Article Synopsis
- The SARS-CoV-2 outbreak and the use of chemical warfare agents emphasize the urgent need for effective protective clothing and masks against biohazards and chemical threats.
- Researchers developed a multifunctional, regenerable textile using a zirconium metal-organic framework (MOF) that acts as a chlorine carrier, providing enhanced biocidal properties.
- The resulting fabric showed rapid effectiveness against bacteria and SARS-CoV-2, as well as the ability to degrade chemical agents like sulfur mustard, making it a promising solution for protection against biological and chemical threats.
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Article Abstract
The most recent global health crisis caused by the SARS-CoV-2 outbreak and the alarming use of chemical warfare agents highlight the necessity to produce efficient protective clothing and masks against biohazard and chemical threats. However, the development of a multifunctional protective textile is still behind to supply adequate protection for the public. To tackle this challenge, we designed multifunctional and regenerable N-chlorine based biocidal and detoxifying textiles using a robust zirconium metal-organic framework (MOF), UiO-66-NH, as a chlorine carrier which can be easily coated on textile fibers. A chlorine bleaching converted the amine groups located on the MOF linker to active N-chlorine structures. The fibrous composite exhibited rapid biocidal activity against both Gram-negative bacteria () and Gram-positive bacteria () with up to a 7 log reduction within 5 min for each strain as well as a 5 log reduction of SARS-CoV-2 within 15 min. Moreover, the active chlorine loaded MOF/fiber composite selectively and rapidly degraded sulfur mustard and its chemical simulant 2-chloroethyl ethyl sulfide (CEES) with half-lives less than 3 minutes. The versatile MOF-based fibrous composite designed here has the potential to serve as protective cloth against both biological and chemical threats.
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