Ultrasound-driven artificial muscles with microbubbles present new opportunities for medical and technical applications, ...

They would act not as instruments of war, but as intermediaries for peace — enforcing accountability through presence, not ...

Researchers at ETH Zurich have developed artificial muscles that contain microbubbles and can be controlled with ultrasound.

From cells that migrate to tissues that heal, nature abounds with systems capable of sensing and adapting to their ...

A programmable metamaterial finger can lock into four positions without electronics. A simpler, more functional future for ...

Researchers at ETH Zurich have developed artificial muscles that contain microbubbles and can be controlled with ultrasound.

Last year, a South Korean team, inspired by octopus adaptations, developed a metamaterial-based soft machine capable of ...

Sixteen-year-old Jared Lepora created a robotic hand from Lego pieces with near-human precision. A 16-year-old student from ...

An international team led by researchers at the University of Waterloo has developed material that can be flexible ...

A soft robotic system uses liquid crystal elastomers to merge shape shifting, gripping, and color change, demonstrating fully ...

The flexible material acts as an “artificial muscle,” enabling robots to move more naturally and safely than traditional ...