This paper describes the development of a high-density electronic interface to the central
nervous system. Silicon micromachined electrode arrays now permit the long-term …

Implanted biomedical devices are playing an increasingly important role in the treatment of
central nervous system disorders. While devices such as deep brain stimulation electrodes …

The reliability of chronic, brain‐penetrating electrodes must be improved for these‐neural
recording technologies to be viable in widespread clinical applications. One approach to …

With the rapid advancements in materials science, engineering, and microelectronics
technology, intelligent dynamic prostheses, guided by motion intention, are progressively …

We present a system for scalable and customizable recording and stimulation of neural
activity. In large animals and humans, the current benchmark for high spatial and temporal …

The widespread application of neuronal probes for chronic recording of brain activity and
functional stimulation has been slow to develop partially due to long-term biocompatibility …

The objective of this study was to test the hypothesis that neural implants with reduced cross-
sectional areas will have less glial scarring associated with implantation injury in long-term …

Abstract We introduce Ultra-Flexible Tentacle Electrodes (UFTEs), packing many
independent fibers with the smallest possible footprint without limitation in recording depth …

Conventional recording methods generally preclude following the activity of the same
neurons in awake animals across days. This limits our ability to systematically investigate …

A brush of 64 microwires was chronically implanted in the ventral premotor cortex of a
macaque monkey. Contrary to common approaches, the wires were inserted from the white …