Locomotive magnetic soft robots are categorized based on their structural characteristics into one-dimensional (1D), two-dimensional (2D), three-dimensional (3D), and fluidic types. Recently, Dr.

A new study found that rice reacts differently depending on how quickly pressure is applied — a discovery that could ...

Soft actuation technology underpins high compliance, integration, and multifunctionality in soft robots, and has received growing attention in recent years. Among various soft actuators, twisted ...

Soft robotics is poised to revolutionize industries with its flexibility and adaptability. This Collection will highlight original research on the design, fabrication, and application of soft robotic ...

Researchers introduces the first toroidal, light-driven micro-robot that can move autonomously in viscous liquids, such as mucus. This innovation marks a major step forward in developing micro-robots ...

Wisson Robotics has showcased its Pliabot-based robotics technology, which is designed to offer upgraded functionality compared to traditional rigid-body robots. Unlike rigid robotics that relies on ...

From a technology standpoint, the innovation addresses a key limitation in soft robotics and smart materials: achieving ...

Researchers have invented a new super agile robot that can cleverly change shape thanks to amorphous characteristics akin to the popular Marvel anti-hero Venom. Subscribe to our newsletter for the ...

It bends, stretches, and slithers, just like a creature straight out of a Marvel movie. Researchers have developed a super agile robot that can shapeshift using a special electro-morphing gel, ...

If someone asked you to move like a robot and you responded with the fluid art of ballet, your audience would be baffled, yet technically, you would be right. Robots are famous for their ...