For the first time, an electrical communication has just been established between a living nerve cell and its artificial equivalent. In the laboratories of the University of Massachusetts, engineers ...

Graphics processing units (GPUs), the expensive computer chips made by companies like Nvidia, AMD, and Sima.ai, are no longer the only way to train and deploy artificial intelligence. Biological Black ...

A new study reveals how biological branching networks use surface geometry to shape blood vessels, brains, and plants.

Artificially engineered biological processes, such as perception systems, remain an elusive target for organic electronics. A complete perception system built by designing other organic materials and ...

Most people wouldn’t give Geobacter sulfurreducens a second look. The bacteria was first discovered in a ditch in rural Oklahoma. But the lowly microbe has a superpower. It grows protein nanotubes ...

A paper by researchers in the Department of Mathematics that could impact the way neuron-to-neuron communications are mapped was recently published in the Nature journal Communications Physics. The ...

The translucent chip attached to the mouse’s leg looked nothing like a neuron. Dotted with a series of sensors and channels and smaller than a human finger, it looked—and flexed—like a Band-Aid. Yet ...

A new collaboration has unlocked new potential for the field by creating a novel high-performance organic electrochemical neuron that responds within the frequency range of human neurons. Artificially ...