Self-sustained wireless sensing nodes (WSN) with energy harvesting, low power
consumption, and intelligent sensing are the key devices in artificial intelligence of things …

Aiming at the random and low-frequency characteristics of human motion, a hand-held
rolling magnetic-spring energy harvester is proposed to scavenge energy from …

Bistability has been proven beneficial for vibration energy harvesting. However, previous
bistable harvesters are usually cumbersome in structure and are not necessarily capable of …

To realize efficient broadband wave-energy conversion, this study proposes a point-
absorber wave energy converter with a novel magnetic tristable mechanism (NMT-PAWEC) …

Wave energy is acknowledged as one of the most promising renewable energy sources,
effectively developing wave energy conversion technologies might contribute to solving the …

Daily activities such as walking and running possess abundant amount of energy, which is
usually wasted and have the potential to be harvested. Especially, the energy generated …

Vibration energy harvesting is increasingly being seen as a viable energy source to provide
for our energy-dependent society. There has been great interest in scavenging previously …

Vibration energy harvesting holds the promise of providing autonomous power for low-
power electronic devices. To improve the issue of the limited bandwidth of the piezoelectric …

Permanent magnets are widely employed in levitation-based vibration harvesters and
sensors, but their operational range does not span ultra-low frequencies unless a …

As the realm of smart wearable electronic devices undergoes continuous evolution, tapping
into the energy generated by everyday human movement presents a compelling alternative …