A conceptual advance that gives microrobots legs
An exciting article appeared in Nature, 530-531 (2020); doi: 10.1038 / d41586-020-02421-2
Tiny devices have been developed that can act as the legs of laser-controlled microrobots. The compatibility of these devices with microelectronic systems suggests a route to mass production of autonomous microrobots.
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In 1959, Nobel laureate and nanotechnology visionary Richard Feynman suggested that it would be interesting to "swallow the surgeon" - that is, build a tiny robot that could move through blood vessels to perform surgery if necessary. This iconic vision of the future underscored the modern hopes in the field of micrometer robotics: to deploy autonomous devices in environments that their macroscopic counterparts cannot reach. However, building such robots presents several challenges, including the obvious difficulty of assembling a microscopic locomotive. In an article in Nature, Miskin et al. via electrochemically powered devices that propel laser-controlled microrobots through a liquid and that can be easily integrated with microelectronic components to create fully autonomous microrobots.