Scientists at Linköping University have created a highly compact artificial neuron from conductive plastics that replicates ...
University of North Carolina at Chapel Hill scientists have created innovative soft robots equipped with electronic skins and artificial muscles, allowing them to sense their surroundings and adapt ...
Biological systems have inspired the development of next-generation soft robotic systems with diverse motions and functions. Such versatility in soft robots—in terms of rapid and efficient ...
The soft morphing creation – developed by the University of Bristol and Queen Mary University of London – is more adaptable than current soft robots. Shown in a study published in the journal Advanced ...
Scientists have created innovative soft robots equipped with electronic skins and artificial muscles, allowing them to sense their surroundings and adapt their movements in real-time. University of ...
Researchers at Cornell University have been working on batteries that can 'flow' through the internal structures of robots, kind of like how blood in humans' veins powers our bodies. The team has been ...
A magnetic marker is installed with the metal clip at the suspected lesion during the endoscopic examination. Before operation, a capsule containing the soft robots with Cy5 is taken. The soft robots ...
Robots that move, lift, and sense objects without electronics are now possible. They work using materials that snap and bend in predictable ways.
Researchers have invented a new super agile robot that can cleverly change shape thanks to amorphous characteristics akin to ...