Attached to nearly every human cell is an antenna-like structure known as the primary cilium, which senses the cell's environment and controls how it responds to signals from its surroundings.

Attached to nearly every human cell is an antenna-like structure known as the primary cilium, which senses the cell's environment and controls how it responds to signals from its surroundings. New ...

Attached to nearly every human cell is an antenna-like structure known as the primary cilium, which senses the cell's environment and controls how it ...

Carnegie Mellon scientists create AggreBots, tiny lung-cell robots powered by cilia with controlled motility.Word excerpt: Researchers at Carnegie M ...

Cilia and flagella are microtubule-based organelles that extend from the surface of eukaryotic cells and play pivotal roles in both motility and sensory ...

A brand-new engineering approach to generate "designer" biological robots using human lung cells is underway in Carnegie Mellon University's Ren lab. Referred to as AggreBots, these microscale living ...

Microscale biological robots made from human lung cells are advancing in Carnegie Mellon’s Ren lab, with new research showing control over their movement via engineered structural design.

Researchers at Carnegie Mellon University have created a bio-hybrid robot by using human lung cells. The biological robots known as AggreBots, acts as living machines that can be helpful ...

Imagine tiny, living robots swimming through your body to deliver medicine right where it’s needed. Scientists at Carnegie Mellon University are moving closer to making that vision a reality. Their ...

Symmetry-protected topological orders are often in competition with electronic correlations that tend to induce orders with broken symmetry. Now, a quantum material is shown to exhibit ...