NANO SILVER technology

Silver has been known for centuries for its beneficial biocidal activity. Since the 1970s, trials have been made in this field with colloidal silver ground to a macro scale. The biocidal effect was good but too expensive.
Silver Ag
Silver has been known for centuries for its beneficial biocidal activity. Since the 1970s, trials have been made in this field with colloidal silver ground to a macro scale. The biocidal effect was good but too expensive. It is only thanks to silver nanoparticles that you can get great price-biocidal effectiveness relations and use nanosilver on a mass scale, especially as it is an ecologically clean and safe product for the environment. In addition, the dispersed nanoparticles have a disproportionately larger active surface and thus show great biocidal potential. Already concentrations of 1 ~ 5 ppm solutions are perfectly effective in everyday use (towels, bedding, shirts: 5 ~ 10 ppm, socks: 20 ~ 40 ppm, plastics: 20 ~ 200 ppm).
Silver nanoparticles are also a good barrier against the ubiquitous electromagnetic waves (e.g. in mobile phones, in mattresses - water veins, etc.), they increase the protective effectiveness of the immune barrier of human organisms.
Nanosilver is bactericidal both in normal lighting and in the dark. Most importantly, it is long-lasting - as long as the nanoparticle stays at its destination. Of course, over time, natural dusting or rinsing when washing can reduce biocidal effectiveness.
Bacterial deactivation:
Catalytic Oxidation
Reaction with the bacterial cell wall
Protein denaturation
DNA binding
Cut off electromagnetic waves
Silver nanoparticles are also a good barrier against the ubiquitous electromagnetic waves (e.g. in mobile phones, in mattresses - water veins, etc.), they increase the protective effectiveness of the immune barrier of human organisms.
Antistatic properties
Textiles with the addition of silver have anti-static properties
Silver fabric. Silver fabric
Heat radiation energy reflection
In the summer, the silver fabric reflects solar radiation better (the most burdensome) and thus reduces body heat from this radiation.
Thermal energy conduction
Conduction occurs within one body. Heat is transferred from warmer to cooler parts of the same body. Heat can also be transmitted by conduction from one body to another if there is close contact between the two bodies. Fabrics with silver nanoparticles better conduct (remove) thermal energy. It is very useful, e.g. in socks where extreme conditions occur when it comes to thermal comfort.