The robots incorporated with paper electrodes and liquid crystal elastomer bilayer achieve asymmetric bending SEOUL, South Korea, Aug. 21, 2025 /PRNewswire/ -- Biological systems have inspired the ...

The robots utilize paper-based electrodes and liquid crystal elastomers for asymmetric bending and crawling motions. Biological systems have inspired the development of next-generation soft robotic ...

(A) Robot’s body featuring anterior and posterior segments and 2 proximity sensors mounted on its head. (B) Demonstration of different deformation modalities and schematic of inflated chambers. (C) ...

New origami-based electrohydraulic actuators enhance soft robots' agility, enabling rapid, untethered movement across complex ...

It looks like footage taken from a deep-sea submersible. A small creature fills and deflates sacs to crawl across the ground, not a bone present in its translucent body. It’s not organic; in fact, ...

A kirigami-skinned soft robot powered by pneumatic muscles achieves crawling, steering and obstacle avoidance, advancing mobility for confined and rough terrain. (Nanowerk News) Limbless animals move ...

From soft robots crawling through crops to bio-based fertilizers that protect waterways, the future of farming lies at the intersection of scientific disciplines, according to a new study describing ...

Soft robots that power themselves from their surroundings are moving from lab curiosity to strategic technology, promising machines that can swim the deepest oceans, survive the vacuum of space, and ...