Since the late'80s, a highly stable conductive polymer has been developed, that is poly (3, 4-
ethylene dioxythiophene), also known as PEDOT. Its increasing conductivity throughout the …

Transparent electrodes (TEs) are pivotal components in many modern devices such as solar
cells, light‐emitting diodes, touch screens, wearable electronic devices, smart windows, and …

With the rapid development of bioscience and technology, wearable electronic devices are
developing toward advanced trends such as flexibility, convenience, multifunctionality, and …

Flexible transparent electrodes (FTEs) with embedded metal meshes play an indispensable
role in many optoelectronic devices due to their excellent mechanical stability and …

Although flexible and multifunctional textile-based electronics are promising for wearable
devices, it is still a challenge to seamlessly integrate excellent conductivity into textiles …

High-performance and rapid response electrical heaters with ultraflexibility, superior heat
resistance, and mechanical properties are highly desirable for the development of wearable …

Intrinsically conducting polymers (ICPs), such as polyacetylene, polyaniline, polypyrrole,
polythiophene, and poly (3, 4‐ethylenedioxythiophene)(PEDOT), can have important …

Conducting polymers (CPs), thanks to their unique properties, structures made on-demand,
new composite mixtures, and possibility of deposit on a surface by chemical, physical, or …

Transparent heaters (TH) have attracted intense attention from both scientific and industrial
sectors due to the key role they play in many technologies, including smart windows …

The primary developing trends in flexible and stretchable electronics involve the innovation
of material synthesis, mechanical design, and fabrication strategies that employ soft …