Although we often regard our own bodies and those of the other multicellular organisms around us as a singular entity, each cell that makes up our body is its own, nano-robot. One long-existing ...

MIT’s Daniela Rus is redefining robotics with empathy leading CSAIL and Liquid AI recent $250m series A to build technology ...

Researchers tested an LLM-powered robot's ability to fetch butter. The result? Today’s models still struggle at basic ...

In Michael Levin’s lab, multicellular robots called Anthrobots are formed of human tracheal skin cells, with hairlike projections on their surfaces (shown in yellow) that propel them. The tiny ...

Gaining access to the inner workings of a neuron in the living brain offers a wealth of useful information: its patterns of electrical activity, its shape, even a profile of which genes are turned on ...

Korean scientists have developed magnetically controlled micro-robots as a platform for the culture and delivery of targeted stem cell therapy, which were shown to function successfully in a ...

Human brains, much like computers, run on electrical signals that are fired from our neurons. Every single movement, thought, and aspect of the human body is run by electrical signals firing from the ...

Researchers from Tel Aviv University, Israel, have created a micro-robot the size of a single biological cell that navigates using both electricity and magnetic fields and can identify and capture a ...

1X NEO is available in tan, gray and dark brown. It's now available for pre-order from the company's website with a deposit ...

Grid cells are a class of specialized neurons in a brain region called the entorhinal cortex, which is known to support ...

Tiny robots that can transport individual neurons and connect them to form active neural circuits could help us study brain disorders such as Alzheimer’s disease. The robots, which were developed by ...