Metal-Organic Framework-Based Antimicrobial Touch Surfaces to Prevent Cross-Contamination

Infection diseases are a major threat to global public health, with nosocomial infections being of particular concern. In this context, antimicrobial coatings emerge as a promising prophylactic strategy to reduce the transmission of pathogens and control infections. Here, antimicrobial door handle c...

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Published in:Advanced materials (Weinheim) 2024-05, p.e2403813-e2403813
Main Authors: Fonseca, Javier, Cano-Sarabia, Mary, Cortés, Pilar, Saldo, Jordi, Montpeyó, David, Lorenzo, Julia, Llagostera, Montserrat, Imaz, Inhar, Maspoch, Daniel
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creator Fonseca, Javier
Cano-Sarabia, Mary
Cortés, Pilar
Saldo, Jordi
Montpeyó, David
Lorenzo, Julia
Llagostera, Montserrat
Imaz, Inhar
Maspoch, Daniel
description Infection diseases are a major threat to global public health, with nosocomial infections being of particular concern. In this context, antimicrobial coatings emerge as a promising prophylactic strategy to reduce the transmission of pathogens and control infections. Here, antimicrobial door handle covers to prevent cross-contamination are prepared by incorporating iodine-loaded UiO-66 microparticles into a potentially biodegradable polyurethane polymer (Baycusan® eco E 1000). These covers incorporate MOF particles that serve as both storage reservoirs and delivery systems for the biocidal iodine. Under realistic touching conditions, the door handle covers completely inhibit the transmission of Gram-positive bacterial species (Staphylococcus aureus, and Enterococcus faecalis), Gram-negative bacterial species (Escherichia coli, Pseudomonas aeruginosa, and Acinetobacter baumannii), and fungi (Candida albicans). The covers remain effective even after undergoing multiple contamination cycles, after being cleaned, and when tinted to improve discretion and usability. Furthermore, as the release of iodine from the door handle covers follow hindered Fickian diffusion, their antimicrobial lifetime is calculated to be as long as approximately two years. Together, these results demonstrate the potential of our antimicrobial door handle covers to prevent cross-contamination, and underlines the efficacy of integrating MOFs into innovative technologies. This article is protected by copyright. All rights reserved.
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title Metal-Organic Framework-Based Antimicrobial Touch Surfaces to Prevent Cross-Contamination
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