Energy harvesting technologies have been explored by researchers for more than two
decades as an alternative to conventional power sources (eg batteries) for small-sized and …

Advances in soft materials, miniaturized electronics, sensors, stimulators, radios, and battery-
free power supplies are resulting in a new generation of fully implantable organ interfaces …

Lower‐limb motion monitoring is highly desired in various application scenarios ranging
from rehabilitation to sports training. However, there still lacks a cost‐effective, energy …

In the Internet of Things era, wearable electronics and sensors have become essential for
health monitoring and human computer interaction. However, a continuous power supply is …

Ultrasound‐powered implants (UPIs) represent cutting edge power sources for implantable
medical devices (IMDs), as their powering strategy allows for extended functional lifetime …

Harvesting energy from human motions is a promising solution to the power issue for
wearable electronics. Recently, various energy harvesters were developed to capture the …

Any two objects in contact with each other exert a force that could be simply due to gravity or
mechanical contact, such as any ubiquitous object exerting weight on a platform or the …

The fast advances in wearable electronic devices require clean and wearable power
sources. This study presents a wearable electromagnetic energy harvester (EMEH) with …

Resultant hip joint forces can currently only be recorded in situ in a laboratory setting using
instrumented total hip replacements (THRs) equipped with strain gauges. However …

Harnessing the robust electromechanical couplings, piezoelectric materials not only enable
efficient bio‐energy harvesting, physiological sensing and actuating but also open …