Environmentally Benign Biosynthesis of Hierarchical MOF/Bacterial Cellulose Composite Sponge for Nerve Agent Protection

Environmentally Benign Biosynthesis of Hierarchical MOF/Bacterial Cellulose Composite Sponge for Nerve Agent Protection

The fabrication of MOF polymer composite materials enables the practical applications of MOF‐based technology, in particular for protective suits and masks. However, traditional production methods typically require organic solvent for processing which leads to environmental pollution, low‐loading ef...

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Published in:Angewandte Chemie International Edition Vol. 61; no. 19; pp. e202202207 - n/a
Main Authors: Cheung, Yuk Ha, Ma, Kaikai, Wasson, Megan C., Wang, Xingjie, Idrees, Karam B., Islamoglu, Timur, Mahle, John, Peterson, Gregory W., Xin, John H., Farha, Omar K.
Format: Journal Article
Language:English
Published: Germany Wiley Subscription Services, Inc 02-05-2022
Edition:International ed. in English
Subjects:
Adsorptivity
Bacteria
Bacterial Cellulose
Biosynthesis
Catalysis
Catalytic activity
Cellulose
Cellulose fibers
Commercialization
Composite materials
Corrosion resistance
Fabrication
Metal-Organic Frameworks - chemistry
Metal–Organic Frameworks
Microorganisms
Nanofibers
Nerve Agent
Nerve Agents
Nerves
Permeability
Polymer matrix composites
Polymers
Porous Materials
Production methods
Protective Gear
Solvents
Metal-Organic Frameworks
Porous Materials
Protective Gear
Bacterial Cellulose
Nerve Agent
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Summary:The fabrication of MOF polymer composite materials enables the practical applications of MOF‐based technology, in particular for protective suits and masks. However, traditional production methods typically require organic solvent for processing which leads to environmental pollution, low‐loading efficiency, poor accessibility, and loss of functionality due to poor solvent resistance properties. For the first time, we have developed a microbial synthesis strategy to prepare a MOF/bacterial cellulose nanofiber composite sponge. The prepared sponge exhibited a hierarchically porous structure, high MOF loading (up to ≈90 %), good solvent resistance, and high catalytic activity for the liquid‐ and solid‐state hydrolysis of nerve agent simulants. Moreover, the MOF/ bacterial cellulose composite sponge reported here showed a nearly 8‐fold enhancement in the protection against an ultra‐toxic nerve agent (GD) in permeability studies as compared to a commercialized adsorptive carbon cloth. The results shown here present an essential step toward the practical application of MOF‐based protective gear against nerve agents. Biosynthesized MOF‐based sponge composite materials feature hierarchical pores and tunable MOF loading. They can be used for efficient nerve agent simulant catalytic hydrolysis and toxic nerve agent capture.
Bibliography:These authors contributed equally to this work.
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ISSN:1433-7851
1521-3773
DOI:10.1002/anie.202202207