by Adam Ritchey | Oct 31, 2024 | Research
SOURCE: American Journal of Infection Control / November, 2022 “The present study clearly showed a bactericidal effect of far-UVC on ESBL-producing E. coli. We believe that irradiation with far-UVC may be potentially effective in preventing infection by...
by Adam Ritchey | Oct 31, 2024 | Research
SOURCE: Nature Scientific Reports / January, 2023 “By varying the lamp irradiance output, the number and positions of the lamps, the far-UVC irradiation can achieve a 3-log reduction for a dining duration of 5 min. Besides, the far-UVC lamp has a low damage...
by Adam Ritchey | Oct 31, 2024 | Research
SOURCE: Photochemistry and Photobiology / January, 2023 No Evidence of Induced Skin Cancer or Other Skin Abnormalities after Long-Term (66 week) Chronic Exposure to 222-nm Far-UVC Radiation AbstractFar-UVC radiation, typically defined as 200-235 nm, has...
by Adam Ritchey | Mar 28, 2024 | Research
The story of Far-UVC light technology is one of innovation, perseverance, and scientific discovery. To understand its present-day applications and potential, it’s essential to delve into its historical development, tracing the journey from its conceptual beginnings to...
by Adam Ritchey | Mar 21, 2024 | Research
Research suggests that to prevent common mold growth, low-dose Far-UVC light could be applied as a chemical-free addition to manual cleaning of indoor surfaces. A recent study has determined that intermittent low-intensity Far-UVC light can inhibit mold growth below...
by Adam Ritchey | Mar 15, 2024 | Research
GUV technology has the potential to contribute significantly to lower pathogen concentrations on surfaces and in the air in many areas of human activities, in food supply and yet to be discovered areas. Consequently, this is expected to lower pathogen transmission...