ACLIV is only the product that has achieved world’s top Four certifications including the ISO 21702, the CE Mark in Europe, the FDA and the EPA approval in the U.S. for its antiviral film ACLIV.
EPA is required for the sale of antiviral & antibacterial
Products in the U.S
We use science-based innovation to address some of society's most challenging healthcare issues. Virus issue has been our key R&D area in recent years and we have accomplished the significant results. Controlling viruses is even more difficult than bacteria since viruses are up to 100 times smaller than bacteria. It is important to tell anti-virus from anti-bacteria.
Our antiviral solutions have scientifically proven to be the most effective across the world. ACLIV antiviral films kill 99.9% of viruses including coronavirus within 30 mins and kill 99.9% of bacteria within 10 mins.
Product: ACLIV SILVER Film
Lab Name: France – Fonderephar
Test Standard: ISO21702:2019
(Measurement of Antiviral Activity on Plastics)
Tested Virus: Human Coronavirus 229E
Virus Eradication Rate: 99.9% in 30min, 1 hour and 24 hours
Product: ACLIV SILVER Film
Lab Name: Japan Textile Products Quality and Technology Center
Test Standard: ISO21702:2019
(Measurement of Antiviral Activity on Plastics)
Tested Virus: Influenza A virus (H1N1)
Virus Eradication Rate: 99.9% in 24 hours
Product: ACLIV COPPER Film
Lab Name: France – Fonderephar
Test Standard: ISO21702:2019
(Measurement of Antiviral Activity on Plastics)
Tested Virus: Human Coronavirus 229E
Virus Eradication Rate: 99.9% in 30min, 1 hour and 24 hours
It certifies the lab that tested Human Coronavirus is accredited by the French government and global organizations.
Globally, there are more than 10,000 labs, but less than 5% of the labs have accreditation certificates that secure reliability of test results.
Product: ACLIV SILVER Film
Test Standard: JIS Z 2801:2010E
(Test for Antimicrobial/antibacterial Activity of Plastics)
Tested Bacteria:
· Staphylococcus
· Escherichia coli
· Klebsiella pneumoniae
· Pseudomonas aeruginosa
· Salmonella typhimurium
· Methicillin-resistant of Staphylococcus aureus
Bacteria Eradication Rate: 99.9% in 24 hours
Product: ACLIV COPPER Film
Test Standard: JIS Z 2801:2010E
(Test for Antimicrobial/antibacterial Activity of Plastics)
Tested Bacteria:
· Staphylococcus
· Escherichia coli
· Klebsiella pneumoniae
· Pseudomonas aeruginosa
· Salmonella typhimurium
· Methicillin-resistant of Staphylococcus aureus
Bacteria Eradication Rate: 99.9% in 24 hours
Product: ACLIV SILVER Film
Test Standard: JIS Z 2801:2010E
(Test for Antimicrobial/antibacterial Activity of Plastics)
Tested Bacteria:
· Staphylococcus
· Escherichia coli
· Klebsiella pneumoniae
Bacteria Eradication Rate: 99.9% in 10min
FDA certifies ACLIV Silver Antiviral Films are registered as Medical Device Establishment in the US Food and Drug Administration.
CE certifies the compliance of ACLIV Film’s anti-virus & anti-bacteria test
Product: ACLIV SILVER Film Tested by SGS
Testing Method: 1000 times of strong rubbing test with 83% purity alcohol that is far stronger
than normal cleaning agent/detergent
Result: No change in antibacterial activity. It proves both excellent durability & chemical resistance.
No harzardous substance was found.
It proves the product is eco-friendly and harmless to the human body.
How does the silver compound de-activates the viruses/bacteria?
Effects of silver ions on bacteria
1) Silver ions are incorporated into the bacterial cell membranes and bind to membrane proteins responsible for transport of substances in and out of the bacterial cells.
2) Silver ions are also transported into the cells and will block cell division by binding to the DNA.
3) Silver ions will block the bacterial respiratory system and thereby destroy the energy production of the cell. In the end, the bacterial cell membrane will burst, and the bacteria will be destroyed.
Effects of silver ions on viruses
There are two ways the AgNP interacts with the pathogenic virus:
(1) the AgNP will bind to the outer coat of the virus thus inhibit the attachment of virus towards cell receptors and
(2) the AgNP will bind to the DNA or the RNA of the virus thus inhibiting the replication or propagation of the virus inside the host cells. The below show the antiviral properties of AgNPs towards different types of pathogenic virus.