VIRUSES & BACTERIA
Viruses and bacteria cower in the face of DHP™ (Dry Hydrogen Peroxide).
No matter which industry you’re in, viruses and bacteria can exist undetected in the air and on surfaces for hours. Synexis DHP™, our patented technology, was designed to safely, continuously, and effectively flow throughout indoor, occupied spaces to fight pathogens in the air and on surfaces.1
SARS-CoV-2 Delta variant: >99.99% reduction in air at 90 minutes vs. control2
SARS-CoV-2: 98.7% reduction on surfaces at 2 hours vs. control3
MS2 Virus (coronavirus surrogate): >99.99% reduction in air at 4 hours vs. control4
Influenza Type A: 99.8% reduction on surfaces after the first 60 minutes vs. control5
Norovirus (feline calicivirus surrogate): 99.8% reduction on surfaces at 6 hours vs. control6
C. difficile: 94.6% reduction on surfaces at 24 hours vs. control7
E. coli: >99.85% reduction in air at 1 hour vs. control8
E. faecalis (VRE): >99.99% reduction on surfaces at 2 hours vs. control9
S. aureus (MRSA): >99.99% reduction on surfaces at 2 hours vs. control10
P. aeruginosa: 98.7% reduction in air at 1 hour vs. control11
S. enterica: 91.62% reduction on surfaces at 6 hours vs. control12
S. enterica: >99.9% reduction on surfaces at 10 hours vs. control13
MOLDS, FUNGI, & YEAST
Molds, fungi, and yeast are just simply allergic to Synexis.
Locker rooms, dorm rooms, weight rooms, hotel rooms, classrooms, whichever the kind, you’ll want Synexis to have your back. We use our patented DHP™ to weaponize naturally occurring oxygen and humidity to help reduce the presence of mold, fungi, and yeast.
MOLDS & FUNGI
A. niger (A. brasiliensis): 90.8% surface reduction at 24 hours9
A. niger (A. brasiliensis): >99.9% in-air reduction at 2 hours13
ODORS & INSECTS
It really stinks for these odors and insects that Synexis is so effective.
From the nose-hair-burning chemical odors of industrial cleaners used in hospitals and schools to the plethora of pesky insects that inhabit poultry plants and restaurants, Synexis DHP™ flows through indoor spaces to reduce these microbes in the air, on surfaces, and in hard-to-reach areas without interrupting your employees’ workflow.
References: 1. Centers for Disease Control and Prevention. (2019, October 30). CDC – NIOSH Pocket Guide to Chemical Hazards – hydrogen peroxide. Centers for Disease Control and Prevention. Retrieved November 11, 2021, from https://www.cdc.gov/niosh/npg/npgd0335.html. 2. Data on File. SYN-0012. 3. Huang, Y.-J. S., Bilyeu, A. N., Hsu, W.-W., Hettenbach, S. M., Willix, J. L., Stewart, S. C., Higgs, S., & Vanlandingham, D. L. (2021). Treatment with Dry Hydrogen Peroxide Accelerates the Decay of Severe Acute Syndrome Coronavirus-2 on Non-porous Hard Surfaces. American Journal of Infection Control. https://doi.org/10.1016/j.ajic.2021.07.006 4. Data on File. SYN-0001. 5. Data on File. SYN-0002. 6. Data on File. SYN-0003. 7. Data on File. SYN-0004. 8. Data on File. SYN-0005. 9. Data on File. SYN-0006. 10. Data on File. SYN-0007. 11. Data on File. SYN-0008. 12. Data on File. SYN-0009. 13. Data on File. SYN-0010. 14. Aerosol Research and Engineering Laboratories. (2021). Formaldehyde Elimination Efficacy of the Synexis Sphere Device in a Sealed Test Chamber. (Report No. 10868.70). 15. Data on File. SYN-0011.