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 …

Conductive polymers (CPs) are gaining considerable attention as materials for implantable
bioelectronics due to their unique features such as electronic-ionic hybrid conductivity …

Electronic devices that interface with living tissue have become a necessity in clinics to
improve diagnosis and treatments. Devices such as cardiac pacemakers and cochlear …

Bioelectrodes for neural recording and neurostimulation are an integral component of a
number of neuroprosthetic devices, including the commercially available cochlear implant …

Over the last few years, organic bioelectronics has experienced an exponential growth with
applications encompassing platforms for tissue engineering, drug delivery systems …

Metal electrode materials used in active implantable devices are often associated with poor
long-term stimulation and recording performance. Modification of these materials with …

Bioelectronics devices that directly interface with cells and tissue have applications in neural
and cardiac stimulation and recording, electroceuticals, and brain machine interfaces for …

Novel therapies and drug delivery systems (DDS) emphasis on localized, personalized,
triggered, and regulated drug administration have heavily implicated electrically responsive …

With advances in neural prostheses, the demand for high-resolution and site-specific
stimulation is driving microelectrode research to develop electrodes that are much smaller in …

Neural electrical interfaces that accurately detect signals from active neurons with minimal
signal loss or biological damage are critical to advancing our understanding of …