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Enhanced Detection of Nanostructures by Scanning Electron Microscopy Using Insulating Materials
Micron (2013)
  • Aaron O'Shea, University of Northern Iowa
  • Jeff Wallace, University of Northern Iowa
  • Matt Hummel, University of Northern Iowa
  • Laura H. Strauss, University of Northern Iowa
  • Tim Kidd, University of Northern Iowa
We report a simple method by which 1D conducting structures with sub-micron diameters can be detected in a scanning electron microscope at magnifications more than an order of magnitude less than would be expected for their size. This enhanced detection was possible under normal operating conditions using a standard secondary electron detector. The technique requires only that the 1D samples must be in good physical contact with an insulating material. Normally, the insulating materials become charged upon electron beam exposure, making them appear relatively bright when imaged by the electron microscope. However, the insulating material appears relatively dark in the vicinity surrounding the conducting 1D structures. This darkened halo can be over 50 times wider than the diameter of the 1D structure itself, making it easy to detect at relatively low magnifications. This dark halo is due to the dissipation of charge from the surface of the conducting material into the conducting nanostructure. Thus, this technique can enable the rapid detection of very small, conducting 1D particles at very low magnification levels, and is simple enough to enable a rapid assaying of samples for the existence of sub-micron 1D structures.
Publication Date
Citation Information
Aaron O'Shea, Jeff Wallace, Matt Hummel, Laura H. Strauss, et al.. "Enhanced Detection of Nanostructures by Scanning Electron Microscopy Using Insulating Materials" Micron Iss. 57 (2013) p. 52 - 23
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