Energy harvesting technologies have been explored by researchers for more than two
decades as an alternative to conventional power sources (eg batteries) for small-sized and …

Energy harvesting holds great potential to achieve long-lifespan self-powered operations of
wireless sensor networks, wearable devices, and medical implants, and thus has attracted …

Energy harvesting is a promising technique that can help produce renewable and clean
energy and improve sustainability of infrastructure. The objective of this paper is to review …

Energy autonomy is key to the next generation portable and wearable systems for several
applications. Among these, the electronic-skin or e-skin is currently a matter of intensive …

A paradigm shift has emerged over the last decade pointing to an exciting research area
dealing with the harnessing of elastic structural instabilities for'smart'purposes in a variety of …

In this paper a novel multimodal hybrid bridge energy harvester (HBEH) using combined
piezoelectric and electromagnetic conversion is reported. The architecture, fabrication, and …

Energy harvesting technologies are growing rapidly in recent years because of limitation by
energy storage and wired power supply. Vibration energy is abundant in the atmosphere …

Piezoelectric materials are capable of transforming mechanical strain and vibration energy
into electrical energy. This property allows opportunities for implementing renewable and …

Roadways are major infrastructure for connecting people and providing access and mobility.
The traffic-induced strains and stresses generated by the vehicles can be potentially used …

Enhancement of structure-borne wave energy harvesting is investigated by exploiting
metamaterial-based and metamaterial-inspired electroelastic systems. The concepts of …