neuromorphic materials

Caption:MIT physicists have found a new way to switch superconductivity on and off in magic-angle graphene. This figure shows a device with two graphene layers in the middle (in dark gray and in inset). The graphene layers are sandwiched in between boron nitride layers (in blue and purple). The angle and alignment of each layer enables the researchers to turn superconductivity on and off in graphene with a short electric pulse. Credits:Credit: Courtesy of the researchers. Edited by MIT News.

The ability to switch superconductivity on and off is a big step towards neuromorphic computing

Caption:MIT physicists have found a new way to switch superconductivity on and off in magic-angle

The first neurotransistor: Silicon wafer + polymer = chip capable of learning

Neurotransistors: from silicon chips to neuromorphic architecture. Foto: TU Dresden / E. Baek The first

A design strategy for the development of neuromorphic materials

Researchers discover unique material design for brain-like computations A design strategy for the development of