When a surface is coated with microSURE All-Purpose Cleaner and Disinfectant, nanoscopic crystalline structures form with the surface, effectively forming a disinfected modified surface. This results in a "mechanical kill," that will kill the cells of the bio-threat trying to attach itself. Unlike traditional disinfectants like bleach, microSURE All-Purpose Disinfectant and Cleaner stays in place long after you apply it.
How does microSURE work?
Frequently Asked Questions
Is this a product that is superior to all other protectant sprays because it can actually kill the COVID19 virus?
This product is superior to all other protectant sprays because of its mechanism of action. The mechanical killing utilized by microSURE All Purpose Cleaner and Disinfectant does not show preference to pathogens, it simply disposes of all unwanted microorganisms it comes in contact with including members of the Coronavirus family. microSURE All Purpose Cleaner and Disinfectant not only kills on contact but it stays in place to work effectively against viruses, bacteria, fungus, mold, and algae thereafter.
How long does the product protect for?
It can serve as a surface protectant and gown sterilizer which kills within 30 mins and as studies shows protects for up to 28 days.
What can we treat with this product?
You can treat all types of surfaces, clothing, and linens with a spray bottle, or it can be applied directly into the laundry cycle which lasts for up to 30 cycles.
Is microSURE FDA approved?
microSURE all-purpose disinfectant is not regulated by the FDA, but rather the EPA. The EPA has issued a statement allowing our formulary to claim effectiveness against COVID19. Our product is effective against bacteria, viruses, and fungus with no discrimination of these due to its mechanical kill structure.
Can you clarify what is meant by the mechanism of action?
Mechanism of action refers to the detailed process in which microSURE All Purpose Cleaner and Disinfectant work to effectively eradicate harmful and unwanted pathogens. This process involves the use of nanotechnology to form millions of nano-crystalline structures that form bonds, creating a new and safe surface barrier.