Author: Hickerson, R P; Conneely, M J; Tsutsumi, S K Hirata; Wood, K; Jackson, D N; Ibbotson, S H; Eadie, E
Title: Minimal, superficial DNA damage in human skin from filtered far-ultraviolet-C (UV-C). Cord-id: cib5u84c Document date: 2021_1_16
ID: cib5u84c
Snippet: Krypton-Chloride (Kr-Cl) excimer lamps have a peak emission wavelength of 222 nm in the ultraviolet-C (UV-C) region of the electromagnetic spectrum. Currently Kr-Cl lamps are the only viable "far-UV-C" sources for full-room inactivation of airborne SARS-CoV-2, the virus responsible for the COVID-19 pandemic1 . Commercially available Kr-Cl excimer lamps can be retro-fitted to existing room lamp fittings or mounted at ceiling height independently. Other technologies, such as light emitting diodes
Document: Krypton-Chloride (Kr-Cl) excimer lamps have a peak emission wavelength of 222 nm in the ultraviolet-C (UV-C) region of the electromagnetic spectrum. Currently Kr-Cl lamps are the only viable "far-UV-C" sources for full-room inactivation of airborne SARS-CoV-2, the virus responsible for the COVID-19 pandemic1 . Commercially available Kr-Cl excimer lamps can be retro-fitted to existing room lamp fittings or mounted at ceiling height independently. Other technologies, such as light emitting diodes (LEDs), are currently neither efficient nor powerful enough for such a task.
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