The emergence of plastic electronics satisfies the increasing demand for flexible electronics.
However, it has caused severe ecological problems. Flexible electronics based on natural …

The development of fiber materials has accompanied the evolution of human civilization for
centuries. Recent advances in materials science and chemistry offered fibers new …

Flexible and stretchable biosensors can offer seamless and conformable biological–
electronic interfaces for continuously acquiring high‐fidelity signals, permitting numerous …

Flexible and stretchable bioelectronics provides a biocompatible interface between
electronics and biological systems and has received tremendous attention for in situ …

Organic electrochemical transistors (OECTs) make effective use of ion injection from an
electrolyte to modulate the bulk conductivity of an organic semiconductor channel. The …

A sweat‐based flexible supercapacitor (SC) for self‐powered smart textiles and wearable
systems is presented. The developed SC uses sweat as the electrolyte and poly (3, 4 …

Organic electrochemical transistors (OECTs) are presently a focus of intense research and
hold great potential in expanding the horizons of the bioelectronics industry. The notable …

Fiber‐based structures are highly desirable for wearable electronics that are expected to be
light‐weight, long‐lasting, flexible, and conformable. Many fibrous structures have been …

Conjugated polymers (CPs) possess a unique set of features setting them apart from other
materials. These properties make them ideal when interfacing the biological world …

By virtue of its tunable electrical conductivity, remarkable solution processing capability, and
great biocompatibility, polyaniline (PANI) has been recognized as an attractive active …