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If a soft-bodied robot uses rigid actuators to move its body, then it isn't really soft now, is it? An experimental new caterpillar-inspired bot gets around that conundrum by using soft ...
Hydrogel-based devices—such as hydrogel pores—are widely used in miniaturized applications ranging from drug delivery to flexible electronics and robotics. Yet conventional designs with simple ...
Researchers have unveiled a novel hybrid-driven origami gripper, designed to tackle the challenge of grasping and manipulating objects with unprecedented versatility and precision.
Researchers have created a minuscule origami robot that unfolds itself from a swallowed capsule and, steered by external magnetic fields, moves across the stomach wall to remove swallowed objects ...
With the aid of a magnetic field, the origami robot can crawl around in your stomach for science.
In theory, their design — which was largely inspired by the paper-folding art of origami — offers a more efficient way to send assembly structures into space, where the robot could then ...
According to their developers, the smartlet microrobots are powered by integrated photovoltaic cells, controlled by tiny ...
The ancient Japanese art of paper-folding, or origami, is already inspiring the design of the next generation of space ...
Using 'DNA origami' scientists at the University of Sydney Nano Institute have built innovative nanostructures that pave the way for advanced robotics that can deliver targeted drugs ...
Marking a significant advancement in molecular robotics, researchers have created custom-designed and programmable nanostructures using DNA origami. The University of Sydney Nano Institute team ...
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