In a groundbreaking leap forward for technology, Cortical Labs has unveiled the CL1, the world’s first commercial biological computer powered by living human brain cells. This revolutionary ...

UMass Amherst engineers create low-voltage artificial neurons using bacterial nanowires, promising efficient bio-inspired ...

Australian researchers are turning to nature for the next computing revolution, harnessing living cells and biological systems as potential replacements for traditional silicon chips. A new paper from ...

Made out of a fluorescent protein, the qubit is just 3 nanometers in diameter, scientists report August 20 in Nature. By hitting the protein with laser light, tweaking it with microwaves and observing ...

Researchers at the National Science Foundation (NSF) are studying the potential to harness the computer skills of tiny groups of biological cells known as organoids. Brains, whether human or animal, ...

For decades, AI has run on silicon–a given that few have questioned or tried to challenge. However, one startup believes the future of computing might be grown in a dish and not manufactured in a lab.

A new study has uncovered the remarkable potential of biomolecular computing that could provide innovative solutions in next ...

Biological computing startup Cortical Labs has launched CL1, what it is calling the world’s first commercial biological computer. The technology combines “lab-cultivated neurons from human stem cells” ...

When a molecule of tryptophan absorbs ultraviolet light, it glows faintly as it releases energy at a lower frequency. This effect, called fluorescence, is well known. But something extraordinary ...

The Department of Chemical and Biological Engineering (ChBE) is seeking tutors for CHEN 1310: Introduction to Engineering Computing for the remainder of the Fall 2025 semester. The tutors will work ...