To understand the physiology and pathology of electrogenic cells and the corresponding
tissue in their full complexity, the quantitative investigation of the transmission of ions as well …

Neural electrodes are primary functional elements of neuroelectronic devices designed to
record neural activity based on electrochemical signals. These electrodes may also be …

One of the critical factors determining the performance of neural interfaces is the electrode
material used to establish electrical communication with the neural tissue, which needs to …

The brain is the most complex organ of our body. Such a complexity spans from the single-
cell morphology up to the intricate connections that hundreds of thousands of neurons …

Neural electrodes, as a bridge for bidirectional communication between the body and
external devices, are crucial means for detecting and controlling nerve activity. The …

The remarkable properties of graphene and related materials (GRMs) promise substantial
benefits for a wide range of technologies. Their industrial utilization, however, critically …

Biocompatible conductive tough hydrogels represent a new class of advanced materials
combining the properties of tough hydrogels and biocompatible conductors. Here, a simple …

Existing bionic implants use metal electrodes, which have low charge transfer capacity and
poor tissue integration. This limits their use in next‐generation, high resolution devices …

Graphene is expected to revolutionize several application areas ranging from portable
energy conversion and storage to miniaturized biosensors for medical applications. In this …

Graphene bioelectronics is a groundbreaking field which emerged roughly 8 years ago
offering important opportunities for developing new kinds of sensors capable of establishing …