Limited by the structure, the high-efficiency vibration energy harvesting and vibration
suppression have always been a theoretical bottleneck and technical challenge in this field …

This paper presents a state-of-the-art review on a hot topic in the literature, ie, vibration
based energy harvesting techniques, including theory, modelling methods and the …

This paper investigates efficient simultaneous energy harvesting and vibration suppression
utilizing a tunable bi-stable magneto-pieozelastic absorber (BMPA). The absorber …

This paper presents a tunable frequency up-conversion wideband piezoelectric vibration
energy harvester using a novel impact-and rope-driven hybrid mechanism, in which a high …

To improve the efficiency of energy harvesting from external ultra-low level vibration
resources, this article presents a novel tristable hybrid vibration energy harvester using …

We exploit a 1: 2 internal resonance in an L-shaped beam-mass structure for broadband
and high-efficient energy harvesting. The geometric nonlinearities of the structure and …

Wake-galloping flow energy harvesters vibrate linearly under fluid force which results in a
narrow lock-in region. Hence, their efficiency drops significantly in variable flow speeds …

Efficiently converting vibration energy from surrounding environment to electric energy for
powering micro/nano-electromechanical systems (MEMS/NEMS), without using batteries, is …

With the development of remote monitoring technology and highly integrated circuit
technology, the achievement and usage of self-powered wireless low-power electronic …

The internal resonance mechanism is widely used to improve the output performance of
vibration energy harvester owing to its modal interaction between modes. The …