Protection against Chemical Warfare Agents and Biological Threats Using Metal–Organic Frameworks as Active Layers
Abstract
The SARS-CoV-2 pandemic outbreak and the unfortunate misuse of toxic chemical warfare agents (CWAs) highlight the importance of developing functional materials to protect against these chemical and pathogen threats. Metal–organic frameworks (MOFs), which comprise a tunable class of crystalline porous materials built from inorganic nodes and organic linkers, have emerged as a class of heterogeneous catalysts capable of rapid detoxification of multiple classes of these harmful chemical or biological hazards. In particular, zirconium-based MOFs (Zr-MOFs) feature Lewis acidic nodes that serve as active sites for a wide range of catalytic reactions, including the hydrolysis of organophosphorus nerve agents within seconds in basic aqueous solutions. In addition, postsynthetic modification of Zr-MOFs enables the release of active species capable of reacting with and deactivating harmful pathogens. Despite this impressive performance, utilizing Zr- MOFs in powder form is not practical for application in masks or protective uniforms. To address this challenge, our team sought to develop MOF/fiber composite systems that could be adapted for use under realistic operating conditions to protect civilians, military personnel, and first responders from harmful pathogens and chemical warfare agents. Over the last several years, our group has designed and fabricated reactive and biocidal MOF/fiber composites that effectively capturemore »
- Authors:
-
[1];
[1];
[1];
[1]
- Northwestern Univ., Evanston, IL (United States)
- The Hong Kong Polytechnic Univ., Hong Kong SAR (China)
- Publication Date:
- Research Org.:
- Northwestern Univ., Evanston, IL (United States)
- Sponsoring Org.:
- USDOE Office of Science (SC), Basic Energy Sciences (BES)
- OSTI Identifier:
- 1958769
- Grant/Contract Number:
- FG02-03ER15457
- Resource Type:
- Accepted Manuscript
- Journal Name:
- Accounts of Materials Research
- Additional Journal Information:
- Journal Volume: 4; Journal Issue: 2; Journal ID: ISSN 2643-6728
- Publisher:
- American Chemical Society (ACS)
- Country of Publication:
- United States
- Language:
- English
- Subject:
- 36 MATERIALS SCIENCE; Coating materials; Composites; Fibers; Hydrolysis; Metal organic frameworks
Citation Formats
Ma, Kaikai, Cheung, Yuk Ha, Kirlikovali, Kent O., Wang, Xiaoliang, Islamoglu, Timur, Xin, John H., and Farha, Omar K. Protection against Chemical Warfare Agents and Biological Threats Using Metal–Organic Frameworks as Active Layers. United States: N. p., 2023.
Web. doi:10.1021/accountsmr.2c00200.
Ma, Kaikai, Cheung, Yuk Ha, Kirlikovali, Kent O., Wang, Xiaoliang, Islamoglu, Timur, Xin, John H., & Farha, Omar K. Protection against Chemical Warfare Agents and Biological Threats Using Metal–Organic Frameworks as Active Layers. United States. https://doi.org/10.1021/accountsmr.2c00200
Ma, Kaikai, Cheung, Yuk Ha, Kirlikovali, Kent O., Wang, Xiaoliang, Islamoglu, Timur, Xin, John H., and Farha, Omar K. Sat .
"Protection against Chemical Warfare Agents and Biological Threats Using Metal–Organic Frameworks as Active Layers". United States. https://doi.org/10.1021/accountsmr.2c00200. https://www.osti.gov/servlets/purl/1958769.
@article{osti_1958769,
title = {Protection against Chemical Warfare Agents and Biological Threats Using Metal–Organic Frameworks as Active Layers},
author = {Ma, Kaikai and Cheung, Yuk Ha and Kirlikovali, Kent O. and Wang, Xiaoliang and Islamoglu, Timur and Xin, John H. and Farha, Omar K.},
abstractNote = {The SARS-CoV-2 pandemic outbreak and the unfortunate misuse of toxic chemical warfare agents (CWAs) highlight the importance of developing functional materials to protect against these chemical and pathogen threats. Metal–organic frameworks (MOFs), which comprise a tunable class of crystalline porous materials built from inorganic nodes and organic linkers, have emerged as a class of heterogeneous catalysts capable of rapid detoxification of multiple classes of these harmful chemical or biological hazards. In particular, zirconium-based MOFs (Zr-MOFs) feature Lewis acidic nodes that serve as active sites for a wide range of catalytic reactions, including the hydrolysis of organophosphorus nerve agents within seconds in basic aqueous solutions. In addition, postsynthetic modification of Zr-MOFs enables the release of active species capable of reacting with and deactivating harmful pathogens. Despite this impressive performance, utilizing Zr- MOFs in powder form is not practical for application in masks or protective uniforms. To address this challenge, our team sought to develop MOF/fiber composite systems that could be adapted for use under realistic operating conditions to protect civilians, military personnel, and first responders from harmful pathogens and chemical warfare agents. Over the last several years, our group has designed and fabricated reactive and biocidal MOF/fiber composites that effectively capture and deactivate these toxic species. In this Account, we describe the evolution of these porous and reactive MOF/fiber composites and focus on key design challenges and considerations. First, we devised a scalable method for the integration of Zr-MOFs onto textile substrates using aqueous precursor solutions and without using pretreated textiles, highlighting the potential scalability of this method. Moving beyond standard textiles, we also developed a microbial synthesis strategy to prepare hierarchically porous MOF/bacterial cellulose nanofiber composite sponges that can both capture and detoxify nerve agents when exposed to contaminated gas flows. The mass loading of the MOF in the nanofibrous composite sponge is up to 90%, affording higher work capacities compared to those of textile-fiber-based composites with relatively lower MOF loadings. Next, we demonstrated that heterogeneous polymeric bases are suitable replacements for volatile liquid bases typically used in solution-phase reactions, and we showed that these composite systems are capable of effectively hydrolyzing nerve agents in the solid state by using only water that is present as humidity. Moreover, incorporating a reactive dye precursor into the composite affords a dual function sensing and detoxifying material that changes color from white to orange upon reaction with the byproduct following nerve agent hydrolysis, demonstrating the versatility of this platform for use in decontamination applications. We then created chlorine-loaded MOF/fiber composites that act as biocidal and reactive textiles that are capable of not only detoxifying sulfur-mustard-based chemical warfare agents and simulants but also deactivating both bacteria and the SARS-CoV-2 virus within minutes of exposure. Lastly, we synthesized a mixed-metal Ti/Zr-MOF coating on cotton fibers to afford a photoactive biocidal cloth that shows fast and broad-spectrum biocidal performance against viruses and Gram-positive and Gram-negative bacteria under visible light irradiation. Given the tunable, multifunctional nature of these MOF/fiber composites, we believe that this Account will offer new insights for the rational design and preparation of functional MOF/fiber composites and pave the way toward the development of next-generation reactive and protective textiles.},
doi = {10.1021/accountsmr.2c00200},
journal = {Accounts of Materials Research},
number = 2,
volume = 4,
place = {United States},
year = {Sat Jan 07 00:00:00 EST 2023},
month = {Sat Jan 07 00:00:00 EST 2023}
}
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