Electronic do** in organic materials has remained an elusive concept for several
decades. It drew considerable attention in the early days in the quest for organic materials …

Abstract The conductive polymer poly (3, 4‐ethylenedioxythiophene)(PEDOT), and
especially its complex with poly (styrene sulfonate)(PEDOT: PSS), is perhaps the most well …

Organic thermoelectric (TE) fibers, that combine the impressive structural features and high
heat-to-electricity conversion capability, have made great achievements in recent years …

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

Owing to the mixed electron/hole and ion transport in the aqueous environment, poly (3, 4-
ethylenedioxythiophene): poly (styrenesulfonate)-based organic electrochemical transistor …

Since wearable technologies for telemedicine have emerged to tackle global health
concerns, the demand for well‐attested wearable healthcare devices with high user comfort …

Continuous, one-dimensional (1D) stretchable conductors have attracted significant
attention for the development of wearables and soft-matter electronics. Through the use of …

This Review describes the state‐of‐the‐art of wearable electronics (smart textiles). The
unique and promising advantages of smart electronic textiles are highlighted by comparing …

Fiber‐shaped supercapacitors (FSCs) are promising energy storage solutions for powering
miniaturized or wearable electronics. However, the scalable fabrication of fiber electrodes …

Abstract Conducting polymers, particularly poly (3, 4-ethylenedioxythiophene): poly
(styrenesulfonate)(PEDOT: PSS), have been intensively studied for thermoelectric (TE) …