Technology

Zebra stripes spark inspiration for smart, wearable source of electricity

More than just a pretty face: zebra stripes are behind the design of a new electricity generator
More than just a pretty face: zebra stripes are behind the design of a new electricity generator

The zebra’s distinctive appearance has been the source of much scientific debate, from its role in predator confusion, to how it can to deter horsefly bites. And recently, it was found that the animals can raise the fur of their black segments to transfer heat away from the skin for temperature regulation.

Now, scientists have taken the zebra debate in an entirely different direction – using the animal as inspiration in creating a device that produces electricity using the contrasting shades as thermal conductors.

Researchers at the Gwangju Institute of Science and Technology (GIST) in South Korea have developed a flexible, biodegradable fiber-type thermoelectric generator (TEG), which uses the black and white sections to create a temperature gradient below the surface that in turn can generate electricity.

“Traditional TEG designs are large and bulky as they rely on natural convection, which leads to an out-of-plane temperature gradient,” explained Young Min Song, GIST professor and author of the study. “This requires hard insulators, which limit the application of TEGs in flexible and wearable devices. We have now transcended this paradigm in our design by creating an in-plane device that is flexible and biodegradable. This increases its applicability while reducing its environmental impact by making it scalable, integrable, and sustainable.”

Biodegradabe PLCL material, which reflects sunlight and emits infrared radiation to keep the area below it cool, formed the white stripes, while PEDOT:PSS, appearing black to the eye, provided the heat absorption required to create the temperature gradient underneath. With the aid of silicon nanomembranes in the design, the novel TEG design was able to generate a 22 °C (49.6 °F) temperature difference for the gradient.

The team drew direct inspiration from the African equines
GIST

While the lab model was a small prototype, researchers say it can generate continuous electricity 24 hours a day, and the materials were completely biodegraded in saline within 35 days.

"The pandemic caused the widespread use of disposable masks and protective equipment, which pose a huge environmental impact,” Song said. “This underscores the need for sustainable and eco-friendly solutions like TEGs that can [be] incorporated in such wearable devices for performing specialized functions like self-power generation and sensing.”

The study was published in the journal Science Advances.

Source: Gwangju Institute of Science and Technology

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