A new flexible wearable piezoelectric device (a device that produces electricity from movement) is being developed at UCLA that could succeed where others have previously failed.
image: Jun Chen/UCLA
Previous attempts at magnetoelastic generators saw the units constructed from rigid metal
alloys, which were too stiff to be worn on the body.
A team at UCLA (University of
California, Los Angeles) has now created one that is flexible enough to be worn on frequently moving
body parts such as wrists and arms.
It is made from a platinum-catalysed silicone polymer matrix, suspended
inside of which are nanoscale neodymium-iron-boron magnets.
When attached to an user's elbow via a silicone band,
the device generated electrical currents of 4.27 milliamperes per square centimeter. As the wearer's elbow moved tiny
magnets are repeatedly pulled apart and pushed back together.
The test indicated that the device was sensitive
enough that it could even convert human pulse waves into electrical signals – which sees one possible
future use as a self-powered heart rate monitor.
The research was recently published in the journal Nature Materials.