In the present era, self-powered technology and smart materials have paved the way for the
design of numerous implantable energy harvesting and biomedical applications …

Recent substantial advancements in computational techniques, particularly in artificial
intelligence (AI) and machine learning (ML), have raised the demand for smart self-powered …

The worldwide energy and environmental pollution crisis is caused partly by the rising
usage of non-renewable energy sources. Researchers try to find alternative energy systems …

The µW‐level power density of flexible piezoelectric energy harvesters (FPEHs) restricts
their potential in applications related to high‐power multifunctional wearable devices. To …

This paper proposes a novel piezoelectric energy harvester with rotating-DOF to efficiently
achieve multimodal vibration energy harvesting in low-frequency environments. The …

Lead-free piezoelectric ceramic is a promising material for energy harvesters, as they have
superior electromechanical, ferroelectric, and piezoelectric properties. In addition …

Subjected to mechanical stimuli, a piezo-induced built-in electric field is favorable for
promoting the catalytic performance of piezo-photocatalysts via effectively separating the …

Wearable pressure sensors play an important role in monitoring human health and disease
and have been of wide concern by researchers. However, it is still difficult to obtain flexible …

To cater to the extensive body movements and deformations necessitated by biomedical
equipment flexible piezoelectrics emerge as a promising solution for energy harvesting. This …

Mechanical energy harvesting using piezoelectric nanogenerators (PNGs) offers an
attractive solution for driving low-power portable devices and self-powered electronic …