Nano-silver has bactericidal effect with little side effects.
Nano-silver is a simple metallic silver with a particle size of nanometer. The particle size of nano-silver is mostly about 25 nanometers, which has a strong inhibitory and killing effect on dozens of pathogenic microorganisms such as Escherichia coli, Neisseria gonorrhoeae and Chlamydia trachomatis, and will not produce drug resistance. Cotton socks made of nano-silver and combed cotton fibers have good antibacterial and deodorizing effects.
Nano (nm) is the smallest unit of measurement after micron at present, and 1 nm is one millionth of a millimeter, that is, nano, nano silver. The emergence of nanotechnology has made a qualitative leap in the sterilization ability of silver in nano-state. Very little nano-silver can produce strong bactericidal effect, killing more than 650 kinds of bacteria in a few minutes, with wide bactericidal spectrum and no drug resistance. It can promote wound healing, cell growth and repair of damaged cells, and has no toxic reaction and no irritation to skin, which opens up a broad prospect for the wide application of nano-silver as a natural antibacterial agent. Nano-silver sterilization has the following characteristics:
Broad-spectrum antibacterial agent
Nano-silver particles directly enter bacteria and combine with oxygen metabolizing enzyme (-SH) to suffocate bacteria and kill most microorganisms such as bacteria, fungi, molds and spores that come into contact with them. Studies by eight authoritative institutions in China show that it has comprehensive antibacterial activity against drug-resistant pathogens such as drug-resistant Escherichia coli, drug-resistant Staphylococcus aureus, drug-resistant Pseudomonas aeruginosa, pyogenic streptococcus, drug-resistant enterococcus and anaerobic bacteria. It has bactericidal effect on common bacteria such as Staphylococcus aureus, Escherichia coli, Pseudomonas aeruginosa, Candida albicans and other G+ and G- pathogens in burns and wounds. It also has a strong bactericidal effect on chlamydia trachomatis and Neisseria gonorrhoeae causing sexually transmitted diseases.
One antibiotic can kill about 6 pathogens, while nano silver can kill hundreds of pathogenic microorganisms. It can kill bacteria, fungi, trichomonas, chlamydia and Neisseria gonorrhoeae, and has the same bactericidal effect on antibiotic-resistant bacteria!
Strong sterilization
According to research, Ag can kill more than 650 kinds of bacteria in a few minutes. After combining with the cell wall/cell membrane of pathogenic bacteria, nano-silver particles can directly enter the bacteria and quickly combine with sulfhydryl group (-SH) of oxygen metabolizing enzyme, thus inactivating the enzyme, blocking respiratory metabolism and suffocating it. The unique sterilization mechanism enables nano-silver particles to quickly kill pathogenic bacteria at low concentration.
Strong permeability
Nano-silver particles have super permeability, can quickly penetrate into the skin for 2mm sterilization, and have a good sterilization effect on deep tissue infections caused by common bacteria, stubborn bacteria, drug-resistant bacteria and fungi.
Repair and regeneration
Nano-silver can promote wound healing, repair and regeneration of injured cells, remove putrefaction and promote granulation, resist bacteria and diminish inflammation, improve microcirculation of tissues around the wound, effectively activate and promote the growth of tissue cells, accelerate wound healing and reduce scar formation.
Antibacterial lasting
Nano-silver particles are produced by patented technology and have a protective film, which can be gradually released in the human body, so it has antibacterial effect.
No drug resistance
Nano-silver belongs to non-antibiotic bactericide: nano-silver can kill all kinds of pathogenic microorganisms, which is stronger than antibiotics. The unique antibacterial mechanism of nano-silver particles with the size of 10nm can kill bacteria quickly and directly, making them lose their reproductive ability. Therefore, it is impossible to produce the next generation of drug resistance, which can effectively avoid repeated attacks and long-term treatment due to drug resistance.