Triboelectric nanogenerators (TENGs), a nascent field in energy conversion technologies,
provide a novel approach to producing electrical energy from mechanical motion in the …

Advancements in structural health monitoring (SHM) techniques have spiked in the past few
decades due to the rapid evolution of novel sensing and data transfer technologies. This …

To realize long-term and stable applications of wearable and flexible sensors for motion
detection, health analysis and wisdom medication in harsh environments, self-healing, self …

Polymers are essential components of modern‐day materials and are widely used in various
fields. The dielectric constant, a key physical parameter, plays a fundamental role in the light …

The advent of implantable bioelectronic devices offers prospective solutions toward health
monitoring and disease diagnosis and treatments. However, advances in power modules …

By seamlessly integrating the wearing comfortability of textiles with the biomechanical
energy harvesting function of a triboelectric nanogenerator (TENG), an emerging and …

Herein, a flexible, stretchable and highly ionic conductive cellulose/phytic acid/polyaniline
hydrogel with sandwich-shaped structures was fabricated by in situ growth of polyaniline …

Rapid iterations of sensing, energy, and communication technologies transform traditional
agriculture into standardized, intensive, and smart modern agriculture. However, the energy …

Edible electronics will enable systems that can be safely ingested and degraded in the
human body after completing their function, such as sensing physiological parameters or …

Triboelectric nanogenerators (TENGs), which can harvest low-frequency mechanical energy
from human activities, are potential for wearable electronics, especially textile-based …