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The Smallest Walking Robot

Jan 27, 2026

Microscopic robots with features comparable with the wavelength of light offer new ways of probing the microscopic world and controlling light at the microscale. Here, a new class of magnetically controlled microscopic robots (microbots) are introduced that operate at the visible-light diffraction limit, which were termed diffractive robots. Nanometer-thick mechanical membranes, programmable nanomagnets, and diffractive optical elements were combined to create untethered microbots small enough to diffract visible light and flexible enough to undergo complex reconfigurations in millitesla-scale magnetic fields. Their applications were demonstrated, including subdiffractive imaging by using a variant of structured illumination microscopy, tunable diffractive optical elements for beam steering and focusing, and force sensing with piconewton sensitivity.

Authors

I. Cohen and P. McEuen (Cornell U.)

Additional Materials

U.S. National Science Foundation and NSF DMREF, Materials for Our Future

This material is based upon work supported by the U.S. National Science Foundation Award No. 2015237. Any opinions, findings, and conclusions or recommendations expressed in this material are those of the author(s) and do not necessarily reflect the views of the U.S. National Science Foundation. This site is maintained collaboratively by principal investigators with NSF DMREF awards, independent of the NSF.