In recent years, the widespread adoption of next-generation wearable electronics has been
facilitated by the integration of advanced nanogenerator technology with conventional …

Lead-free alternative materials for converting mechanical energy into electrical energy
through piezoelectric transduction are of significant value in a diverse range of technological …

Energy harvesting exploits ambient sources of energy such as mechanical loads, vibrations,
human motion, waste heat, light or chemical sources and converts them into useful electrical …

With the advancement of wearable electronics, stretchable energy harvesters are attractive
to reduce the need of frequent charging of wearable devices. In this work, a stretchable …

Energy harvesting is one of the most promising research areas to produce sustainable
power sources from the ambient environment. Which found applications to attain the …

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

This paper reports a self-powered, flexible, piezo-and pyro-electric hybrid nanogenerator
(NG) device that can be fixed on different locations of human skin for detecting static and …

Till date, fabrication of piezoelectric nanogenerator (PNG) with highly durable, high power
density, and high energy conversion efficiency is of great concern. Here a flexible, sensitive …

A concise, although admittedly non‐exhaustive, didactic summary is given of some of the
main concepts and approaches related to recent advances and developments to enable …

We report an efficient, low-cost in situ poled fabrication strategy to construct a large area,
highly sensitive, flexible pressure sensor by electrospun Ce3+ doped PVDF/graphene …