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

Because of the aging human population and increased numbers of surgical procedures
being performed, there is a growing number of biomedical devices being implanted each …

Implantable bioelectronic devices for the simulation of peripheral nerves could be used to
treat disorders that are resistant to traditional pharmacological therapies. However, for many …

Conductive hydrogels are widely used in various applications, such as artificial skin, flexible
and implantable bioelectronics, and tissue engineering. However, it is still a challenge to …

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

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

The development of brain–computer interface-controlled exoskeletons promises new
treatment strategies for neurorehabilitation after stroke or spinal cord injury. By converting …

The instability of neural recordings can render clinical brain–computer interfaces (BCIs)
uncontrollable. Here, we show that the alignment of low-dimensional neural manifolds (low …

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

Recent advances in nanotechnology have generated wide interest in applying
nanomaterials for neural prostheses. An ideal neural interface should create seamless …