Abstract Poly (vinylidene fluoride)(PVDF)‐based polymers demonstrate great potential for
applications in flexible and wearable electronics but show low piezoelectric coefficients …

Wearable electronics-based devices have attracted significant attention with the rapid
development of artificial intelligence (AI) and the Internet of Things (IoT) technologies …

Piezoelectric film pressure sensors are forthcoming choices for self-powered flexible and
portable electronics because of their unique advantages in instant response and linear …

Flexible and stretchable transparent electrodes are widely used in smart display, energy,
wearable devices and other fields. Due to the limitations of flexibility and stretchability of …

High-performance wearable electronic devices with the capability of converting mechanical
force into electrical energy have been gaining increasing attention for biomedical monitoring …

Piezoelectric materials have long been investigated for their ability to convert mechanical
energy to electrical energy (or vice versa). Piezoelectric polymers, while they may not exhibit …

Abstract Piezo-, pyro-, ferro-electricity in carbon-fluoro polymers such as poly (vinylidene
fluoride)(PVDF), its co-polymers and their nanostructures are gaining remarkable …

Recent developments in miniaturized electronic devices with sophisticated computational
capabilities and remarkably low power communication technologies involve a tendency …

Biopolymer coatings exhibit outstanding potential in various biomedical applications, due to
their flexible functionalization. In this review, we have discussed the latest developments in …

Triboelectric nanogenerators (TENGs) are flexible, efficient, and cost-effective energy
harvesters. Here, we develop high-performance ferroelectric-assisted TENGs using …