Degradable pacemakers and artificial neurons showcase how flexible, tissue-compatible electronics are revolutionising medicine. But translating these materials from lab bench to clinic requires solvin ...

Researchers have synthesized electrically conductive polyaniline polymer in common organic solvents. A small quantity of added iodine facilitates the radical chain reaction that is critical to polymer ...

Materials for bioelectronics must often compromise between mechanical and electrical properties. In a talk at the ACS Fall 2022 meeting, Stanford University chemical engineer Zhenan Bao described her ...

Researchers have developed a stable high-conductivity polymer ink. The advance paves the way for innovative printed electronics with high energy efficiency. Researchers at Linköping University, Sweden ...

Recent advances in the field of materials science have opened new possibilities for the fabrication of bioelectronics, ...

(Nanowerk News) An international research team, including scientists from the TUD Dresden University of Technology, has developed a breakthrough two-dimensional conducting polymer - a special, ordered ...

A microscopic image of the newly developed fibers showing their side-by-side mix where one side is cotton and the other contains the polyanaline polymer that can carry an electric current. PULLMAN, ...

Polymers are composed of very large molecules formed by a combination of different monomers (smaller and simpler molecules), which can be natural or synthetic. Polymers are the basis of many ...

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 ...

Tsukuba, Japan—Medical devices, cars, and many advanced technologies contain innumerable delicate components that are held together by electrically conductive polymers, such as polyaniline. For ...