Micro, modular, mobile – DNA-linked microrobots offer new possibilities in medicine and manufacturing

Date posted
Funding Agency
(Funded by the U.S. National Science Foundation)

Researchers from Carnegie Mellon University have found a way to control the size and structure of active colloids while yielding more than 100 times the amount created by earlier fabrication methods. The team's active colloids are linked together using DNA nanostructures – an innovation that makes them flexible, agile, and responsive to signals in their environment. Typically, DNA nanotechnology can only be studied using expensive equipment. In this case, because the DNA is attached to the colloid particles, researchers can observe any nanoscale phenomenon – such as the DNA structures changing shape – in real time by observing changes in the colloid's movement under a microscope.