In a tiny laboratory pond, a robotic stingray flaps its fins and swims around. Roughly the width of a dime, the bot dashes distances multiple times its body size. It easily navigates around corners ...

In medical technology, microrobots are the next big thing. With dimensions below that of a sand grain, these microbots are ...

A muscle from the slug's mouth helps the robot move, which is currently controlled by an external electrical field. Future iterations of the device will include ganglia – bundles of neurons and nerves ...

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 ...

Biohybrid robots powered by real muscle can move smoothly and self-repair, but weak connections between soft tissue and hard ...

In 2014, researchers at the University of Illinois created a microscopic swimming robot. This accomplishment alone might not have attracted much attention. But what set it apart was how they ...

According to a study, robots built with lab-grown skeletal muscle tissue could require physical exercises similar to those of humans. Called biohybrid robots, these innovations can achieve lifelike ...

(CN) — A fusion of biology and mechanics, a new biohybrid robot can make small turns thanks to silicone, muscle tissue and electricity. Conventional biohybrid robots walk while moving forward so they ...

Rachael has a degree in Zoology from the University of Southampton, and specializes in animal behavior, evolution, palaeontology, and the environment.View full profile Rachael has a degree in Zoology ...

Compared to robots, human bodies are flexible, capable of fine movements, and can convert energy efficiently into movement. Drawing inspiration from human gait, researchers from Japan crafted a ...

Breakthroughs, discoveries, and DIY tips sent every weekday. Terms of Service and Privacy Policy. As impressive as many biohybrid robotic projects are, they aren’t ...

Compared to robots, human bodies are flexible, capable of fine movements, and can convert energy efficiently into movement. Drawing inspiration from human gait, researchers from Japan crafted a ...