Environmental pollution resulting from fossil fuel consumption and the limited lifespan of
batteries has shifted the focus of energy research towards the adoption of green renewable …

Microelectromechanical systems (MEMS) powered by conventional batteries are
disadvantaged in terms of scope of application and environmental friendliness because their …

Energy harvesting is the process by which light, thermal, solar, and kinetic energy can be
converted to a usable form of energy with the ultimate objective of develo** self-powered …

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

A rotational piezoelectric energy harvester for efficiently harvesting wind energy is
developed. The piezoelectric (PVDF) beam generates electricity using the impact-induced …

We demonstrate a flexible piezoelectric nanogenerator (PNG) constructed using a hybrid (or
composite) film composed of highly crystalline BaTi (1–x) Zr x O3 (x= 0, 0.05, 0.1, 0.15, and …

In this paper, we report a technique that uses piezoelectric polyvinylidene fluoride (PVDF)
microbelts to convert the energy from low-speed air flow to electricity via their resonant …

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

This paper reviews the design, implementation, and demonstration of energy harvesting
devices that exploit flow-induced vibrations as the main source of energy. Starting with a …

Nonlinear limit cycle oscillations of an aeroelastic energy harvester are exploited for
enhanced piezoelectric power generation from aerodynamic flows. Specifically, a flexible …