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Take a deep dive and read about our field of expertise. Learn more about the unique way in which copper-based technology changes the water disinfection industry.
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- Academic
The active agent against bacteria is monovalent copper ions (Cu+), not divalent copper ions (Cu2+) or metallic copper (Cu0).
A concentration of 0.2ppm copper ions is sufficient in Coppter systems to disinfect the water from bacteria and fungi.
- Case Study
Copper technology could bring good news for hot tub and spa health bathers.
Safe and healthy water without pathogens.
The activity of monovalent copper ions increases with temperature; they do not decompose or evaporate in heat.
No chlorine, bromine
- Case Study
Coppter technology may bring good news for wastewater treatment.
Water that is free of pathogens and suitable for agriculture, including growing vegetables.
No chlorine, and no salt.
Stable and easy to maintain system
Eco-friendly
Cost-effective
- Case Study
Coppter technology may bring good news to agriculture.
Enable aeroponics and hydroponics crops without fear of pathogens, thus enabling advanced agriculture that is economical in terms of water, space, manpower, and more.
- Case Study
Coppter technology may bring good news to swimming.
Safe and healthy water without pathogens or algae.
No chlorine, and no salt.
A bathing experience similar to a pristine spring.
Stable and easy to maintain system
Eco-friendly
Cost effective
- Patents
A patent for system and method for disinfecting water
- Published Articles
This study continues the series of experiments revealing high antibacterial properties of
monovalent copper ions (Cu+).
- Published Articles
significant concentrations of monovalent copper ions in the cytoplasm. This study demonstrates the effect of monovalent and divalent copper ions on DNA polymerase, ligaseT4 DNA, and more.
- Published Articles
This study continues the series of experiments that demonstrate the high antibacterial properties of monovalent copper ions
(Cu+). While in previous study we examined different metals (copper and silver) and their metal states (mono- and divalent),
- Published Articles
This study opens the investigation series focused on antimicrobial effects of copper (Cu) compared to silver (Ag), which is
currently used to treat wound infection in burn victims as well as in chronic wounds.
- Academic
- Magal Saphier, Oshra Ilan Saphier
The results presented in this article demonstrate that monovalent copper ions at low concentrations, at which bacteria and fungi are eradicated, do not harm human suspended cells, help tissue healing, and maintain skin vitality.
- Academic
- Coppter Water Technologies
This article attempts to explain the antibacterial mechanism of action of monovalent copper ions.