Wearable piezoelectric energy harvesters (WPEHs) have gained popularity and made
significant development in recent decades. The harvester is logically built by the movement …

In pursuit of enhancing the output power of energy harvesters, this paper introduces a novel
jellyfish-inspired bistable piezoelectric-triboelectric hybrid generator (JIB-PTHG) with low …

Multidirectional approaches are essential for harnessing mechanical energy of random
varying directions. Traditional multidirectional technologies are difficult to effectively …

In order to make a piezoelectric vibration energy harvester collect more energy on a broader
frequency range, nonlinearity is introduced into the system, allowing the harvester to …

Aiming to achieve higher energy output under wider bandwidth, a low frequency magnetic
coupling bistable piezoelectric and electromagnetic energy harvester is proposed. Two …

Energy harvesting provides potential power solutions for distributed sensors in rail
transportation condition monitoring. However, reported harvesters have low efficiency and a …

To improve the output performance of the energy harvester, an IL shaped magnetic coupling
composite piezoelectric energy harvester (IL MCCPEH) is constructed by introducing …

Taking into account the gravitational potential energy of the piezoelectric energy harvester,
the size effect, and the rotary inertia of tip magnet, a more accurate distributed parametric …

A distributed parametric mathematical model of a new‐type dynamic magnifier for a bistable
cantilever piezoelectric energy harvester is proposed by using the generalized Hamilton …

Most of the optimisation studies of Vibration Energy Harvesters (VEHs) account for a single
output quantity, eg frequency bandwidth or maximum power output, but this approach does …