Antimicrobial plastic products are in increasing demand across healthcare, consumer products, and industrial sectors to reduce the spread of harmful microbes while maintaining material performance. However, conventional antimicrobial additives often rely on pre-formed nanoparticles, which are prone to aggregation and can complicate handling and processing, particularly in thin films, fibres, and transparent components.
This technology enables the in-process formation and uniform dispersion of silver (Ag) nanoparticles within thermoplastic resins during standard polymer processing, such as extrusion and injection moulding. By incorporating silver fatty acid salts into the resin formulation, nanosized silver particles are generated during thermal processing and stabilised within the polymer matrix, ensuring consistent dispersion under typical shear and thermal conditions. The resulting silver nanoparticles, with sizes on the order of several tens of nanometres, deliver reliable antimicrobial performance at very low additive loadings (as low as 0.01 wt%), while preserving optical clarity and mechanical properties. Accordingly, this technology is particularly well suited for incorporating antimicrobial agents into thin films and fibres, where optical clarity and defect-free moulding are critical. When used in fibres, it helps prevent filament breakage during melt spinning. A resin-compounded antimicrobial masterbatch based on this technology has already been commercialised in products such as face masks and waste bags, demonstrating scalability and real-world applicability.
The technology owner is seeking test bedding and pilot deployment partners in resin processing, polymer manufacturing, and end-product sectors to validate performance, scale production, ensure regulatory compliance, and expand application portfolios. In parallel, dispersion methods for solvent-based systems are under development, and partners in surface coatings and film manufacturing are welcomed for co-development and scale-up opportunities.
This technology enables in-process formation and dispersion of silver nanoparticles within thermoplastic resin, such as polypropylene (PP), polyethylene (PE) and polystyrene (PS), ensuring consistent antimicrobial efficacy without compromising processability and final product quality in terms of transparency and mechanical performance.
Key technical features include:
Nanoparticle size: several tens of nanometres, enabling preservation of material properties
Low active silver loading: effective at ~0.01 wt% without performance loss
Antibacterial performance: verified in accordance with ISO 20743 and 22196, effective against a broad spectrum of bacteria, including both Gram-positive and Gram-negative species (e.g., Staphylococcus aureus and Escherichia coli)
Process compatibility: compatible with standard extrusion and injection moulding processes
Optical clarity: high transparency retained even in thin films and fibres, without haze or whitening
Safety validation: confirmed through acute oral toxicity, skin irritation, mutagenicity, and skin sensitisation tests
Adaptability: available as an antimicrobial masterbatch with industrial supply capability; solvent-based dispersions under development for coating applications
["In-situ formatio","Silver nanoparticles","Uniform dispersion","High transparency","Antimicrobial performance"]