Conductive hydrogel-based soft bioelectronics exhibit high water content, tissue-like modulus and ionic conductivity

https://www.eurekalert.org/news-releases/1068296

"tunable mechanical/ electrical properties... enables biosignal monitoring/ electrical stimulation... conductive fillers: carbon nanomaterials, conducting polymers, metal-based nanomaterials... low impedance/ high charge injection capacity enable real-time monitoring/ therapeutics... biocompatibility/ biodegradability ensure minimal immune response/ environmental impact... integrate with flexible circuits/ microfluidic systems... wearable sensors, neural interfaces, drug delivery, artificial muscles"