Electroactive polymers (EAPs) respond to electrical stimulation with large deformations. They are dynamic actuators which have attracted attention from an interdisciplinary audience of engineers and ...

Biodegradable structures developed by Professor Samuel Stupp could revolutionize energy, information technologies, and advanced medicine.

Lab scientists spend much of their time doing laborious and repetitive tasks, be it pipetting liquid samples or running the ...

Scientists from TPU Research School of Chemistry and Applied Biomedical Sciences in collaboration with Russian and ...

Developed by researchers from Northwestern University, the highly energy efficient, biocompatible material could give rise to ...

“CRPs are less likely to dissolve in a battery’s electrolyte than most electroactive polymers,” explains Sjödin. Traditional electroactive polymers also require conductive ...

Scientists from the South China University of Technology have built an aqueous redox flow battery with a positive electrolyte made of the electroactive organic molecule called TEMPO, which they ...

Highly energy efficient, biocompatible and made from sustainable materials, the systems could give rise to new types of ...

Using peptides and polymer chains, scientists have developed a new type of flexible nano-ribbon material that can switch ...

They not only promote the growth of a thick biofilm of electroactive bacteria but also accelerate the oxygen reduction reaction—one of the critical processes in MFCs. This biofilm is key.