Our air purifiers disinfects the air and surfaces throughout a room, which goes far beyond many other air purifiers. We go beyond the need of having a HEPA filter to have an effect. A 2016 study found our technology killed 99.998% of MERS coronavirus on a surface in just 4 hours. This means if a germ makes it on a surface, like a door handle, and THEN you turn on our units our technology is able to sanitize that surface. A study at the University of Arizona (UA) found that 50% of commonly touched surfaces in an office would be infected by a virus by lunchtime (just 4 hours) if a single sick employee came to work that morning.
How it works
UVC light destroys germs as they pass by. Oxidizing Catalytic Molecules are then formed from water vapor when the UVC rays excite the AHPCO nanometal Catalyst. Clean-Tech does not have a UV light but splits water vapor in the ambient air into Polarized Catalytic Molecules which are proactively dispersed throughout the ambient air. Catalytic Molecules actively seek out pollutants and break them apart at a molecular level. Contaminants are neutralized as they are destroyed. Oxidizing Catalytic Molecules are more effective at neutralizing VOCs, while Polarized Catalytic Molecules have a clustering effect that is extremely effective at causing particulates to become heavy and drop out of the air.
Tried and Tested
Our technology has undergone over a decade of rigorous testing and field studies by 3rd party laboratories, universities, commercial clients, and leading independent researchers. Not only do we purify the air of contaminants 1,000 times smaller than HEPA filters, but our technology also kills viruses, bacteria, and mold on surfaces like door handles, countertops, and walls. Effective against allergens, fine particulates (PM2.5), formaldehyde, microbes, air pollution, chemical gases, and more.
The Korea Testing and Research Institute conducted a specialized study on our technology. They saw reductions of 99.9% against E. Coli, S. Typhimurium (salmonella), MRSA, L. Monocytogenes (listeria), B. Subtilis, P. Aeruginosa, and S. Aureus. RTI International’s Dynamic Microbiological Test Chamber’s extrapolated results showed that the unit could efficiently clear 25,000 cubic feet of Staphylococcus epidermidis, Aspergillus versicolor, and Penicillium chrysogenum in a matter of hours and the resilient Mycobacterium parafortuitum in only a few days.
Today an estimated 2 billion cubic feet of air is sanitized with our technology – every hour. From tens of thousands of homes to the tallest building on earth, we are proud to be able to provide solutions that actually work in the real world. Commercial clients include world-renowned five-star resorts, the tallest building in the world, professional sports teams, and hospitals.
Innovative Efficiency
Our extremely compact products cover much larger spaces than competing technologies. Low energy, little to no maintenance, and whisper-quiet operation set our products apart. USA designed & assembled with the highest quality components (global and/or domestic) and technology available.
Tech | How | Strengths | Weaknesses | Coverage | Surfaces | Upkeep |
---|---|---|---|---|---|---|
Most Filters | Air forced through a basic filter will trap large particles | Most store bought air purifiers feature filters with very little use. Some dust and large particles will be trapped | Has almost no effect on general air quality. Has no effect against odors, VOCs, biologicals, etc. | Small areas, no more than a room | Zero effect | Frequent filter replacements required. |
Negative Ions | Negative oxygen are produced using a variety of methods & quantities. | Has an effect on removing biologicals and VOCs. | Has a tendency to stick together and become ineffective. Unable to travel distances. Not effective against odors or most particulates. | Small areas, no more than a room | Possible, but not typically effective | Little to none |
Ozone Generator | Ozone (O3) is produced in high quantities using a variety of methods | Effective method to neutralize odors, chemical gases, bacteria, mold, viruses, and more. | Typically produce high concentrations of Ozone beyond safety standard limits. Often requires evacuation of the room. Can become irritating and leave an unpleasant odor. | Can remove contaminants in large areas or entire buildings. | Highly effective against viruses, bacteria, mold, and entrenched odors found on surfaces | Often requires costly and frequent bulb replacements. |
PCOwith UVGI or UV LED | UV light reacts with a metal TiO2 catalyst to produce hydroxyl radicals. | Effective at reducing bacteria, mold, viruses, and VOCs that come into contact with the catalyst surface (only air passing through its chamber) | Is only effective on the air that goes through the filter chamber. Does not remove particulate matter. Risk of incomplete oxidation. Requires slow airflow rates. Use of LED bulbs extends system life, but decreases effectiveness. | Can cover larger areas than HEPA, but typically no more than a room. HVAC installations are possible. | Zero effect | Costly and frequent bulb replacements required unless LED bulbs are used. |
True HEPA | Air forced through a true HEPA filter will trap particles larger than 0.3 microns. | Effective and proven method to reduce allergens, dust, and other particulate matter including PM 2.5. Can be placed in the HVAC system as well. | Is only effective on the air that goes through the filter chamber. Does not remove contaminants like odors, chemical gases, bacteria, viruses, etc. Fan speeds required to be effective with dense filters typically are noisy. | Can remove particulates quickly, but only in small areas. HVAC installations are possible. | Zero effect | Costly and frequent filter replacements required. |
Carbon | Chemical gasses and odors present in air forced through a carbon filter will be absorbed by the carbon and removed. | Effective and proven method to remove chemical gasses and heavy odors from the air. Can be placed in the HVAC system as well. | Is only effective on the air that goes through the filter chamber. Does not affect particulates or biologicals. Fan speeds required to be effective with dense filters typically are noisy. | Can remove odors quickly, but only in small areas. HVAC installations are possible. | Zero effect | Costly and frequent filter replacements required. |
UVGI | Ultraviolet germicidal irradiation (UVGI) is a disinfection method that uses short-wavelength ultraviolet (UV-C) light | Kills or inactivates microorganisms like bacteria, mold, and viruses. | Is only effective at short distances with direct line of sight (100% power at 1”, 25% power at just 2”, etc.). As it is unsafe for direct human exposure for prolonged periods, it must be contained in a filter chamber or the room must be evacuated. Requires slow airflow rates. | Coverage is limited to the airflow of the system they are installed in. HVAC installations are possible. | Effects any surface the light shines on in close proximity. | Costly and frequent bulb replacements required. |
AHPCO | UV light reacts with a 5 nano metal catalyst (AHPCO) producing a variety of catalytic molecules. | Effective and proven method to reduce odors, allergens, bacteria, mold, viruses, and VOCs. Does not require air to pass through its chamber in order to be effective. Removes PCO related concerns of incomplete oxidation and slow airflow rates. | Is less effective against particulate pollution than HEPA or polarized ionization. Initially takes longer than carbon filters to effect odors, but after continued use in a space is indistinguishably effective in most cases when new odors are introduced.
| Can remove contaminants in large areas or entire buildings. HVAC installations are possible. | Highly effective against viruses, bacteria, mold, and entrenched odors found on surfaces | Long Life bulb coating reduces replacement frequency of UV bulbs. 1-2 years depending on unit. |
Polar Ions | Carbon brush nodes split water vapor in the ambient air into Polarized ions which are proactively dispersed. | Effective and proven method to reduce allergens, dust, PM 2.5, bacteria, mold, viruses, static, and VOCs. Does not require air to pass through its chamber in order to be effective. Removes concern of incomplete oxidation and slow airflow rates. | While effective over time, it is less powerful against heavy VOCs and Odors than AHPCO or Carbon filtration.
| Can remove contaminants in large areas or entire buildings. HVAC installations are possible. | Highly effective against viruses, bacteria, and mold found on surfaces. | Zero replacement parts for life. Nodes should be gently dusted with a flick of the finger every few months. |
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3233 Mission Oaks Road, Unit P Camarillo, CA 93012
[email protected]
(888) 239-4447