The nervous system is a crucial component of the body and damages to this system, either
by of injury or disease, can result in serious or potentially lethal consequences. Restoring …

Bioelectronics have made strides in improving clinical diagnostics and precision medicine.
The potential of bioelectronics for bidirectional interfacing with biology through continuous …

The electronics surrounding us in our daily lives rely almost exclusively on electrons as the
dominant charge carrier. In stark contrast, biological systems rarely use electrons but rather …

Recent advances in nanotechnology have generated wide interest in applying
nanomaterials for neural prostheses. An ideal neural interface should create seamless …

To ensure long-term consistent neural recordings, next-generation intracortical
microelectrodes are being developed with an increased emphasis on reducing the neuro …

The development of continuous conducting polymer fibres is essential for applications
ranging from advanced fibrous devices to frontier fabric electronics. The use of continuous …

This study presents a novel approach to improve the performance of microelectrode arrays
(MEAs) used for electrophysiological studies of neuronal networks. The integration of 3D …

Fabrication of flexible and free‐standing graphene‐fiber‐(GF‐) based microelectrode arrays
with a thin platinum coating, acting as a current collector, results in a structure with low …

This review focuses on one of the most exciting applications area of conjugated conducting
polymers, which is tissue engineering. Strategies used for the biocompatibility improvement …

Conducting polymers (CPs) have frequently been described as outstanding coating
materials for neural microelectrodes, providing significantly reduced impedance or higher …