The development of next-generation bioelectronics, as well as the powering of consumer
and medical devices, require power sources that are soft, flexible, extensible, and even …

Piezoelectric devices integrated into physiological systems can be used effectively for
biomedical applications such as sensing biological forces, self-powering biomedical …

This study explores an innovative energy harvesting technique for biomedical implants in
alignment with the United Nations Sustainable Development Goals, focusing on good health …

Due to its superior advantages in terms of electronegativity, metallic conductivity,
mechanical flexibility, customizable surface chemistry, etc., 2D MXenes for nanogenerators …

To cater to the extensive body movements and deformations necessitated by biomedical
equipment flexible piezoelectrics emerge as a promising solution for energy harvesting. This …

This paper provides a comprehensive review on the acoustoelectric materials and devices
in biomedicine. Prominent development has been achieved in minimally invasive medicine …

A long-lasting power source is crucial for a sustainable operation of implanted medical
devices. However, the battery-powered medical electronic devices are at risk of failure due …

Piezoelectric energy harvesters (PEH) are widely used to collect piezoelectric energy.
However, adapting to different engineering application environments is difficult for traditional …

Wearable devices play a crucial role in daily life and are extensively used in health
monitoring, motion capture, and human-machine interaction. The comfort of the devices …

Flexible piezoelectric materials with high stretchability have been realized in
industrialization production. Among them, piezoelectric fiber composites made of elastomers …