KEEP IT CLEAN.

Our units create a highly-potent, yet short-lived antiseptic mist directly from air, water, and electricity, and can be transported without the weight, volume, or associated shipping costs of traditional antiseptic cleaning fluids.

Created onsite using only air, water, and electricity, our highly oxidizing compounds can be used to directly sterilize surfaces, equipment, and even tissues.

Our devices create an ultra-fine antiseptic mist of highly reactive chemical species such as hydroxyl radicals (•OH), hydrogen peroxide (H2O2), peroxynitrite, ozone, and nitric acid (HNO3). •OH has an oxidation potential twice as high as chlorine bleach and can oxidize most oxidizable materials and compounds in both liquid and gas phases. The antiseptic mist is considered “green”. Leaves no toxic residue —degrading rapidly into water vapor.

Our technology is scalable, safe, and simple to manufacture into a broad variety of devices using a common, highly robust architecture. Because antiseptic spray generating units can be transported without the weight, volume, or associated shipping costs of traditional antiseptic fluids or cleaning fluids. Custodial staff and medical personnel will be better able to sustain sterilization and sanitation capabilities in austere, remote, or mobile environments.

Our thin film reactor technology is not a “Vaporized Hydrogen Peroxide” solution. Our reactive concentrations are much lower and shorter lived. The mist is meant to be sprayed directly onto objects to be treated, avoiding the corrosive and health hazard effects associated with highly concentrated VHP “fogger” systems.

Please note, our sterilization fluid generating sprayers are not registered with the EPA, and are not available for sale. Institutional testers and researchers may contact us about obtaining test units for research purposes.

Redhill Scientific TFR Sanitation Sprayer

THE TFR SANITATION SPRAYER

  • Our devices create highly oxidizing mists and liquids that sterilize surfaces using just air, water, and electricity
  • Onsite production allows local water to be used to create a mist of hydroxyl, hydrogen peroxide, and dilute nitric acid
  • Our device can be powered with a rechargeable battery
  • The small power use of our device (10 watts) is suitable for pen or flashlight-sized devices
  • Larger “canister vacuum” devices can be used to sterilize large surface areas such as cafeterias, hallways, classrooms, lavatories, vehicle interiors, and examination rooms
  • Our thin film plasma reactor technology is highly robust- there is only one moving part, the water pump- making it both inexpensive and perfect for high-use or austere environments

  • Our disinfecting spray is engineered to be sprayed directly onto surfaces
  • Plasma propagation along liquid water interface inside our plasma reactors induces hydroxyl radical formation (•OH) with an extremely high oxidative potential
  • Hydroxyl and hydrogen peroxide in the mist cleans and disinfects surfaces rapidly without bleaching or corrosion
  • The balance of low concentration but highly reactive chemical species allows the device to be used in closed environments without causing respiratory irritation

  • Can be used for general custodial use with no toxic residue
  • Antiseptic spray generating units can be transported without the weight, volume, or recurring shipping of traditional antiseptic fluids or cleaning fluids
  • The more remote the facility to be cleaned is located, the greater value our device provides
  • Because hydroxyl degrades into simple water vapor, our sterilization product line is perfect for LEED certified buildings and closed environments where toxic residues and fumes are not desirable
  • Larger devices can be created to create antiseptic fluids in volumes sufficient for sterilizing floors and surfaces in facilities
  • Cleaning applications include: medical facilities; aircraft, vehicles, and boats; public areas; restaurants; hotels, cruise ship cabins, and dormitories

Applications:

  • Our devices use air, water, and electricity to create an ultra-fine mist of highly reactive chemical species such as hydroxyl radicals (•OH), hydrogen peroxide (H2O2), peroxynitrite, ozone, and nitric acid (HNO3) with the following chemical path:
    H2O + e- → •OH + •H + e-
  • •OH has an oxidation potential twice as high as chlorine bleach and can oxidize most oxidizable materials and com¬pounds in both liquid and gas phases
  • The extremely short lifespan of the hydroxyl allows it to clean without leaving a toxic residue and without harming surfaces or tissue

Protect Your World

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