Smartwatches, for example, need to be charged, and they can only gather limited amounts of data due to their placement on the wrist. "We introduce a completely new concept of tailoring a device directly to a person and using wireless power casting to allow the device to operate 24/7 without ever needing to recharge."Ĭurrent wearable sensors face various limitations. "There's nothing like this out there," said Gutruf, a member of the university's BIO5 Institute. Berge Faculty Fellow in the College of Engineering, published its findings today in the journal Science Advances. The team, led by Philipp Gutruf, assistant professor of biomedical engineering and Craig M. Not only are the devices custom 3D-printed and based on body scans of wearers, but they can operate continuously using a combination of wireless power transfer and compact energy storage. University of Arizona engineers have developed a type of wearable they call a "biosymbiotic device," which has several unprecedented benefits.
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