Chemical Hazards, Environmental Toxins, And Allergens – 2023 Guide

Chlorine Dioxide Is A Hypoallergenic, Cleaner That Disinfects Air From Chemical Hazards, Environmental Toxins, And Allergens Like Dust, Mold, Dander, And Pollen, Deactivating Harmful Pollutants. 

Chlorine dioxide is a powerful, hypoallergenic disinfectant that can be used for various purposes. It is an excellent choice for killing bacteria, viruses, and other pathogens in the air and on surfaces. This versatile cleaner also deactivates hazardous environmental toxins and allergens such as dust, mold, dander, and pollen. Chlorine dioxide is much more effective than traditional bleaches or sanitizers in eliminating germs from indoor environments.

In addition to its disinfecting properties, chlorine dioxide can also be used as a sanitizer. Sanitizing with chlorine dioxide can help reduce food-borne illnesses by destroying microorganisms on food contact surfaces and reducing odors or other unpleasant smells associated with food preparation areas. It is ideal for health-sensitive environments such as hospitals and nursing homes where germs can quickly spread among patients and staff.

The use of chlorine dioxide extends beyond the realm of air purification and sanitation; it can also be used as a sterilant to eradicate microorganisms on medical devices before reuse or disposal. Its highly reactive nature ensures that all living organisms are destroyed during sterilization while leaving medical equipment unaffected by harsh chemicals like bleach or alcohol-based products. Chlorine dioxide also eliminates offensive odors from organic materials like garbage, feces, urine, vomit, smoke damage, and more without leaving any residues behind.

Dust, Mold, Dander, And Pollen, Deactivate Harmful Pollutants.

It Is Especially Effective Against Viruses, Bacteria, And Pathogens That Cause Respiratory Illnesses. Chlorine Dioxide Is Environmentally Friendly, Non-Toxic, And Does Not Produce Harmful Byproducts Or Leave Behind Any Residue On Surfaces. It Is Safe For Use Around People Of All Ages And Can Be Used In Hospitals, Schools, Homes, And Anywhere Else That Needs Safe And Effective Air Disinfection. Chlorine Dioxide Is An Ideal Solution For Allergy Sufferers Who Want To Breathe Easier Without The Use Of Chemical Disinfectants Or Other Toxic Agents.

Chlorine dioxide is also more effective than other air disinfectants because it breaks down rapidly and does not linger for long periods. This means that the air is safe to breathe shortly after chlorine dioxide has been used. Additionally, chlorine dioxide is non-corrosive and can be applied without any danger of damaging surfaces or fabrics. It also has a low odor profile, making it ideal for use where odors must be minimized.

Chlorine dioxide is an ideal air disinfectant for those seeking a safer, healthier environment. It is effective at quickly killing bacteria, viruses, and other pathogens while being safe for use around people of all ages. It is also non-toxic and environmentally friendly, with minimal odor and extremely short active life. Chlorine dioxide is the perfect choice to create a healthier, cleaner environment.


Use disinfectant around people, pets, children, babies, plants, and other living things, non-corrosive on surfaces, eliminate odor (animal bedding, litter boxes, shoes, garbage), general antibacterial, use on dyed fabrics, gentle, hypo-allergenic, and will not damage your skin or clothing when diluted properly. Prepare activated solution to a strength consistent with the maximum EPA threshold for residential and public access, and NON-food contact surfaces to control dust mites, pet dander, human skin that sheds, and other allergens.

Use-SiteCONCENTRATIONMix EQUAL PARTS 1:1  –  NaClO2 (Part A) and HCl (Part B)
General Disinfectant100 PPM100 drops A, with 100 drops B in 1 gallon of water. (4ml = 100 drops)
Moderate-Severe500 PPM500 drops A, with 500 drops B in 1 gallon of water. (5 tsp or 20ml = 500 drops)
Heavily Contaminated1,000 PPM1,000 drops A, with 1,000 drops B in 1 gallon of water. (10 tsp or 40ml = 1,000 drops)

Mix in the bottom corner of a designated plastic mixing container. Let the solution activate for 1 minute before dilution, then fill with water. Agitate until mixed. Use as a solution, spray, swab, sponge, flush, fill, dip, immerse, or mop in a manner consistent with usual standards. Soak all biohazards, animal handling equipment, forks, shovels, and scrapers before use or disposal. For spray, allow visible wetness for 10 minutes. For a soak, mop, fill, allow to drench or submerge for 5 minutes. No wipe or rinse required.

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


  1. Disinfection of Dental Chair Water Using Aqueous Chlorine Dioxide. Multidisciplinary Digital Publishing Institute. Application of Sustainable Chemical and Biological Methods for Pollutants Removal from Water. Li-Lin Wei. Chan-Chih Hu. Dec. 2021.
  2. GC-30 Technical Bulletin – Disinfectant/Sanitizer/Tuberculocide/Virucide * Fungicide/Algaecide/Slimicide/Deodorizer. American Mushroom Institute. 
  3. Effect of Chlorine Dioxide Gas on Fungi and Mycotoxins Associated with Sick Building Syndrome, S. C. Wilson, C. Wu, L. A. Andriychuk, J. M. Martin, D. C. Straus. APPLIED AND ENVIRONMENTAL  MICROBIOLOGY, Sept. 2005, p. 5399–5403.  
  4. Chlorine Dioxide on the Disinfection Student Health Centers of the Indoor Environment in the Elevator. Center for Biotechnology Information. Ching-Shan Hsu. April 2011.
  5. Susceptibility of Chemostat-Grown Yersinia Enterocolitica and Klebsiella Pneumoniae to Chlorine Dioxide, 49(1): 69–72. M S Harakeh, Appl Environ Microbiol. Jan. 1985
  6. Chlorine Dioxide Gas Decontamination of Large Animal Hospital Intensive and Neonatal Care Units, P. 144-154. Applied Biosafety 11(3) Henry S. Luftman. © Absa 2006.
  7. Determination of Chlorine Dioxide in Workplace Atmospheres. Journal of Chromatography A, P. 409-414. Vol 457. Eva Björkholm, Annika Hultman, Jan Rudling. 1988. 
  8. Insecticide and Insecticidal Method.  Takanori Miura Mitsukatsu Yatagai. Aug. 2012.
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