Newstelescope : Nanotechnology Just another Newstelescope.com weblog

The key to using self-assembly as a controlled and directed nanofabrication process lies in designing the components that are required to self-assemble into desired patterns and functions. Self-assembly reflects information coded in individual components - characteristics such as shape, surface properties, charge, polarizability, magnetic dipole, mass, etc. These characteristics determine the interactions among the components and the whole essence of self-assembly arises from these dynamic properties. In this respect, many self-assembled nanostructures show to be responsive to external stimuli such as temperature, pH, or solvent polarity. An exciting field for nanotechnology researchers is the challenge of extending the scope of nanostructures with stimulus-responsive properties towards the fabrication of ’smart’ nanoscale materials. New work by Korean scientists demonstrates that simple addition of small guest molecules triggers reversible structural transformation. The novelty of this research is that, so far, switching of material properties triggered by external stimuli via nanoscale objects had not been realized yet.

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