HOW IT WORKS

When applied to a surface or incorporated into a material, the antimicrobial forms a covalent bond with the substrate and creates a microbiostatic coating. The coating forms a nano-bed shield of spikes (self assembling monolayer), each of which carry a positive charge that attracts the negatively charged bacteria. Once attracted, the molecular spikes pierce the cell and rupture its cell membrane, causing that bacterial microorganism to die.

The Challenge: Controlling Microbe Sources and Transmission Routes

  • Favorable Host Environment
  • Temperature, Moisture, Food, Surface

Biofilm

Spores

Microbiological Organisms on Surfaces

THE ENEMIES:

Solution:

Antimicrobial Molecule

EPA registered Disinfectants and antimicrobials with proven, highly efficient and effective disinfection program to
help reduce and control the spread of microorganisms.

Antimicrobial Molecule

How it Works

Step 1: Eliminate Pathogenic Organisms

High Quality Effective Disinfectants

    • Hospital Grade Disinfectant
    • Highly Effective – 99.999% kill (5 Log Reduction)
    • NSF (D2) Registered Food Contact Surfaces
    • No Rinse Required
    • E.P.A. Registered Hospital Grade Efficacy
    • 30 second kill time on E.Coli and S.Aureus
    • No VOC’s

    Step 2: Create a Non-Receptive Surface

    Antimicrobial Surface Protectant

    • Water based, Bound Antimicrobial Technology
    • Non-Leaching, Patented Technology
    • Persistently & Continuously protects treated surfaces for 30 Days
    • Uses a Mechanical Kill
    • Works while dry
    • EPA Registered
    • Both colorless and odorless
    • Keeps surfaces protected between cleanings
    • No VOC’s
    • Neutral pH
    • Non-Corrosive
    • Non-Flammable
    • Can be applied by misting, fogging or via spray bottle