Researchers have developed a novel form of propulsion for microrobots that mimics the way bacteria zip about using corkscrew-like appendages called flagella.
Tests show that the tiny rotating nanocoils--just 27 nanometers thick and 40 micrometers long--are capable of spinning at 60 revolutions per minute and that it is possible to propel an object at nearly 5 micrometers per second.
Such propulsion could be used as part of smart drug delivery systems, which are steered through the bloodstream directly to their target, says Bradley Nelson, a professor of robotics and intelligent systems at the Swiss Federal Institute of Technology, in Zurich, who led the research. And in the long term, the nanopropellers could be used to propel autonomous biomedical microrobots, he suggests.
