Living robots have nervous systems, letting them control movement & change behavior, pointing to a future where biology ...

Researchers at the Wyss Institute at Harvard University and Tufts University have engineered tiny living constructs from frog embryo cells that spontaneously develop functional nervous systems, a ...

From power sources to fixturing tolerances, every component in a welding cell determines whether your automation investment ...

Scientists have created tiny living robots endowed with functional nervous systems, marking a major ...

Engineers attempting to build microscopic robots face a strict physical trade-off: as mechanical devices shrink, their ...

Learn how to safeguard robots and robot cells with insights on risk assessments, safety standards, and practical solutions to protect personnel in automated environments. April 30, 2025 Unlock ...

Tiny gold nanorobots in a gel matrix help stem cells “work out” into bone cells. This could be a new method for growing custom tissues on demand. Prof. Berna Özkale Edelmann, together with researchers ...

Tom has a master’s degree in biochemistry from the University of Oxford and his interests range from immunology and microscopy to the philosophy of science.View full profile Tom has a master’s degree ...

Scientists create living robots with nervous systems, revealing how neurons grow, connect and shape movement in a new biological model.

An automated cell culture system reduces hands-on time and improves seeding consistency in 96-well microplates. The research is published in the journal PNAS Nexus. Machine-learning models can speed ...

ABB Robotics will showcase collaborative cells for arc welding and machine tending, as well as Flexloader FP800, a compact ...