Research Papers：

Far-UVC efficiently inactivates an airborne pathogen in a room-sized chamber, Eadie et al. 2022

Turn up the lights, leave them on, and shine them all around – numerical simulations point the way to more efficient use of Far-UVC lights for the inactivation of airborne coronavirus, Wood et al. 2022

Computer Modeling Indicates Dramatically Less DNA Damage from Far-UVC Krypton Chloride Lamps (222 nm) than from Daylight, Eadie et al. 2021

Extreme Exposure to Filtered Far-UVC: A Case Study, Eadie et al. 2021

Minimal, superficial DNA damage in human skin from filtered far-ultraviolet-C (UV-C), Hickerson et al. 2021

Far-UVC light (222 nm) efficiently and safely inactivates airborne human coronaviruses, Buonanno et al. 2020

Further evidence that far-UVC for disinfection is unlikely to cause erythema or pre-mutagenic DNA lesions in skin, Barnard, et al. 2020

Publicity：

New anti-viral light could make indoor settings Covid-safe, Kingdom FM radio interview, 24 March 2022

New anti-viral light could make indoor settings Covid-safe, University of St Andrews, March 2022

Is UVC lighting the way to a COVID-free future?, Rachel Black, Pint of Science, May 2021

Trailblazing use of light to kill viruses given UK government support, University of St Andrews, March 2021

Ultraviolet C (UVC) to combat Covid-19, Paul O’Mahoney, The Naked Scientists, March 2021

Is UVC lighting the way to a COVID-19 free future?, Rachel Black, St Andrews University, Physics and Astronomy Student Magazine, February 2021

Ultraviolet light has bright future in fight against Covid-19, University of St Andrews, May 2020