Police Cars Between Shifts With Chlorine Dioxide

Police officers are responsible for ensuring community safety, often in hazardous and unpredictable environments. Consequently, maintaining the integrity of their essential tools, such as patrol cars, is crucial. Sanitizing and deodorizing police vehicles between shifts is a vital part of their protocol. However, efficiently and safely accomplishing this task can be a daunting challenge, especially when it comes to incorporating chlorine dioxide for police car sanitization.

Chlorine dioxide is a highly effective chemical disinfectant that can be used for this purpose. It is highly effective at inactivating and killing bacteria, viruses, and fungi and eliminating odors and other organic compounds. In addition to its effectiveness against pathogens and odors, chlorine dioxide also has other benefits that make it an attractive solution for sanitizing police cars. These include its ability to penetrate porous surfaces, low toxicity and lack of harmful byproducts, fast action, and cost-effectiveness relative to other decontamination methods.

Utilizing chlorine dioxide gas for police car sanitization offers a highly efficient and effective solution. This specialized technique is particularly advantageous for police officers, allowing them to maintain their vehicles while minimizing disruptions to their demanding schedules. Chlorine dioxide gas exhibits exceptional penetration capabilities, reaching even the most inaccessible corners of the vehicle and eradicating persistent odors that conventional cleaning agents struggle to eliminate. Moreover, it serves as a potent germicide, effectively neutralizing bacteria, mold, and mildew that may be present in the car.

Officers are often exposed to hazardous materials while on duty, which can lead to serious health risks if not properly sanitized between shifts. By using chlorine dioxide gas, police departments can ensure that officers are not at risk of exposure by entering a vehicle contaminated from prior use. Chlorine dioxide gas does not leave any residual toxins or allergens after treatment, meaning officers can re-enter their cars without fear of contamination or illness.

Chlorine dioxide gas is not only highly efficient for sanitizing and deodorizing police cars between shifts, but it also boasts a lower environmental impact compared to traditional cleaning products. This gas is free from harsh chemicals and toxins, making it a safer and more environmentally-friendly choice for police departments striving to reduce their carbon footprints. By opting for chlorine dioxide police car sanitization, law enforcement agencies can prioritize both the well-being of their officers and the preservation of the environment.


Use for public access, professional HVAC, filters, air ducts, ventilation, motor vehicles, fleets, R.V.s, buses, gym, hotel, church, animal shelter) and other public facilities/industrial applications. The OSHA STEL value to which ClO2 in the case of the workplace atmosphere is 0.30 PPM concentration tolerable for a 15 min period without any damage. Each gallon will treat approximately 1,000 – 1,500 sq. ft. of surface. Prepare activated solution to a strength consistent with the maximum threshold for a strength consistent with use as a commercial fogging agent, mechanical coarse, hand pump, surfaces in medical facilities, livestock areas, where a powerful biocide is needed, to remove airborne pathogens, for water damage and mold remediation on porous, and NON-porous surfaces including concrete, asphalt, (sub)floor, carpet, and turf.

Use-SiteCONCENTRATIONMix EQUAL PARTS 1:1  –  NaClO2 (Part A) and HCl (Part B)
Non-Food Contact200  PPM200 drops A, with 200 drops B in 1 gallon of water. (8ml = 200 drops)
HVAC – Vents and Air Ducts500 PPM500 drops A, with 500 drops B in 1 gallon of water. (20ml = 500 drops)
Insecticide or Fumigant725 PPM725 drops A, with 725 drops B in 1 gallon of water. (29ml = 725 drops)

Mix in the bottom corner of a designated plastic mixing container. Let the solution activate for 1 minute before dilution, then fill the container with water. Agitate until mixed. Use as a solution or as a spray, in a manner consistent with usual standards. 

  • SPRAY / FOG – allow visible wetness for 5 minutes before drying. 
  • SWAB / SPONGE PARTS – allow visible wetness for 5 minutes before drying. 
  • DIP / RINSE PARTS – allow to drench or submerge for 1 minute. 

Fogging is to be used as an adjunct to acceptable manual cleaning and disinfecting for room and environmental surfaces. People must vacate the premises during fogging treatments; a one-hour restricted entry interval (REI) is required. When fogging, VeriSan™ proper respiratory and ventilation protection must be worn. NIOSH / MSHA approved respirator with an Organic Vapor / Acid Gas Cartridge. Secure proper respiratory and eye wear protection prior to activation. 


  1. Effect of Chlorine Dioxide Gas on Fungi and Mycotoxins Associated with Sick Building Syndrome, P. 5399–5403. Applied And Environmental Microbiology. S. C. Wilson, C. Wu, L. A. Andriychuk, J. M. Martin, T. L. Brasel, C. A. Jumper, D. C. Straus. Sept. 2005.
  2. Efficacy of Chlorine Dioxide as a Gas and in Solution in the Inactivation of two Trichothecene Mycotoxins. P. 181 – 186 Volume 24, Issue 3. S. C. Wilson, T. L. Brasel, J. M. Martin, C. Wu, L. Andriychuk, D. R. Douglas, L. Cobos. International Journal Of Toxicology. May 2005. 
  3. Inactivation of Chironomid Larvae with Chlorine Dioxide, 142(1-2):348-53. Hazard Mater. Epub. Sun Xb, Cui Fy, Zhang Js, Xu F, Liu Lj., J. Aug. 2006.
  4. Preventing Spread of Disease on Commercial Aircraft: Guidance for Cabin Crew. Center for Disease Control and Prevention. August 2019. 
  5. Infections and Infectious Diseases. World Health Organization Regional Office for Europe. 2001.
  6. Chlorine Dioxide Skin Medicating Compositions for Preventing Irritation. Howard Alliger, Habib Roozdar. April 1995.
  7. Exploration of Reaction Rates of Chlorine Dioxide with Tryptophan Residue in Oligopeptides and Proteins. P. 129-136 Volume 93. Journal of Environmental Sciences. Yuexian Ge, Yu Lei, Xin Lei. July 2020.
  8. Chlorine Dioxide is a Size-Selective Antimicrobial. Department of Physics, Budapest University of Technology and Economics, Budapest, Hungary. Zoltán Noszticzius, Maria Wittmann, Nov. 2013.
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