Estimation of mass thickness response of embedded aggregated silica nanospheres from high angle annular dark-field scanning transmission electron micrographs
2014
In this study, we investigate the functional behaviour of the intensity in high-angle annular dark field scanning transmission electron micrograph images. The model material is a silica particle (20 nm) gel at 5 wt%. By assuming that the intensity response is monotonically increasing with increasing mass thickness of silica, an estimate of the functional form is calculated using a maximum likelihood approach. We conclude that a linear functional form of the intensity provides a fair estimate but that a power function is significantly better for estimating the amount of silica in the z-direction. The work adds to the development of quantifying material properties from electron micrographs, especially in the field of tomography methods and three-dimensional quantitative structural characterization from a scanning transmission electron micrograph. It also provides means for direct three-dimensional quantitative structural characterization from a scanning transmission electron micrograph.
Keywords:
- Optics
- Analytical chemistry
- Micrograph
- Scanning confocal electron microscopy
- Chemistry
- Energy filtered transmission electron microscopy
- Conventional transmission electron microscope
- Dark field microscopy
- Electron tomography
- Scanning transmission electron microscopy
- Electron microscope
- Microscopy
- Material properties
- Correction
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