Flexible and stretchable piezoresistive strain sensors which can translate mechanical stimuli
(strain changes) into electrical signals (resistance changes) provide a simple and feasible …

Conducting polymer nanocomposites (CPNC's) are promising materials for sensor devices
possessing design pliability, good sensitivity, and low temperature operation. For producing …

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 …

We report strong, stretchable and ultrasensitive thermoplastic polyurethane (TPU)
nanocomposites reinforced with multiwalled carbon nanotubes (MWCNT) for piezoresistive …

Flexible and highly sensitive pressure sensors have versatile biomedical engineering
applications for disease diagnosis and healthcare. The fabrication of such sensors based on …

The ability to manufacture ordered mesoporous materials using low-cost precursors and
scalable processes is essential for unlocking their enormous potential to enable …

With environmental concerns increasing, the development of durable, degradable, and
reprocessable elastomers is crucial for the advancement of environmentally friendly …

Graphene (G) has been combined with carboxymethyl cellulose (C) for the development of
environmentally friendly inks for printed electronics applications. Water-based ink …

Flexible and stretchable strain sensors are in great demand in advanced health care, human–
machine interface, stretchable electronics, electronic skin, etc. Of the various strain sensing …

The development of tunable UV‐curable polymeric composites for functional applications,
taking into consideration environmental issues and additive manufacturing technologies, is …