Disinfectant performance of a chlorine regenerable antibacterial microfiber fabric as a reusable wiper

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Abstract

Rechargeable disinfectant performance of a microfiber fabric grafted with a halamine precursor, 3-allyl-5,5-dimethylhydantoin (ADMH), was tested in an actual use situation in a university student dining hall. The precursor was successfully incorporated onto the surfaces of polyester fibers by using a radical graft polymerization process through a commercial finishing facility. The N-H bonds of ADMH moieties on the fibers can be converted to biocidal N-Cl bonds, when the fabrics are washed in a diluted chlorine bleach containing 3000 ppm available chlorine, providing a refreshable disinfectant function. By wiping the surfaces of 30 tables (equivalent to 18 m 2 ) with wet chlorinated fabrics, both Staphylococcus aureus and Escherichia coli in concentrations of 10 5 CFU/mL were totally killed in a contact time of 3 min. The disinfectant properties of the fabrics were still superior after 10 times successive machine washes (equivalent to fifty household machine washes), and rechargeable after wiping 30 tables before each recharge. Recharging conditions, such as temperature, time, active chlorine concentration and pH value of sodium hypochlorite solution, as well as the addition of a detergent, were studied. The product has the potential to improve public safety against biological contaminations and the transmission of diseases.

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Huang, C., Chen, Y., Sun, G., & Yan, K. (2019). Disinfectant performance of a chlorine regenerable antibacterial microfiber fabric as a reusable wiper. Materials, 12(1). https://doi.org/10.3390/ma12010127

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