Highly sensitive wearable sensors that can be conformably attached to human skin or
integrated with textiles to monitor the physiological parameters of human body or the …

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

Artificial muscles are indispensable components for next-generation robotics capable of
mimicking sophisticated movements of living systems. However, an optimal combination of …

Imitation and inspiration from nature are many today's innovations.[10, 22–28] For example,
human skin can be stretchable, body/shape conformal, and sense environmental stimuli like …

The practical utilization of soft nanocomposites as a strain map** sensor in tactile sensors
and artificial skins requires robustness for various contact conditions as well as low-cost …

Soft strain sensors that are mechanically flexible or stretchable are of significant interest in
the fields of structural health monitoring, human physiology, and human–machine interfaces …

Stretchable conductive fibers have attracted significant attention due to their ability to be
directly woven into or stitched onto fabrics, making them ideal for use in the design of …

Sensitivity and transparency are critical properties for flexible and wearable electronic
devices, and how to engineer both these properties simultaneously is dramatically essential …

Many stretchable conductive composite fibers exhibit high elongation at break, but most of
them do not have a large workable strain range towing to the low conductivity when used as …

Recent breakthroughs in bioelectronic devices have stemmed from developments involving
nanocomposites. Sepsis, preeclampsia, vascular dementia, and heart disease are serious …