UNIVERSITY PARK, Pa. — A new technique to spin starch fibers using Lego pieces could have future applications for lab-grown "clean" meat, according to a team of food scientists from Penn State and the University of Alabama.
"There's a lot of interest in natural fibers," said Gregory Ziegler, professor and director of graduate studies, Department of Food Science at Penn State. "Starch is one of the least expensive natural fibers out there. Nobody had been able to electrospin pure starch fibers before. But we figured out a way to do that using this wet electrospinning technique."
To produce fine starch fibers using electrospinning, electricity is applied to a starch solution as it dispenses from a nozzle. The electrical field that forms between the nozzle and a rotating collection drum draws the starch into long threads. In wet electrospinning, the drum is submerged in a bath of alcohol and water to help congeal the fibers.
In a study recently published in Food Hydrocolloids, the researchers built an inexpensive electrospinning device partially using the popular children's toy Lego.
"The reason we chose Lego is we're going to have water and ethanol in there and we don't want the device to be conductive," said Ziegler. "The plastic was perfect."
By altering the drum rotation speed and the amount of ethanol in the electrospinning bath, the researchers optimized fiber alignment in the starch mats. They also found that mats with better aligned fibers were stronger than those with a crisscrossed array.
Starch fiber mats have potential biomedical and food applications, including for lab-grown "cultured" meat. Cultured meat is reported to use less land, water and antibiotics to produce compared to traditional farming practices, and according to Ziegler, there is growing interest in such meat.