

The World Health Organization (WHO) has described air pollution as the ‘single biggest environmental health risk’, with an estimated 400,000 premature deaths in Europe attributable to poor air quality every year. By bringing together chemists, physicists and other scientists who are working on similar research challenges with different techniques, this symposium will be a unique forum for tackling and advancing the challenge of air quality monitoring.


To find out more, visit the event page here: ‘Innovative measurement techniques for trace gases and radicals’


RADICAL is a Horizon 2020 EIC Pathfinder project (Grant Number 899282) developing a low-cost sensor for atmospheric radicals and other gases.

AtmoTrace is an Research Ireland Frontiers for the Future Award (Grant Number 21/FFP-A/8973) for the development of ultra-sensitive cavity enhanced trace gas detection techniques.

Follow our progress with RADICAL