With recent advancements in novel composite nanomaterials and microstructures, wearable
electronic devices, particularly flexible and stretchable strain sensors, are receiving …

Advances in stretchable and flexible sensors are responding to the emerging demand of
wearable and portable smart electronics. A core component of these electronics are tactile …

Recently, flexible wearable electronic devices have attracted immense interest as an
alternative for conventional rigid metallic conductors in personal healthcare monitoring …

Thermoplastic polyurethanes (TPUs) have attracted increasing attention from the scientific
and industrial communities due to their rich chemistry and wide fabrication techniques …

Wearable flexible electronic strain sensor devices have developed rapidly in recent years
due to their potential capacity to detect human motion in various situations. However, it still …

Flexible foam sensors have great potential applications in wearable electronic skin and
motion detection. However, they usually have a low linear range, complex and no …

Abstract Development of smart nanocomposites by reinforcing carbon nanomaterials into
polymer composite materials has gained significant attention due to their extensive potential …

Carbon nanofillers are widely used to blend with polymers for fabricating high-performance
polymer nanocomposites (PNCs) toward structural, electronic and sensory material …

Over recent years, flexible strain sensors have been playing an increasingly important role,
especially in wearable electronics, healthcare equipment, electronic skins (e-skins), and soft …

Piezoresistive strain sensors dominate the field of soft elastomer sensors, with many
interesting findings and applications. Nevertheless, the methods of characterizing the …