The explosive development of electronic devices and wireless communication technology
gives rise to the issue of electromagnetic pollution, known as electromagnetic interference …

Smart textiles are composed of multi-structured functional materials capable of producing
sensory responses and energy in response to environmental, chemical and physical stimuli …

Flexible electronics have attracted considerable attention in the past two decades due to
their distinctive features and numerous potential applications in electronic skins, human …

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

Bioinspired muscle fiber–based wearable electronics are a breakthrough in the production
of lightweight, mechanically robust next-generation smart textiles. To meet the urgent …

Conductive polymers have attracted wide attention since their discovery due to their unique
properties such as good electrical conductivity, thermal and chemical stability, and low cost …

With the rapid development of intelligent devices, medical devices, flexible robots, and other
fields, it is an inevitable trend of future development for intelligent wearable devices to …

Chemiresistive gas sensors (CGSs) have revolutionized the field of gas sensing by
providing a low-power, low-cost, and highly sensitive means of detecting harmful gases …

This paper provides an overview of the application of conducting polymers (CPs) used in the
design of tactile sensors. While conducting polymers can be used as a base in a variety of …

Wearable skin-inspired electronic skins present remarkable outgrowth in recent years
because their promising comfort device integration, lightweight, and mechanically robust …