CHEMICAL ANTI MICROBIAL TREATMENT

Brand Owner Address Description
ARRIDUS Arridus AG Austrasse 15 Triesen FL-9495 Liechtenstein Chemical and anti-microbial treatment and coating of surfaces for the purpose of sterilization, sanitation, and disinfection; chemical treatment of textiles; anti-microbial treatment of textiles; surface treatment of textiles; finishing and coating of textiles;Application of protective surface coatings; application of anti-microbial coatings on surfaces; treatment of surfaces, namely, application of sterile, disinfecting, and protective coatings; application of chemical preparations and coatings to surfaces for sterilization and disinfection;Disinfection apparatus for medical purposes; disinfection units for medical purposes;Sterilization apparatus for medical purposes; sanitization apparatus for medical purposes, namely, devices used to sanitize medical equipment and surfaces; medical cleaning apparatus for decontaminating medical equipment and surfaces; sterilization units for medical purposes; sanitization units for medical purposes, namely, devices used to sanitize medical equipment and surfaces; medical cleaning units for decontaminating medical equipment and surfaces; aerosol dispensers for medical purposes; medical treatment apparel; operating room apparel; surgical scrub suits, tops, pants, hats;
 

Where the owner name is not linked, that owner no longer owns the brand

    
Technical Examples
  1. An anti-microbial filter (105) for a micro-fluidic system (100) includes a silicon-based filter membrane (213) having holes (218) formed therein. The membrane (213) is formed on a substrate (211). One side of the filter membrane (213) has an anti-microbial coating (216) between the holes (218) on the filter membrane (213) and the other side can include filter supports formed from a silicon substrate. A method for making the anti-microbial filter (105) includes forming a filter membrane (213) on a substrate (211), forming holes (218) in the membrane (213) by providing a filter mask (215) and etching holes (218) through holes (222) in the mask (215). Then portions of the substrate (211) are removed from the filter membrane (213) using a masking and etching process to expose the holes (218). An anti-microbial coating is applied to the membrane (213) adjacent the holes (218).