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 ...

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 ...

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 ...

Engineers attempting to build microscopic robots face a strict physical trade-off: as mechanical devices shrink, their capacity to carry onboard power and navigate complex terrain rapidly diminishes.

Biohybrid robotics investigates how living elements such as cellular actuators, biochemical signaling systems, or adaptive biological modules can be incorporated into robotic platforms to create ...

Researchers in Barcelona have demonstrated that chemical patterning can direct cell orientation within tissues which enables ...

NUS scientists have developed a self-training method that strengthens lab-grown muscle tissues around the clock, and used them to power a living-muscle robot that swims faster than any of its ...

A single microrobot cleans pollutants from wastewater then repurposes them to kill cancer cells, executing both tasks in sequence without retrieval or reprocessing between jobs. (Nanowerk Spotlight) ...