bioelectrodes

Researchers from Gwangju Institute of Science and Technology (GIST), Korea have developed graphene-based conductive hydrogels as bioelectrode materials for overcoming the challenges associated with traditional, metal-based bioelectrodes. These conductive hydrogels are injectable, skin-compatible, easy to use, and demonstrate excellent signal transmission. Moreover, their controllable degradability can allow the development of high performing, convenient bioelectrodes with advanced applicability.
Injectable bioelectrodes with tunable lifetimes for neuromuscular diseases and neurological disorders
Researchers from Gwangju Institute of Science and Technology (GIST), Korea have developed graphene-based conductive hydrogels
Bioelectrodes feeding on waste can generate electricity up to industrial levels

New research at Michigan State University and published in the current issue of Nature Communications