Abstract The Artificial Intelligence of Things (AIoT) connects everything with intelligence,
while the increase in energy consumption generated by numerous electronic devices puts …

With the increasing demand for clean and sustainable energy, self-powered technologies
based on environmental vibrations have attracted a lot of attention recently. Natural vibration …

In this paper, the research on mechanical motion rectification-based electromagnetic
vibration energy harvesting (MMR-based EMVEH) is reviewed comprehensively. Firstly, the …

The single quasi-zero-stiffness harvester-absorber system has shown its effectiveness in
harvesting vibration energy and suppressing low-frequency vibrations simultaneously …

In this study, a quasi-zero stiffness energy harvesting backpack (QZS-EHB) is proposed. The
bistable quasi-zero stiffness mechanism is constructed by paralleling a pair of positive …

Wearable devices play an indispensable role in modern life, and the human body contains
multiple wasted energies available for wearable devices. This study proposes a self …

To improve the energy harvesting performance of flow-induced vibration energy harvesters,
this paper proposes the design of the nonlinear multistable wake-gallo** energy …

This paper proposes a novel bistable energy harvester coupled with a nonlinear elastic
boundary (BEH-NB) to enhance energy harvesting performance. The analytical model of …

Triboelectric nanogenerators (TENGs) represent a promising next‐generation renewable
energy technology. TENGs have become increasingly popular for harvesting vibration …

Harvesting energy from human motion to power portable electronic devices has attracted
widespread attention. However, human motion energy is primarily concentrated in low …