Philips UV-C Disinfection Desk Lamp (24W)

  • ₱5,995.00
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Protect your home against viruses and bacteria with UV-C lighting

The Philips UV-C desk lamp can effectively deactivate viruses, bacteria, molds and spores, in a matter of minutes. Built-in sensors and timers provide an added layer of protection for you and your family.

• 99.99% Disinfection Effectiveness—all bacteria and viruses tested to date respond to UV-C disinfection²

• Our UV-C surface disinfection products, fitted with our UV-C light sources, can inactivate SARS-CoV-2 (the virus that causes COVID-19 disease) on surfaces by more than 99% to below detectable levels.³

• Disinfects surfaces and objects in minutes¹

• Safe usage with delayed start motion sensor and voice prompts

• No ozone emission


1. Disinfection effectiveness will vary depending on disinfection time, distance and type of surface/object. See product manual/webpage for details.
2. Fluence (UV Dose) Required to Achieve Incremental Log Inactivation of Bacteria, Protozoa, Viruses and Algae Revised, updated and expanded by Adel Haji Malayeri, Madjid Mohseni, Bill Cairns and James R. Bolton. With earlier contributions by Gabriel Chevrefils (2006) and Eric Caron (2006) With peer review by Benoit Barbeau, Harold Wright (1999) and Karl G. Linden.
3. In laboratory testing, Signify’s UV-C light sources reduced SARS-CoV-2 virus infectivity on a surface to below detectable levels in as few as 9 seconds (Nadia Storm et al., 2020, accessible here ). In this study, an exposure to an UV-C irradiance of 0.849 mW/cm2 for the duration of 9 seconds was applied, resulting in an UV-C dose of 7.64 mJ/cm2. Our UV-C surface disinfection products (fitted with our UV-C light sources) will achieve the same level of virus infectivity reduction as long as the same UV-C dose is achieved on each area of surface that is irradiated.
4. A comparison of pulsed and continuous ultraviolet light sources for the decontamination of surfaces. McDonald K.F., Curry R.D., Clevenger T.E., Unklesbay K., Eisenstark A., Golden J., Morgan R.D. IEEE Trans. Plasma Sci. 2000;28:1581–1587. doi: 10.1109/27.901237.

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