This review is dedicated to electronics materials enabling thin‐film‐based neural interface
and bioelectronics devices. First‐generation bioelectronic medicine devices feature hand …

Electrical microstimulation has enabled partial restoration of vision, hearing, movement,
somatosensation, as well as improving organ functions by electrically modulating neural …

Conductive polymer hydrogels have greatly improved the compatibility of electronic devices
with biological tissues for human–machine interfacing. Hydrogels that possess low Young's …

Miniaturization and minimization of mechanical mismatch in neural probes have been two
well‐proven directions in suppressing immune response and improving spatial resolution for …

The work presented here introduces a facile strategy for the development of flexible and
stretchable electrodes that harness the robust characteristics of carbon nanomaterials …

Innovation in the application and miniaturization of implantable electrodes has caused a
spike in new electrode material research; however, few robust studies are available that …

The demand for electrically insulated microwires and microfibers in biomedical applications
is rapidly increasing. Polymer protective coatings with high electrical resistivity, good …

Objective. With prolonged life expectancy, the incidence of memory deficits, especially in
Alzheimer's disease (AD), has increased. Although multiple treatments have been …

Electrophysiological mapping (EM) using acute electrode probes is a common procedure
performed during functional neurosurgery. Due to their constructive specificities, the EM …

The main objective of the present study is to use graphene as electrode neural interface
material to design novel microelectrodes topology for retinal prosthesis and investigate …