Wearable devices are drawing increasing attention in both academia and industry in that
they can offer unprecedented information related to human health in real-time and human …

Piezoelectric energy harvesters (PEHs) promote the construction of a smarter world through
powering electric devices with energy scavenged from environmental vibrations by means of …

Piezoelectric microelectromechanical systems (PiezoMEMS) are attractive for developing
next generation self-powered microsystems. PiezoMEMS promises to eliminate the costly …

In this paper, we look into the fundamental mechanism to retrieve the power from physical
vibrations by using microelectromechanical systems (MEMS) energy harvesters. An …

We demonstrate a microscale vibration energy harvester exhibiting an ultra-low resonance
frequency and high power density. A spiral shaped microelectromechanical system (MEMS) …

The main challenge in the design of vibration energy harvesters is the optimization of energy
outcome relative to the applied excitation. This depends strongly on the used energy …

This paper reports, for the first time, experimental evidence of the effectiveness of the
frequency-tuning synchronized electrical charge extraction technique (FTSECE) with a …

This paper presents a high performance piezoelectric energy harvester (PEH) with a
rectangular hole to work at low-frequency. This PEH used thinned bulk PZT film on flexible …

In this article, the presented work aims to scavenge maximum electrical outputs by using the
novel microelectromechanical system flared-U shaped spring based piezoelectric vibration …

We suggest an innovative architecture for an efficient energy generator devoted to the
powering of a wireless sensor network deployed for aircraft health monitoring. This battery …