Computer programming powers modern society and enabled the AI revolution, but little is known about how our brains learn this ...

A team at University of Massachusetts Amherst developed artificial neurons that fire in the same voltage range as living cells. Silicon and biology can now speak the same electrical language.

Brain cell signals travel along axons, the thin wire-like extensions of neurons, moving signals along the membrane in a pearl ...

The Braingeneers team will to test the ability of brain organoids to solve tasks in real time Artificial intelligence (AI) ...

UMass Amherst engineers have built an artificial neuron powered by bacterial protein nanowires that functions like a real one ...

Germany will present the world’s first code-deployable biological computer, no larger than a shoebox, at a first-class networking summit dedicated to the future of biointelligent value creation. The ...

In the lab, Johns Hopkins University neuroscientist Minhyeok Chang and colleagues identified tiny tubular bridges in the ...

Johns Hopkins scientists found that neurons form tiny nanotube networks to transport toxins like amyloid-beta.

Researchers discovered that autism’s prevalence may be linked to human brain evolution. Specific neurons in the outer brain evolved rapidly, and autism-linked genes changed under natural selection.

Since Madeline Lancaster first created brain organoids back in 2013, they have become widely used for brain research around the world. But what exactly are they? Are they effectively miniature brains ...

Neuroscientists from around the world have worked in parallel to map, for the first time, the entire brain activity of mice while they were making decisions. This achievement involved using electrodes ...

Obviously, our social interactions are far more dynamic and nuanced, but given that these brain cells are conserved across species, the researchers suggest a similar “loser effect” could be at play in ...