Biodegradable plastic from yeast and oil

Monomer produced in a low-cost first-of-its-kind fermentation process

BildNYU (US) – A new technique using yeast and fatty acids from plant oils produces a bioplastic that is strong, highly ductile, and completely biodegradable. The findings are reported in the Journal of the American Chemical Society.

Like all plastics, the new material is a polymer – a large molecule comprised of smaller, repeating units called monomers. In this case, the monomer itself is relatively new. The units are called omega-hydroxyfatty acids, and when strung together to form a polymer, they can produce a biologically friendly plastic.

Until now, omega-hydroxyfatty acids were difficult and expensive to produce using traditional methods, prohibiting their widespread use.

Richard Gross, professor of chemical and biological science at New York University, produced the monomer in a first-of-its-kind fermentation process – a fairly quick, low-cost method. The monomer is then polymerized to form a uniquely ductile, strong natural plastic that biodegrades completely in soil.

Gross and his team devised a new way to produce these monomers by using a genetically modified strain of Candida tropicalis, one of the many types of yeast that live harmlessly in humans and animals. The engineered yeast is capable of converting fatty acids of plant oils into large quantities of omega-hydroxyfatty acids.

When polymerized, the new material may be a suitable substitute for petroleum derived plastics such as polyethylene for uses such as disposable gloves, multilayer food packaging films, and films for ice, trash, garments, produce bags, and more.

“This is a very exciting development in the field, and not just because we’ve created a bioplastic with desirable properties,” says Gross. “This process uses no fossil fuels, and every step is biologically friendly, from fatty acids in plant oils through the end product, which is a versatile, 100 percent biodegradable plastic.”

The new bioplastic is highly resistant to moisture, which is an important improvement over currently sold bioplastics such as polylactic acid and starch-based plastics.

Gross’ company, SyntheZyme, was tapped by the U.S. Defense Advanced Research Projects Agency to develop this bioplastic. The material was originally intended to serve a dual purpose: as packaging material in the solid state, and as a biodiesel for military engines after being broken back down or de-polymerized to monomer units. The material development and performance in the solid state has been successfully completed; research into converting the plastic to diesel is currently under way.

Source

Polytechnic Institute of New York University, press release, 2010-12-08.

Supplier

New York University
SyntheZyme

Share

Renewable Carbon News – Daily Newsletter

Subscribe to our daily email newsletter – the world's leading newsletter on renewable materials and chemicals

Subscribe