Schematic of micro- and nanopropellers in hyaluronan gels. The polymeric mesh structure blocks the larger micropropellers (top left), but smaller propellers.
Israeli and German researchers have created a nanoscale screw-shaped propeller that can move in a gel-like fluid, mimicking the environment inside a living organism, as described in a paper published in the June 2014 issue of ACS Nano.
The filament that makes up the propeller, made of silica and nickel, is only 70 nanometers in diameter; the entire propeller is 400 nanometers long, small enough that their motion can be affected by Brownian motion of nearby molecules.
To test if the propellers could move through living organisms, they used hyaluronan, a material that occurs throughout the human body, including the synovial fluids in joints and the vitreous humor in your eyeball.
The hyaluronan gel contains a mesh of long proteins called polymers; the polymers are large enough to prevent micron-sized (millionths of a meter) propellers from moving much at all. But the openings are large enough for nanometer-sized objects to pass through. The scientists were able to control the motion of the propellers using a relatively weak rotating magnetic field.
“One can now think about targeted applications, for instance, in the eye, where they may be moved to a precise location at the retina,” says Peer Fischer, a member of the research team and head of the Micro, Nano, and Molecular Systems Lab at the Max Planck Institute for Intelligent Systems.
Scientists could also attach “active molecules” to the tips of the propellers, or use the propellers to deliver tiny targeted doses of radiation.