With the advent of the Internet of Everything (IoE) era, our civilization and future generations
will employ an unimaginable complex array of electronics and sensors in daily life …

Piezoelectricity, a linear electromechanical coupling, is of great interest due to its extensive
applications including energy harvesters, biomedical, sensors, and automobiles. A growing …

Energy autonomy and conformability are essential elements in the next generation of
wearable and flexible electronics for healthcare, robotics and cyber-physical systems. This …

Stretchable Triboelectric Nanogenerators (TENGs) for wearable electronics are in significant
demand in the area of self-powered energy harvesting and storage devices. Designing a …

There was a fast development of various piezoelectric materials in the past two decades due
to their numerous applications. Piezoelectric materials made up of natural quartz crystals …

Organic-inorganic metal halide perovskites (OMHPs) have been extensively investigated
over the past few years, not only because of their key features such as ease of solution …

Self-powered sensor development is moving towards miniaturization and requires a suitable
power source for its operation. The piezoelectric nanogenerator (PENG) is a potential …

There are numerous drivers in the context of sustainable energy production from ambient
mechanical energy sources, such as body motions, due to the increasing world demand for …

A new concept to enhance efficiency of the acoustic energy harvesting is presented and
experimentally tested in this paper. An auxetic latticed resonator backed by an acoustic …

This study aimed to develop a novel hybrid piezoelectric structure based on poly (vinylidene
difluoride) nanofibers (PVDF NFs) and zinc oxide nanorods (ZnO NRs) which eliminate the …