Researchers have developed nanowires that can record the electrical activity of neurons in fine detail. The technology will allow for better investigation as to how the brain works.
A Johns Hopkins team says its bioengineers have designed nanoparticles that can safely and predictably infiltrate deep into the brain when tested in rodent and human tissue.
Researchers have developed a method of fabricating nanoscale electronic scaffolds that can be injected. The scaffolds can be used to monitor neural activity or promote neurogenesis.
Raman spectroscopy techniques allows researchers to take a closer look at the elusive amyloid beta.
Silver and zinc oxide nanomaterials are able to pass through an in vitro blood-brain barrier model in the form of both particles and dissolved ions.
Novel sensors made from modified carbon nanotubes can visualize the release of dopamine from neurons with unprecedented resolution.
Researchers have created a living 3-D model of a brain tumor and its surrounding blood vessels. In experiments, the scientists...
Using a system dubbed μRobotex system, researchers have created a microhouse so small a mite can not fit through the front door. Researchers say the creation pushes forward the frontiers of optical nanotechnologies.
Researchers observe the action and plot the movement of neurons with the help of a new technique.
Researchers have developed a Dp44mT nano-carrier that can directly target glioblastoma and other brain cancer cells.
