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August 31, 2011

Making Greener Flame Retardants

ACS Meeting News: Environmentally friendly films protect cotton and foam from flames and heat

Lauren Wolf

When exposed to a torch, a foam block coated with a clay-chitosan multilayered film forms a protective skin rather than melting. Galina Laufer
When exposed to a torch, a foam block coated with a clay-chitosan multilayered film forms a protective skin rather than melting.
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Flame-retardant coatings for clothing and foam in furniture could soon be made of environmentally benign substances such as clay and polysaccharides, according to work presented at the American Chemical Society national meeting in Denver this week. The new layered films might answer the call for safer alternatives to commonly used halogenated compounds, such as polybrominated diphenyl ethers, that are being phased out because of toxicity concerns.

Using layer-by-layer assembly, a process in which a substrate is coated with alternating layers of positively and negatively charged substances, researchers led by Jaime C. Grunlan of Texas A&M University created two types of new flame-retardant films.

One coating, made of nanometers-thick layers of poly(sodium phosphate) and poly(allylamine), protects cotton from being consumed during flame tests (Adv. Mater., DOI: 10.1002/adma.201101871). Compared with uncoated cotton, which completely disintegrates in an applied flame, a 10-bilayer phosphate-amine coating develops only a char when exposed to a flame, retaining 41% of its weight. Under high heat, the same film does not ignite at all.

You-Hao Yang
In a flame test, cotton coated with five bilayers (left) and 10 bilayers (center) of a polymeric film burns and forms a protective char. Cotton with a 20-bilayer film (right)does not catch fire.

This is the first time that an intumescent coating—one that forms a protective carbon foam when exposed to fire or high heat—has been applied via layer-by-layer assembly on such a small scale, Grunlan says. Typically, intumescents are used on steel beams and plastics in millimeter-thick films.

The second coating Grunlan's group described in the Division of Colloid & Surface Chemistry during the Denver meeting is one composed of alternating nanolayers of montmorillonite, or clay, and chitosan, a linear polysaccharide. During 10 seconds of exposure to a butane torch, polyurethane foam coated with 10 bilayers of the clay-chitosan film escaped with only a blackened skin.

Despite its charred outer layer, Grunlan says, the foam's white, squishy innards remain intact. "If the foam doesn't have the coating on it," he adds, "it catches fire and melts down to a puddle."

If halogenated flame retardants continue to be banned because of toxicity concerns, says Rick D. Davis, a materials research engineer in the Fire Research Division at NIST, manufacturers will have to find more sustainable, innovative alternatives. Grunlan's new research is a "cool, sexy, very green approach" that appears to fill this immediate need, he adds.

Charles Wilkie, a retired flame retardant researcher from Marquette University, in Milwaukee, says that Grunlan's work is "neat stuff," but he hopes to see more extensive fire testing on the coatings. "It's nice to say that something doesn't burn in a flame for 10 seconds," he says. "But what happens if it is in a full-blown fire for 2 minutes or longer?" he asks. Grunlan says his team is now working with USDA to further test the polymeric coating on cotton, particularly for durability in washing machines. The next step, he says, is to add cross-linkers to the coating recipe to prevent long-term degradation of the films.

Chemical & Engineering News
ISSN 0009-2347
Copyright © 2011 American Chemical Society
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