Recent progress in electronic skin or e‐skin research is broadly reviewed, focusing on
technologies needed in three main applications: skin‐attachable electronics, robotics, and …

Implantable neuroprostheses are engineered systems designed to restore or substitute
function for individuals with neurological deficits or disabilities. These systems involve at …

Advancements in neurotechnologies for electrophysiology, neurochemical sensing,
neuromodulation, and optogenetics are revolutionizing scientific understanding of the brain …

Chronically implanted neural multi-electrode arrays (MEA) are an essential technology for
recording electrical signals from neurons and/or modulating neural activity through …

Stable interconnection to neurons in vivo over long time-periods is critical for the success of
future advanced neuroelectronic applications. The inevitable foreign body reaction towards …

The inflammatory brain tissue response to implanted neural electrode devices has hindered
the longevity of these implants. Zwitterionic polymers have a potent anti-fouling effect that …

The brain-electrode interface is arguably one of the most important areas of study in
neuroscience today. A stronger foundation in this topic will allow us to probe the architecture …

Neurological and psychiatric conditions pose an increasing socioeconomic burden on our
aging society. Our ability to understand and treat these conditions relies on the development …

Brain computer interfaces (BCIs), including penetrating microelectrode arrays, enable both
recording and stimulation of neural cells. However, device implantation inevitably causes …

Objective. Implantable neural electrode devices are important tools for neuroscience
research and have an increasing range of clinical applications. However, the intricacies of …