Along with the rapid development of low-power electronics and the Internet of Things,
vibration energy harvesting is attracting increasingly attention from both industry and …

To realize the sustainable energy supply of wireless sensor networks, a novel dynamically
synergistic regulation mechanism is proposed for rotation energy harvesting under the …

Amidst the swift progression of microelectronics and Internet of Things technology, wearable
devices are gradually gaining ground in the domains of human health monitoring. Recently …

Inspired by the dynamics of the noninertial systems, a novel bistable energy harvesting
backpack is proposed that improves biomechanical energy harvesting performance. In …

The ubiquitous and renewable vibration energy has been recognized as a promising energy
source for the increasing number of low-power electronics, but its efficient harvesting is still …

We propose a snap-through triboelectric nanogenerator with magnetic coupling and buckled
bistable mechanism to harvest rotational energy (ST-RTENG). The buckled bistable beam …

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 …

The omnipresent ultralow-frequency vibrations and swings contain a huge amount of
mechanical energy, but the low harvesting efficiency hinders their application as a practical …

Harvesting the pervasive ultralow-frequency (< 5 Hz) mechanical energy has been
considered as a promising strategy to implement decentralized power sources for the …

Broadening the working bandwidth of piezoelectric energy harvesting devices is of great
importance owing to the wide frequency spectrum of environmental vibrations. Efforts …