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UV-Crosslinker, for N95 Mask Decontamination and Ultraviolet (UV) Germicidal Irradiation


The Boekel Scientific UV Crosslinker AH typically is used for radiation control issues. Get faster and more accurate results for UV crosslinking DNA or RNA, Northern or Southern dot or slot blot analysis and more with this easy-to-use UV sterilization box.

Due to the SARS-CoV-2 outbreak and the limited availability of disposable filtering face-piece respirators (FFRs), there is a need to sterilize masks that healthcare providers (HCPs) provide for personal protective equipment. The Boekel Scientific UV Crosslinker AH is one device that can do this, through ultraviolet (UV) germicidal irradiation. The most common such masks used in a health care setting are rated N95. (See below for a more comprehensive discussion about sterilization of masks designed for one-time use.)

The Crosslinker AH comes calibrated for 254 nm, 306 nm and 368 nm bulbs. Samples remain stationary at the bottom of the unit while bulbs are adjusted. Change the bulb, select a choice on the display - and you are done.

Features of the Boekel UV Crosslinker AH:
  • The unit comes equipped with 5 254 nm Shortwave Bulbs
  • The Boekel UV Crosslinker AH comes calibrated for 254 nm Shortwave Bulbs as well as 306 nm and 368 nm bulbs. Change bulbs and select bulb choice on the display – that’s it!
  • Large UV protective window allows for easier process inspection
  • Two modes of operation – Energy or Time
  • Open Door Safety mechanism
  • Energy Efficient electronic ballasts
  • Small footprint
  • UL/CSA/CE Approved

The use of personal protective equipment (PPE) has dramatically increased because of the SARS-CoV-2 outbreak. The virus is thought to be transmitted primarily through respiratory droplets, so that disposable filtering face-piece respirators (FFRs) are an essential piece of PPE for healthcare providers (HCPs) and others working closely with individuals diagnosed with or exposed to SARS-CoV-2. These masks prevent transmission of infectious disease by direct inhalation or contact with the mucus membranes of the nose or mouth by filtering out pathogens. Disposable FFRs are negative pressure air purifying particulate respirators that differ from other respirators because the filtering media itself is the mask.

To be a certified FFR, the mask must be NIOSH approved, double strapped, and clearly labeled with both a letter designation (N,R,P) indicating resistance to oil degradation, and a number for filtering efficiency (95, 99, 100).(1)

In a healthcare setting, masks rated as N95 are the most commonly used.(2) These FFRs are not resistant to oil (N) and block 95% (95) of airborne particle ≥ 0.3 microns.(1)

The increased need for these masks, and decrease in availability, has resulted in requiring HCPs or their employers to ration masks for use. Although these masks were designed for one-time use, many HCPs are required to reuse the FFRs for organizations to maintain adequate protection for all workers and patients. In order to protect their employees and patients, institutions are seeking ways to sterilize these masks to ensure continuity of protection. A common, non-chemical method of sterilization is the use of ultraviolet (UV) light.

UV light is electromagnetic radiation with a wavelength range from 10nm to 400nm, falling between the wavelengths of visible light and x-rays. UV light is divided into three bands: UVA (315nm-400nm), UVB (280-315nm) and UVC (100nm-280nm).(3) Radiation in the UVC range has been found to inactivate microorganisms primarily by damaging their genetic material. UV light can cause thymine bases to fuse together, therefore rendering the nucleotide sequence inactive.(2) This reaction keeps the viral particles from replicating and allows UV radiation to be used to sterilize workspaces, lab equipment, and medical devices.(2) Short-wave ultraviolet light, or Ultraviolet germicidal irradiation (UVGI), has been shown to be effective for sterilizing, but efficacy is dependent on UV dose.(4)

The CDC has issued FFR decontamination guidance for organizations as a crisis capacity strategy during the current pandemic.(4)

The recommendations emphasize that when possible, disposable PPE should not be reused, but that reuse may be necessary to ensure continued protection for HCPs.(4) In their recommendations, the CDC has summarized research studies performed on different N95-rated FFRs using various sterilization techniques and protocols.(4)

Three methods have shown the most promise: UVGI, vaporous hydrogen peroxide, and moist heat.(4) When using a sterilization method, the organization should consult the respirator manufacturer about the impact of the chosen method on the respirators before considering any method.(4) If a manufacturer provides feedback about a protocol that can safely be used with their product, the sterilized FFR may be used in aerosol-generating medical procedures. However, if guidance is not available from the manufacturer, FFRs can still be decontaminated, but should not be worn by HCPs during aerosol-generating procedures.(4) Investigators cite concerns with reusing masks including damage to the material in the sterilization process, leading to ineffective filtration or fit, and the possibility that not all pathogens are eliminated from the device.(4)

It is important to note that results available from decontamination methods do not include data specific to the SARS-CoV-2 virus. Some studies have used the SARS-CoV-1 virus when evaluating FFR sterilization, but most studies use an influenza virus for testing.(4) Even after decontamination, FFRs should be handled carefully.(4) Prior to donning a decontaminated FFR, HCPs should clean their hands with soap and water or an alcohol-based sanitizer; avoid touching the inside of the FFR; use gloves when donning and performing a seal check; visually inspect the FFR for any evidence of damage or degradation of the filtration material, straps, nose bridge, or nose foam; perform a user seal check; and discard the FFR if a user seal check cannot be performed or is unsuccessful.(4)

Efficacy in FFR Sterilization protocols: using UVGI, the dose of UV light varied, with a range of 0.5-1.8 J/cm2. Antimicrobial efficacy was greater than 99.99% overall. Most studies looked at log reduction in pathogens, not complete elimination of pathogens. There may be limitations to efficacy in killing viral and bacterial particles due to shadow effects and the many layers of the FFR.(4)

A study done by the University of Nebraska Medical Center comparing 60mJ/cm2 and 300 mJ/cm2 UVC exposure reduced surrogate viral and bacterial organisms by a 6 log factor.(5) The rational for this dosing was based off a 2007 study in which single-stranded RNA viruses on surfaces were 99% inactivated by UVGI exposure of 2-5 mJ/cm2.(6)

Durability in the studies using UVGI: available studies protocols revealed 90-100% durability of the FFR after three rounds of UVGI sterilization.(4)

Protocols in Use: A protocol published by University of Nebraska Medical Center uses a 300 mJ/cm2 dose of UV light. The protocol uses two UV-emitting towers in a room painted with reflective paint. UV light is applied until the in-room sensor reaches the target dose.(5) Another protocol developed using a laboratory UV Crosslinker exposes each FFR to a dose of 1J/cm2, running the process twice to decontaminate each side of the mask.(7)

How the Boekel UV Crosslinker is being used:

The Boekel UV Crosslinker releases a controlled amount of UV radiation for various laboratory purposes. The device is typically used in molecular biology for crosslinking DNA or RNA in Northern or Southern blot analysis. It can also be used for UV curing and it can be used for UV sterilization and sanitation.(8) The Crosslinker contains five 254nm bulbs, which can be replaced with bulbs of a different wavelength if desired. However, the 254nm bulbs are a suitable wavelength for UVGI.(8)

The Boekel UV crosslinker has adjustable height bulbs, a UV blocking viewing window, and a stainless-steel interior chamber ideal for cleaning. The unit has two modes of operation, time-based and energy-based. In the time-based mode, the user can set the UV light to run for a set amount of time. In the energy-based mode, the unit uses an internal UV sensor to determine the UV cycle endpoint.(8) Hospitals systems in the United States have been sourcing the Boekel UV Crosslinker because the device is an easily deployable solution for UV sterilization.


1. NIOSH Guide to the Selection and Use of Particulate Respirators. CDC website. Updated June 6, 2014. Accessed April 22, 2020. https://www.cdc.gov/niosh/docs/96-101/default.html

2. Lindsley WG, Martin SB Jr, Thewlis RE, et al. Effects of Ultraviolet Germicidal Irradiation (UVGI) on N95 Respirator Filtration Performance and Structural Integrity. J Occup Environ Hyg. 2015;12(8):509–517. doi:10.1080/15459624.2015.1018518

3. Ultraviolet Radiation and Health. World Health Organization website. Accessed April 21, 2020. https://www.who.int/uv/uv_and_health/en/

4. Decontamination and Reuse of Filtering Facepiece Respirators. Centers for Disease Control and Prevention website. Updated April 9, 2020. Accessed April 17, 2020. https://www.cdc.gov/coronavirus/2019-ncov/hcp/ppe-strategy/decontamination-reuse-respirators.html

5. Lowe, JJ, Paladino KD, Farke JD, et al. N95 Filtering Facepiece Respirator Ultraviolet Germicidal Irradiation (UVGI) Process for Decontamination and Reuse. Nebraska Medicine e-publication. . Updated April 10, 2020. Accessed April 22, 2020. https://www.nebraskamed.com/sites/default/files/documents/covid-19/n-95-decon-process.pdf

6. Tseng CC, Li CS. Inactivation of Viruses on Surfaces by Ultraviolet Germicidal Irradiation. Journal of Occupational and Environmental Hygiene. 2007;4(6): 400-405.

1. NIOSH Guide to the Selection and Use of Particulate Respirators. CDC website. Updated June 6, 2014. Accessed April 22, 2020. https://www.cdc.gov/niosh/docs/96-101/default.html

7. Ultraviolet-based Disinfection for the Inactivation of Viruses on Respirator Masks. Analytik-jena website. Updated April 2020. Accessed April 21, 2020. https://www.analytik-jena.com/fileadmin/content/products/UVP_Crosslinker/Crosslinker_Mask_Disinfection.pdf

8. UV Crosslinker Manual N2400340 Rev. 2. Boekel Scientific. . Accessed April 21, 2020. https://www.boekelsci.com/boekel-uv-crosslinker-ah-115v.html

Specifications (Click here):  UV-Crosslinker, for N95 Mask Decontamination and Ultraviolet (UV) Germicidal Irradiation

NumberDescriptionPrice $
234100 UV Crosslinker AH, with 5 x 254 nm Shortwave Lamp, 115 Volts