Implantable brain machine interfaces (BMIs) are now on a trajectory to go mainstream,
wherein what was once considered last resort will progressively become elective at earlier …

Designing bioelectronic devices that seamlessly integrate with the human body is a
technological pursuit of great importance. Bioelectronic medical devices that reliably and …

Seizure prediction has attracted growing attention as one of the most challenging predictive
data analysis efforts to improve the life of patients with drug-resistant epilepsy and tonic …

Highlights Polyimide-based flexible microneedle array (PI-MNA) electrodes realize high
electrical/mechanical performance and are compatible with wearable wireless recording …

The electroencephalogram (EEG) is the most promising and efficient technique to study
epilepsy and record all the electrical activity going in our brain. Automated screening of …

The development of implantable neuroelectrodes is advancing rapidly as these tools are
becoming increasingly ubiquitous in clinical practice, especially for the treatment of …

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

Neurological diseases are a prevalent cause of global mortality and are of growing concern
when considering an ageing global population. Traditional treatments are accompanied by …

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 …

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