Conventional nano silver and ordinary metal antibacterial materials can only kill bacteria on surface layers, while Fromufoot, a China patented antibacterial material, owns exclusive long-distance penetrating antibacterial capability. Relying on its stable positive ion electric field, it can penetrate various metal and non-metal coatings to capture and eliminate bacteria and viruses underneath. Multiple CNAS and SGS third-party test reports fully verify its unmatched penetrating performance.
Comparative tests show obvious technical gaps between nano silver and Chinese patented Fromufoot. Pure nano silver achieves a 99.99% antibacterial rate without coatings, yet the rate drops sharply to 96.12% after being covered by a 3μm titanium nitride coating, losing penetrating sterilization ability. In contrast, Fromufoot covered with the same 3μm titanium nitride coating still maintains a 99.98% antibacterial rate against Staphylococcus aureus within 24 hours, far exceeding nano silver materials in penetration capacity.
Further tests on thick multi-layer coatings confirm its powerful penetration. When covered with 30μm Dupont PTFE Teflon non-stick coating, its antibacterial rate against Staphylococcus aureus exceeds 99.99%. Even with a 50μm-thick Teflon coating, the antibacterial rate stays at 99.64%, capable of penetrating non-metal coatings within 50μm to exert antibacterial effects. Fromufoot can inhibit more than 650 types of bacteria, fungi and viruses. Its antibacterial rate against E.coli exceeds 99.999%, and the 24-hour bacteriostasis rate against Candida albicans, Pseudomonas aeruginosa, Klebsiella pneumoniae and MRSA all reaches ≥99.9%.
Virus inactivation tests indicate that Fromufoot achieves a 94.55% inactivation rate against H1N1 influenza virus after 1 hour of contact, delivering broad-spectrum antiviral effects. Its sterilization mechanism is based on charge attraction: bacteria and viruses carry negative surface charges, while the steady positive ion field of Fromufoot can cross coating barriers within 0.05mm to trap microorganisms and cause contact death. It will not be blocked by surface coatings, suitable for coated cookware, medical devices, plastic products and other composite goods requiring antibacterial modification.