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Preparation of Samples for Electron Microscopy01:20

Preparation of Samples for Electron Microscopy

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To be visualized by an electron microscope, either transmission or scanning, biological samples need to be fixed (stabilized) so the electron beam does not destroy them and dried thoroughly (desiccated/dehydrated) so the vacuum does not affect them. Fixation needs to be done as quickly as possible because the sample properties will start changing as soon as it is removed from its natural environment. For example, in a tissue sample, the oxygen levels begin decreasing, causing an altered...
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Cryo-electron Microscopy Specimen Preparation By Means Of a Focused Ion Beam
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Warp-Free TEM Sample Preparation Methods Using FIB/SEM Systems.

Steven R Cook1

  • 1Intel Corp Ringgold Standard Institution, 2501 NE Century Blvd, Hillsboro, OR 97124, USA.

Microscopy and Microanalysis : the Official Journal of Microscopy Society of America, Microbeam Analysis Society, Microscopical Society of Canada
|September 9, 2022
PubMed
Summary
This summary is machine-generated.

New methods for focused ion beam/scanning electron microscope (FIB/SEM) sample preparation reduce warping. This enables larger, more stable transmission electron microscopy (TEM) lamellae for advanced semiconductor analysis.

Keywords:
FIB/SEMTEM sample warpinghorizontal bracewindow method

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Semiconductor Device Analysis

Background:

  • Warping in transmission electron microscopy (TEM) lamellae prepared by focused ion beam (FIB)/scanning electron microscope (SEM) is a significant limitation.
  • Conventional FIB/SEM methods result in thin lamellae lacking structural support, leading to warping that hinders imaging and limits sample size.

Purpose of the Study:

  • To present novel methods for preparing TEM samples that minimize warping.
  • To enable the fabrication of larger and more robust TEM lamellae for advanced analysis.

Main Methods:

  • Two new methods, 'horizontal bracing' and 'window', are introduced for FIB/SEM sample preparation.
  • These methods involve surrounding the thinned region of interest with thicker structures.
  • The techniques utilize the deposition of electron-transparent, low-Z amorphous films.

Main Results:

  • The presented methods significantly reduce lamellar warping.
  • Larger TEM lamellae (e.g., 10 μm wide by 8 μm tall) can be fabricated, capturing more device layers.
  • Reduced warping simplifies TEM imaging, requiring fewer stage adjustments.

Conclusions:

  • The horizontal bracing and window methods overcome limitations of conventional FIB/SEM sample preparation.
  • These techniques facilitate the analysis of complex semiconductor structures with unprecedented detail.
  • The developed methods enhance the utility of TEM for advanced materials and device characterization.