Novel magnetic nanodiscs could provide a much less invasive way of stimulating parts of the brain, paving the way for stimulation therapies without implants or genetic modification, MIT researchers ...

Neuroengineers designed the first self-rectifying magnetoelectric material and showed it can not only precisely stimulate neurons remotely but also reconnect a broken sciatic nerve in a rat model.

A soft magnetoelectric sensor feels touch, detects its own damage, and heals itself underwater without external power, ...

Smartphones and computers wouldn't be nearly as useful without room for lots of apps, music and videos. Devices tend to store that information in two ways: through electric fields (think of a flash ...

Novel metamaterial Rice University doctoral alumnus Joshua Chen and colleagues designed a magnetoelectric material that can directly stimulate neural tissue and bridge gaps in broken nerves. (Courtesy ...

WASHINGTON, D.C., May 4, 2018 -- For years, manufacturers have offered computers with increasing amounts of memory packed into smaller devices. But semiconductor companies can't reduce the size of ...

Novel magnetic nanodiscs could provide a much less invasive way of stimulating parts of the brain, paving the way for stimulation therapies without implants or genetic modification, MIT researchers ...

Materials scientists from Tomsk Polytechnic University, as part of a scientific collaboration, have developed biocompatible ...

Researchers have long recognized the therapeutic potential of using magnetoelectrics ⎯ materials that can turn magnetic fields into electric fields ⎯ to stimulate neural tissue in a minimally invasive ...