Piezoelectric energy harvesting enables the development of sustainable, batteryless
medical devices, powered by micro-watts level energy transduction and low-frequency body …

Sensors are an important part of the organization required for robots to perceive the external
environment. Self-powered sensors can be used to implement energy-saving strategies in …

Vibration energy harvesters based on piezoelectric resonators are promising for powering
Wireless Sensors Nodes (WSNs). Yet, any mismatch between the resonant frequency of …

This article presents an efficient piezoelectric (PE) energy harvesting (EH) circuit based on
the techniques of series synchronized switch harvesting on inductor (Series-SSHI) and …

A self-powered portable triboelectric nanogenerator (TENG) is used to collect biomechanical
energy and monitor the human motion, which is the new development trend in portable …

Vibration energy harvesters (VEHs) allow the extraction of ambient mechanical energy. The
proposed analysis focuses on bistable harvesters with Duffing nonlinearity. Bistable …

In order to scavenge the energy of ambient vibrations, bistable vibration energy harvesters
constitute a promising solution due to their large frequency bandwidth. Because of their …

In this work, we investigate the frequency response of an electrostatic MEMS energy
harvester with innovative gap-overlap transducer design. We prove theoretically and …

This article presents a rectifierless synchronized switch harvesting on inductor interface with
a novel maximum power point tracking (MPPT) technique assistance for piezoelectric …

In this paper, a mutually synergistic hybrid energy harvesting (SHEH) circuit with both AC
and DC energy harvesting capability is proposed. Within the proposed hybrid harvester, the …