Unlike previous artificial muscles, this one, created by a group of researchers from National Taiwan University, can either expand or contract to bend in different directions depending on the driving voltage applied.
"The initial goal was to develop an engineered micro-structure in artificial muscles for increasing the actuation deformation (the amount the muscle can bend or stretch when triggered)," said lead researcher Wen-Pin Shih.
"One day, we found that the onion's cell structure and its dimensions were similar to what we had been making," said Shih, who lead the study along with graduate student Chien-Chun Chen and colleagues.
Shih and his colleagues thought that onion epidermal cells might be a viable candidate for the tricky task of creating a more versatile muscle that could expand or contract while bending.
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To date, Shih said, artificial muscles can either bend or contract, but not at the same time.
The researchers treated the cells with acid to remove the hemicellulose, a protein that makes the cell walls rigid.
Then, they coated both sides of the onion layer with gold. When current flowed through the gold electrodes, the onion cells bent and stretched much like a muscle.
The asymmetry gave the researchers control over the muscle's response: a low voltage made them expand and flex downwards, towards the thicker bottom layer.
A high voltage, on the other hand, caused the cells to contract and flex upwards, towards the thinner top layer.
"We found that the single-layer lattice structure can generate unique actuation modes that engineered artificial muscle has never achieved before," said Shih.
To demonstrate their device's utility, the researchers combined two onion muscles into a pair of tweezers, which they used to pick up a cotton ball.
"Our next step is to reduce the driving voltage and the actuating force," Shih added.
The research was published in the journal Applied Physics Letters.