UBC Researchers Develop Stretchy, Washable Batteries for Medical Wearables

Researchers at the University of British Columbia have created a flexible waterproof battery ...

Bahar Iranpour is stretching and twisting the battery with Dr. Nguyen observing (Photo credit: UBC)

Researchers at the University of British Columbia have created a flexible waterproof battery that is durable enough to undergo multiple wash cycles. The battery is so pliant that it works even when twisted or stretched to twice its normal length, or after being tossed in the laundry.

Read more: Swiss Researchers Develop Stretchable Batteries for Wearable and Foldable Devices

“Wearable electronics are a big market and stretchable batteries are essential to their development,” says Dr. Ngoc Tan Nguyen, a postdoctoral fellow at UBC’s faculty of applied science. “However, up until now, stretchable batteries have not been washable. This is a critical addition if they are to withstand the demands of everyday use.”

The battery developed by Dr. Nguyen and his colleagues offers a number of engineering advances. In normal batteries, the internal layers are hard materials encased in a rigid exterior. The UBC team made the key compounds—in this case, zinc and manganese dioxide—stretchable by grinding them into small pieces and then embedding them in rubbery plastic, or polymer. The battery comprises several ultra-thin layers of these polymers wrapped inside a casing of the same polymer. This construction creates an airtight, waterproof seal that ensures the integrity of the battery through repeated use.

It was team member Bahar Iranpour, a Ph.D. student, who suggested throwing the battery in the wash to test its seal. So far, the battery has withstood 39 wash cycles and the team expects to further improve its durability as they continue to develop the technology, reports UBC.

“We put our prototypes through an actual laundry cycle in both home and commercial-grade washing machines. They came out intact and functional and that’s how we know this battery is truly resilient,” says Iranpour.

The choice of zinc and manganese dioxide chemistry also confers another important advantage. “We went with zinc-manganese because for devices worn next to the skin, it’s a safer chemistry than lithium-ion batteries, which can produce toxic compounds when they break,” says Nguyen.

An affordable option

Work is underway to increase the battery’s power output and cycle life, but already the innovation has attracted commercial interest. The researchers believe that when the new battery is ready for consumers, it could cost the same as an ordinary rechargeable battery.

“The materials used are incredibly low-cost, so if this is made in large numbers, it will be cheap,” says electrical and computer engineering professor Dr. John Madden, director of UBC’s Advanced Materials and Process Engineering Lab who supervised the work. In addition to watches and patches for measuring vital signs, the battery might also be integrated with clothing that can actively change color or temperature.

Read more: Thin-Film, Flexible and Printed Batteries Market Will Grow To $500 Million in 2030, Says IDTechEx

“Wearable devices need power. By creating a cell that is soft, stretchable, and washable, we are making wearable power comfortable and convenient.” The battery is described in a new paper published recently in Advanced Energy Materials.

Sam Draper
December 30, 2021

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