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

The Conducting of polymers belongs to the class of polymers exhibiting excellence in
electrical performances because of their intrinsic delocalized π-electrons and their tunability …

Additive manufacturing (AM) techniques represent a real challenge to manufacture novel
composites with coupled multifunctional properties. This work focuses on the mechanical …

Due to their high water content and macroscopic connectivity, hydrogels made from the
conducting polymer PEDOT: PSS are a promising platform from which to fabricate a wide …

Highly conductive and stretchable nanocomposites are promising material candidates for
skin electronics. However, the resistance of stretchable metallic nanocomposites highly …

It remains a challenge for flexible supercapacitors to maintain high electrochemical
performance under high compressive stress and subzero temperature conditions …

This study presents a novel, green, and efficient way of preparing crosslinked aerogels from
cellulose nanofibers (CNFs) and alginate using non‐covalent chemistry. This new process …

Conductive polymer hydrogels (CPHs) hold significant promise in broad applications, such
as bioelectronics and energy devices. Hitherto, the development of a facile and scalable …

Abstract Poly (3, 4‐ethylene dioxythiophene)(PEDOT) is an electrically conductive polymer
that shows various promising applications in flexible electronics. However, previous studies …

Abstract The conducting polymer poly (3, 4‐ethylenedioxythiophene): poly
(styrenesulfonate)(PEDOT: PSS) offers superior advantages in electronics due to its …