Scientists developed a new coating for textile fibres to capture toxic industrial compounds

Scientists have developed a new coating for textile fibres that could efficiently capture toxic industrial compounds and chemical warfare agents under real-world conditions, including high humidity.

The research, published in the journal Small, may lead to improved masks and personal protective equipment for soldiers and others at risk of exposure.

Researchers at North Carolina State University and the US Army’s Combat Capabilities Development Command Chemical Biological Center (CCDC CBC) developed functional textiles that neutralised a blistering agent simulant under conditions of 80 per cent relative humidity.

The new coating also captured ammonia gas, a commonly produced industrial chemical in the US.

“For more than a century, we have had threats from chemical warfare agents, from chlorine and mustard gas in World War I to recent attacks against civilians in Syria,” said Dennis T Lee, a recent PhD recipient at NC State.

“We need to find ways to capture and chemically break down toxic gases for practical, better-performing protective equipment, Lee said in a statement.

Researchers worked with metal-organic frameworks (MOFs) — coatings that are synthesised over microfibers.

There are two significant challenges. The first lies in creating MOFs that can remain stable in the presence of moisture while holding the hazardous compounds in a thin film, a process known as adsorption/absorption.

The second is achieving a coating that’s effective in degrading toxic chemicals.

The team created a water-stable copper (Cu)-based MOF film.

Instead of working with a powder source, researchers used a solid film deposited on the fibre, which captured three times more ammonia gas than the same MOF powder.

Electron microscope images showed MOFs in crystal formations that grew out radially from the fibre — a distinctive shape that hadn’t been previously reported.

The MOFs bonded strongly with the surface of the polypropylene fibres, resisting flaking when handled in the lab and when swept with a nylon brush.

“This alignment formed a dense coating on the fibers, with better integration and adhesion to the surface, and improved adsorptive performance for hazardous gases,” Lee said.

The new MOF-coated composites have potential to be used as a base film in protective textiles, Lee said.

The method would also be suitable for use in smart textiles that have multiple functions, such as sensors, he added.

Courtesy: Business Standard

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