The use of implants that can electrically stimulate or record electrophysiological or
neurochemical activity in nervous tissue is rapidly expanding. Despite remarkable results in …

Nanocellulose materials have undergone rapid development in recent years as promising
biomedical materials because of their excellent physical and biological properties, in …

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

Objective. The mechanisms underlying intracortical microelectrode encapsulation and
failure are not well understood. A leading hypothesis implicates the role of the mechanical …

This review intends to present a comprehensive analysis of the mechanical considerations
for chronically-implanted neural probes. Failure of neural electrical recordings or stimulation …

The acquisition of high-fidelity, long-term neural recordings in vivo is critically important to
advance neuroscience and brain–machine interfaces. For decades, rigid materials such as …

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

New biomimetic, stimuli-responsive mechanically adaptive nanocomposites, which change
their mechanical properties upon exposure to water and display a water-activated shape …

Cognitive functions are increasingly understood to involve coordinated activity patterns
between multiple brain regions, and their disruption by neuropsychiatric disorders is …

Brain‒machine interface (BMI) is a promising technology that looks set to contribute to the
development of artificial limbs and new input devices by integrating various recent …