科研文章及研究報告
Scientific Reports & Research

Far-UVC (222nm) efficiently inactivates an airborne pathogen in a room sized chamber.

Scientific Reports, Eadie et al, 2022.

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No evidence of induced skin cancer or other skin abnormalities after 1 long term (66 weeks) chronic exposure to 222nm far-uvc readiation.

BioRXivl, Welch et al, 2022

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Far-UVC Light at 222 nm is Showing Significant Potential to Safely and Efficiently Inactivate Airborne Pathogens in Occupied Indoor Locations

Photochem Photobiol, David J Brenner, 2022.

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Inactivation Rates for Airborne Human Coronavirus by Low Doses of 222 nm Far-UVC Radiation.

"Viruses, Welch, el al, 2022.

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“Safety of 222 nm UVC Irradiation to the Surgical Site in a Rabbit Model.”

Photchem Photobiol, Fukui et al, 2022.

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The bactericidal effect of far-UVC on ESBL-producing Escherichia coli.

American Journal of Infection Control, Fukuda et al, 2022.

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Far UV-C radiation: An emerging tool for pandemic control.

Critical Reviews in Environmental Science and Technology, Blatchley III et al, 2022.

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Effect of ultraviolet C emitted from KrCl excimer lamp with or without bandpass filter to mouse epidermis.

Plos One, Narita et al, 2022.

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New Type of Ultraviolet Light Makes Indoor Air as Safe as Outdoors

Columbia University Irving Medical Center

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Far UV-C Radiation: Current State-of-Knowledge.

International Ultraviolet Association (IUVA), 2021.

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Far-UVC light (222 nm) efficiently and safely inactivates airborne human coronaviruses.

Scientific Reports, Buonanno et al, 2021.

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Extreme Exposure to Filtered Far-UVC: A Case Study

Photochem Photobiol, Eadie el al, 2021.

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Far-UVC light: A new tool to control the spread of airborne-mediated microbial diseases.

Scientific Reports, Welch et al, 2021.

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Dramatically Less DNA Damage from Far-UVC Krypton Chloride Lamps (222 nm) than from Daylight.

Research Gate, Eadie et al, 2021.

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Boeing Compatibility of Aircraft Interior Surfaces with 222-nm Far-UV Light Exposure.

Boeing.com, Harris et al, 2021.

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Effectiveness of 222-nm ultraviolet light on disinfecting SARS-CoV-2 surface contamination.

American Journal of Infection Control, Kitagawa et al, 2020.

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Ultraviolet C light with wavelength of 222 nm inactivates a wide spectrum of microbial pathogens

K. Narita et al. / Journal of Hospital Infection 105 (2020)

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TED2020: Can light stop the coronavirus?

David Brenner • TED2020

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Exploratory clinical trial on the safety and bactericidal effect of 222-nm UVC irradiation in healthy humans

Plos One, Fukui et al, 2020.

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DNA Damage Kills Bacterial Spores and Cells Exposed to 222-Nanometer UV Radiation

ASM Journals, W Taylor et al, 2020.

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Repetitive irradiation with 222nm UVC shown to be non-carcinogenic & safe for sterilizing human skin

Kobe University et al, 2020.

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科研文章及研究報告
Scientific Reports & Research

Far-UVC (222nm) efficiently inactivates an airborne pathogen in a room sized chamber.

No evidence of induced skin cancer or other skin abnormalities after 1 long term (66 weeks) chronic exposure to 222nm far-uvc readiation.

Far-UVC Light at 222 nm is Showing Significant Potential to Safely and Efficiently Inactivate Airborne Pathogens in Occupied Indoor Locations

Inactivation Rates for Airborne Human Coronavirus by Low Doses of 222 nm Far-UVC Radiation.

“Safety of 222 nm UVC Irradiation to the Surgical Site in a Rabbit Model.”

The bactericidal effect of far-UVC on ESBL-producing Escherichia coli.

Far UV-C radiation: An emerging tool for pandemic control.

Effect of ultraviolet C emitted from KrCl excimer lamp with or without bandpass filter to mouse epidermis.

New Type of Ultraviolet Light Makes Indoor Air as Safe as Outdoors

Far UV-C Radiation: Current State-of-Knowledge.

Far-UVC light (222 nm) efficiently and safely inactivates airborne human coronaviruses.

Extreme Exposure to Filtered Far-UVC: A Case Study

Far-UVC light: A new tool to control the spread of airborne-mediated microbial diseases.

Dramatically Less DNA Damage from Far-UVC Krypton Chloride Lamps (222 nm) than from Daylight.

Boeing Compatibility of Aircraft Interior Surfaces with 222-nm Far-UV Light Exposure.

Effectiveness of 222-nm ultraviolet light on disinfecting SARS-CoV-2 surface contamination.

Ultraviolet C light with wavelength of 222 nm inactivates a wide spectrum of microbial pathogens

TED2020: Can light stop the coronavirus?

Exploratory clinical trial on the safety and bactericidal effect of 222-nm UVC irradiation in healthy humans

DNA Damage Kills Bacterial Spores and Cells Exposed to 222-Nanometer UV Radiation

Repetitive irradiation with 222nm UVC shown to be non-carcinogenic & safe for sterilizing human skin

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科研文章及研究報告 Scientific Reports & Research

Far-UVC (222nm) efficiently inactivates an airborne pathogen in a room sized chamber.

No evidence of induced skin cancer or other skin abnormalities after 1 long term (66 weeks) chronic exposure to 222nm far-uvc readiation.

Far-UVC Light at 222 nm is Showing Significant Potential to Safely and Efficiently Inactivate Airborne Pathogens in Occupied Indoor Locations

Inactivation Rates for Airborne Human Coronavirus by Low Doses of 222 nm Far-UVC Radiation.

“Safety of 222 nm UVC Irradiation to the Surgical Site in a Rabbit Model.”

The bactericidal effect of far-UVC on ESBL-producing Escherichia coli.

​Far UV-C radiation: An emerging tool for pandemic control.

Effect of ultraviolet C emitted from KrCl excimer lamp with or without bandpass filter to mouse epidermis.

New Type of Ultraviolet Light Makes Indoor Air as Safe as Outdoors

Real-Life Application

​產品

支援

資訊

科研文章及研究報告
Scientific Reports & Research

Far UV-C radiation: An emerging tool for pandemic control.

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