Chlorine Dioxide As A Treatment For Cockroaches
Chlorine Dioxide As A Treatment For Cockroaches. Cockroaches are a common household pest and can be challenging to remove, but chlorine dioxide can help remove them.
To kill cockroaches with chlorine dioxide, it’s important to use a high concentration of the gas. This can be achieved using a professional pest control professional with experience in chlorine dioxide or a a heavy-duty generator for commercial use to produce the gas.
Cockroaches can be a nuisance and cause health problems, but store-bought solutions may not always work. To make sure you don’t have to worry about harsh chemicals or cross-contamination, consider using chlorine dioxide as an alternative DIY treatment for cockroaches. Chlorine dioxide is an effective clean that can help remove bacteria, harmful organisms, and odors from for living purposes areas without leaving behind any dangerous residues or fading the color of your surfaces.
To use chlorine dioxide for roaches treatment, mix a small amount of the chemical with water according to the manufacturer’s instructions and spray it onto all affected areas. One method of using chlorine dioxide to kill roaches is to seal off the site where the roaches are located and introduce the gas into the air and space. The gas will fill the area and penetrate all surfaces, including cracks and crevices where roaches may be hiding. Another method is to use a spray bottle to apply a diluted chlorine dioxide solution directly to the roaches. This can kill the cockroach on contact, but it may not be as effective in removing an infestation.
It’s important to note that while chlorine dioxide can effectively kill roaches, it is not a long-term solution to prevent future pest invasion. Chlorine Dioxide As An Alternative DIY Treatment For Cockroaches. Proper sanitation and regular pest control measures should be taken to avoid cockroach infestations.
Always allow the solution to remain for several minutes before wiping down surfaces with a damp cloth. With these steps in place, you can easily keep your home free of cockroaches without having to worry about cross-contamination or damaging the material. Chlorine dioxide is an effective clean that can help remove bacteria, parasites, and odors from residential areas without leaving behind any dangerous residues or fading the color of your surfaces. Additionally, when handled properly, chlorine dioxide is highly effective and a safe alternative to conventional bug killer, making it an ideal option for those looking for a more natural solution.
FUMIGATE AND INSECTICIDE. Deactivate Debris or Droppings and Prevent Pests and Insects.
Use as clean for a variety of settings, in buildings or vehicle air movement systems where indoor impurity is blown around through air ducts, filters, heaters, and providing ventilation a breeding environment for environmental contaminants and allergy triggers. Apply as an bug killer to control mites, bedbugs, ticks, fleas, roaches, and their eggs, and to clean and remove contamination large areas, quickly and successfully, and leave a fresh-clean scent behind. Prepare a turned solution to a strength consistent with the maximum threshold for HVAC, fogging surfaces, or smoke treatment for pest control for bug or pest outbreaks.
Use-Site | CONCENTRATION | Mix EQUAL PARTS 1:1 – NaClO2 (Part A) and HCl (Part B) |
Light – Non-Food Contact | 50 PPM | 50 drops A, with 50 drops B in 1 gallon of water. (2ml = 50 drops) |
Moderate – Non-Food Contact | 100 PPM | 100 drops A, with 100 drops B in 1 gallon of water. (4ml = 100 drops) |
Heavy – Non-Food Contact | 200 PPM | 200 drops A, with 200 drops B in 1 gallon of water. (8ml = 200 drops) |
HVAC – Vents and Air Ducts | 500 PPM | 500 drops A, with 500 drops B in 1 gallon of water. (20ml = 500 drops) |
Insecticide or Fumigant | 725 PPM | 725 drops A, with 725 drops B in 1 gallon of water. (29ml = 725 drops) |
Mix recommended strength in the corner of a assigned plastic mixing container. Let the solution activate for 1 minute before dilution, then fill with water. Agitate until mixed. Use as a solution in a manner consistent with usual standards.
- SPRAY – 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.
References:
Bakhmutova-Albert, E. V., Margerum, D. W., Auer, J. G., & Applegate, B. M. (2008). Chlorine dioxide oxidation of dihydronicotinamide adenine dinucleotide (NADH). Inorganic chemistry, 47(6), 2205-2211.
Benarde, M. A., Snow, W. B., Olivieri, V. P., & Davidson, B. (1967). Kinetics and mechanism of bacterial disinfection by chlorine dioxide. Applied microbiology, 15(2), 257-265.
Ge, Y., Lei, Y., Lei, X., Gan, W., Shu, L., & Yang, X. (2020). Exploration of reaction rates of chlorine dioxide with tryptophan residue in oligopeptides and proteins. Journal of Environmental Sciences, 93, 129-136.
Huerkamp, M. J., & Pullium, J. K. (2009). Quarantine facilities and operations. In Planning and Designing Research Animal Facilities (pp. 365-376). Academic Press.
Kenyon, A. J., Hamilton, S. G., & Douglas, D. M. (1986). Comparison of antipseudomonad activity of chlorine dioxide/chlorous acid-containing gel with commercially available antiseptics. American journal of veterinary research, 47(5), 1101-1104.
Kenyon, A. J., Hamilton, S. G., & Douglas, D. M. (1986). Controlled wound repair in guinea pigs, using antimicrobials that alter fibroplasia. American journal of veterinary research, 47(1), 96-101.
Rutala, W. A., & Weber, D. J. (2008). Guideline for disinfection and sterilization in healthcare facilities, 2008.
Wilkins, R. J. (2014). Surgical wound management in dogs using an improved stable chlorine dioxide antiseptic solution. J Vet Sci Anim Husb, 1, 403.Young, R. O. (2016). Chlorine dioxide (ClO2) as a non-toxic antimicrobial agent for virus, bacteria and yeast (Candida albicans). Int J Vaccines Vaccin, 2(6), 00052.