The emergence of artificial intelligence and the Internet of Things has led to a growing
demand for wearable and maintenance‐free power sources. The continual push toward …

Flexible tactile sensors capable of measuring mechanical stimuli via physical contact have
attracted significant attention in the field of human‐interactive systems. The utilization of …

With the development of flexible electronic devices such as organic electrodes, medical
sensors and light-emitting diodes, the conductive polymer, poly (3, 4 …

There is a rapidly growing demand for self-powered technologies in wearable electronic
devices that can be integrated with the human body to accomplish various functions …

PEDOT: PSS conductive polymers have received tremendous attention over the last two
decades owing to their high conductivity, ease of processing, and biocompatibility. As a …

Conductive polymers have evolved as a versatile class of materials capable of combining
standard polymer properties with the unique characteristic of electrical conductivity …

Polymeric sensors on fabrics have vast potential toward the development of versatile
applications, particularly when the ready-made wearable or fabric can be directly coated …

Additive manufacturing (AM) has progressed rapidly in recent years, thanks to its versatility
in printing complex and intricate shapes. Very recently, it has also been making inroads into …

Portable and wearable dual-mode sensors that can simultaneously detect multiple stimuli
are essential for emerging artificial intelligence applications, and most efforts are devoted to …

Compliant thermoelectric generators (TEGs) hold great promise in the field of self‐powered
wearable electronics. Yet, the low heat transfer efficiency arising from large thermal …