Introduction to Biohybrid Living Robots Imagine a world where tiny, self-organizing agents can heal environmental damage, deliver targeted therapies in ...

A single microrobot cleans pollutants from wastewater then repurposes them to kill cancer cells, executing both tasks in ...

NUS researchers have developed a platform that lets lab-grown muscle tissues train themselves to record-breaking strength, ...

Biohybrid robots that run on real muscle are shifting from science fiction toward workable machines. In labs around the world, engineers have built tiny walkers, swimmers and gripping devices powered ...

Researchers at the National University of Singapore have developed a new way to make lab-grown muscles stronger by letting them train themselves, removing a major limitation in biohybrid robotics. The ...

Our muscles are nature’s actuators. The sinewy tissue is what generates the forces that make our bodies move. In recent years, engineers have used real muscle tissue to actuate “biohybrid robots” made ...

As far-fetched and futuristic as it might sound, researchers are working on turning jellyfish into ocean-exploring robots.

Today, artificial intelligence is a billion-dollar industry and seems to be the future of technology, science and engineering. However, according to Rashid Bashir, dean of The Grainger College of ...

Scientists in Japan have made a robot face covered in living, self-healing skin that can smile in a demonstration of a new technique researchers believe could help pave the way for lifelike biohybrid ...

During fermentation, yeast cells undergo division, which affects the yeast culture’s impedance. Concurrently, carbon dioxide is produced as a byproduct of fermentation, which the robot utilizes as a ...