The development of flexible piezoelectric nanogenerators has experienced rapid progress
in the past decade and is serving as the technological foundation of future state-of-the-art …

Confronting the depletion of fossil energy and the pollution of chemical batteries, together
with the rapid development of various portable electronic devices and the Internet of Things …

For implantable medical devices, it is of paramount importance to ensure uninterrupted
energy supply to different circuits and subcircuits. Instead of relying on battery stored energy …

Self-powered biomedical implants improve the life of patients and lower the risks associated
with battery replacement. Piezoelectric energy harvesters that generate electricity from the …

Energy harvesting is one of the most promising research areas to produce sustainable
power sources from the ambient environment. Which found applications to attain the …

Cardiovascular disease is the leading cause of death worldwide. Continuous heart
monitoring is an effective approach in detecting irregular heartbeats and providing early …

Piezoelectric nanomaterial-polymer composites represent a unique paradigm for making
flexible energy harvesting and sensing devices with enhanced devices' performance. In this …

Piezoelectric polymers are characterized by their flexibility and ease of processing into
shapes, however, their piezoelectric coefficients, such as d33, are quite low (∼ 24 pC N− 1) …

Cardiac implantable devices are effective both as methods of controlling irregular heartbeats
in people with heart rhythm disorders and as interventional therapy for cardiac diseases …

Flexible electronics are emerging as a promising new platform for wearables; however, their
practical utility is hindered by the limited battery life of electronic devices and the need for …