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

Brain-machine interfaces (BMIs) combine methods, approaches, and concepts derived from
neurophysiology, computer science, and engineering in an effort to establish real-time …

Implantable biosensors are valuable scientific tools for basic neuroscience research and
clinical applications. Neurotechnologies provide direct readouts of neurological signal and …

Implantable neural microelectrodes that can record extracellular biopotentials from small,
targeted groups of neurons are critical for neuroscience research and emerging clinical …

Objective. Brain–computer interfaces (BCIs) using chronically implanted intracortical
microelectrode arrays (MEAs) have the potential to restore lost function to people with …

Implantable intracortical microelectrodes can record a neuron's rapidly changing action
potentials (spikes). In vivo neural activity recording methods often have either high temporal …

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

To ensure long-term consistent neural recordings, next-generation intracortical
microelectrodes are being developed with an increased emphasis on reducing the neuro …

To understand how function arises from the interactions between neurons, it is necessary to
use methods that allow the monitoring of brain activity at the single-neuron, single-spike …

This review focuses on the application of nanomaterials for neural interfacing. The junction
between nanotechnology and neural tissues can be particularly worthy of scientific attention …