A new material designed to harvest up to 400 times more energy from movement than currently possible has potential applications in biomedicine and geospatial monitoring.
By Dr Peter Sherrell and Professor Amanda Ellis, University of Melbourne.
A new material designed to harvest up to 400 times more energy from movement than currently possible has potential applications in biomedicine and geospatial monitoring.
By Dr Peter Sherrell and Professor Amanda Ellis, University of Melbourne.
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