Nanotechnology tunes – listening to the music of molecules

Detecting the presence of a given substance at the molecular level, down to a single molecule, remains a considerable challenge for many nanotechnology sensor applications that range from nanobiotechnology research to environmental monitoring and antiterror or military applications. Currently, chemical functionalization techniques are used to specify what a nanoscale detector will sense. For biological molecules, this might mean developing an antibody/antigen pair, or an alternative synthetically generated ligand. For chemical gases, it is much more challenging to develop the right ‘glue’ that sticks a given gas to a substrate. The advantage of spectroscopic techniques such as Raman, infrared, and nuclear magnetic resonance spectroscopy is that they are label-free, i.e. they require no preconditioning in order to identify a given analyte. They are also highly selective, capable of distinguishing species that are chemically or functionally very similar. On the downside, spectroscopic methods face enormous challenges in measuring dilute concentrations of an analyte and generally involve the use of large, expensive equipment. This article describes a novel chemical detection technique called nanomechanical resonance spectroscopy.

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~ by vascoteixeira on August 27, 2008.

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