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Updated: Jun 1, 2026

Plasmonic Trapping and Release of Nanoparticles in a Monitoring Environment
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Detecting density variations and nanovoids.

M K Miller1, L Longstreth-Spoor, K F Kelton

  • 1Materials Science and Technology Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831-6136, USA. millermk@ornl.gov

Ultramicroscopy
|June 14, 2011
PubMed
Summary

Atom probe tomography can detect nanovoids as small as 1 nm using iso-density surfaces. This method quantifies nanovoid size, morphology, and density, validated with metallic glass data.

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Area of Science:

  • Materials Science
  • Nanotechnology
  • Analytical Chemistry

Background:

  • Atom probe tomography (APT) is a powerful technique for 3D atomic-scale chemical analysis.
  • Detecting and characterizing nanoscale features like nanovoids is crucial for understanding material properties.
  • Traditional methods may have limitations in resolving very small nanovoids.

Purpose of the Study:

  • To determine the minimum size of nanovoids detectable using atom probe tomography.
  • To evaluate the effectiveness of iso-density surfaces for nanovoid analysis in APT data.
  • To explore the quantification of nanovoid characteristics and solute segregation.

Main Methods:

  • Simulated APT data generation to establish detection limits.
  • Application of iso-density surfaces to both simulated and experimental APT datasets.
  • Analysis of an aluminum-yttrium-iron metallic glass ribbon using APT.
  • Complementary use of field ion microscopy and thin section atom maps.

Main Results:

  • Nanovoids as small as 1 nm in diameter are detectable with APT using iso-density surfaces.
  • Iso-density surfaces enable quantification of nanovoid size, morphology, and number density.
  • The approach was validated using experimental APT data from a metallic glass.
  • Solute segregation to nanovoids can be investigated by combining iso-density surfaces with atom maps.

Conclusions:

  • Iso-density surfaces are an effective method for detecting and quantifying nanovoids in APT data, down to the 1 nm scale.
  • This technique enhances the characterization capabilities of APT for nanoscale defects and their associated chemistry.
  • The findings have implications for materials characterization, particularly in metallic glasses and other nanostructured materials.

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