Implantable neural interfaces advance the possibilities for neuroscientists to study the brain.
They are also promising for use in a multitude of bioelectronic therapies. Electrode …

Materials able to regenerate after damage have been the object of investigation since the
ancient times. For instance, self‐healing concretes, able to resist earthquakes, aging …

Electronically interfacing with the nervous system for the purposes of health diagnostics and
therapy, sports performance monitoring, or device control has been a subject of intense …

The nervous system poses a grand challenge for integration with modern electronics and
the subsequent advances in neurobiology, neuroprosthetics, and therapy which would …

Dendrite growth and parasitic reactions of a Zn metal anode in aqueous media hinder the
development of up-and-coming Zn-ion batteries. Optimizing the crystal growth after Zn …

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 …

The key to designing an implantable device lies in condensing the synergistic effects of
diagnostic and therapeutic methods in a single tool. In conjunction with the integration of …

The electroencephalogram (EEG) is considered to be a promising method for studying brain
disorders. Because of its non-invasive nature, subjects take a lower risk compared to some …

Next‐generation neural interfaces for bidirectional communication with the central nervous
system aim to achieve the intimate integration with the neural tissue with minimal …

Poly (3, 4-ethylentedioxythiophene): poly (styrenesulfonate)(PEDOT: PSS) is one of the most
studied materials for organic bioelectronics, supercapacitors and organic photovoltaics. Its …