|Posted: Jul 27, 2016|
Asymmetrical magnetic microbeads transform into micro-robots(Nanowerk News) Janus was a Roman god with two distinct faces. Thousands of years later, he inspired material scientists working on asymmetrical microscopic spheres - with both a magnetic and a non-magnetic half - called Janus particles. Instead of behaving like normal magnetic beads, with opposite poles attracting, Janus particle assemblies look as if poles of the same type attract each other.
|A new study reveals that the dynamics of such assemblies can be predicted by modelling the interaction of only two particles and simply taking into account their magnetic asymmetry. These findings were recently published in EPJ E ("Non-equilibrium dynamics of magnetically anisotropic particles under oscillating fields") by Gabi Steinbach from the Chemnitz University of Technology, Germany, and colleagues at the Helmholtz-Zentrum Dresden-Rossendorf.|
|The observed effects were exploited in a lab-on-a-chip application in which microscopic systems perform tasks in response to a changing external magnetic field.|
|Initially, the authors experimentally investigated large assemblies of these microbeads with an optical microscope. They then performed numerical simulations based on a simple model featuring off-centred magnetic dipoles, and performed a detailed comparison of both experimental and simulation approaches. Under an oscillating field, the particles continuously revert back to standard magnetic behaviour where the North magnetic poles of particles point towards other particles' South poles; and this behaviour has been confirmed for as few as two particles.|
|The authors concluded that the interactions between the off-centred dipoles with the changing external magnetic field transform larger particle clusters into different configurations. For example, they found that staggered bead chains continuously expand to spontaneously form linear chains. This could be harnessed, for instance, to create a zipper-style micro-muscle on a chip; here a staggered chain repeatedly expands and contracts depending on the intensity of the applied field.|
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