"As global industries embrace 5G, IoT, EVs, and flexible electronics, conductive polymers emerge as a game-changing material ...

Conductive polymers and nanocomposites represent a dynamic intersection of polymer chemistry, nanotechnology and materials science, leading to innovative applications in electronics, sensing devices, ...

Tsukuba, Japan—Polyaniline, a conductive polymer typically synthesized in water and appears dark green, exhibits different properties based on its synthesis and processing conditions. The researcher ...

Transfer printing with plasticizers enhances PEDOT:PSS, boosting both conductivity and stretchability through substrate-driven diffusion. (Nanowerk News) When aiming for stretchable, health-monitoring ...

(Nanowerk Spotlight) Artificial muscles hold the promise of revolutionizing fields ranging from robotics and prosthetics to biomedical devices. These lightweight, flexible materials can mimic the ...

From touch-sensitive smartphone screens to fitness wearables and wireless earbuds, electronics are becoming ever more integrated into our daily lives—and smaller, lighter, and more flexible in the ...

Gao Liu guided the development of the material. The HOS-PFM coating conducts electrons and ions concurrently. This improves battery life by ensuring battery stability and high charge/discharge rates.

Superior cost-to-performance ratio, resilience, and versatility are the core reasons behind the success of polymers in every major field. However, their inherent properties need to be modified as per ...

A project at Sweden's Linköping University and Lund University has developed a process for printing conductive polymers with visible light. This could lead to improved techniques for recording the ...

Most materials have an inherent capacity to handle heat. Plastic, for instance, is typically a poor thermal conductor, whereas materials like marble move heat more efficiently. If you were to place ...