Scanning Electron Microscopy. The Scanning Electron Microscope is an instrument that investigates the surfaces of solid samples.

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Scanning Electron Microscopy (SEM)

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Presentation transcript:

Scanning Electron Microscopy

The Scanning Electron Microscope is an instrument that investigates the surfaces of solid samples.

Magnification range ~ 5x-500,000x

The Scanning Electron Microscope is an instrument that investigates the surfaces of solid samples. Magnification range ~ 5x-500,000x Sensitive to: Topography

The Scanning Electron Microscope is an instrument that investigates the surfaces of solid samples. Magnification range ~ 5x-500,000x Sensitive to: Topography Chemistry

The Scanning Electron Microscope is an instrument that investigates the surfaces of solid samples. Magnification range ~ 5x-500,000x Sensitive to: Topography Chemistry Crystallography

The Scanning Electron Microscope is an instrument that investigates the surfaces of solid samples. Magnification range ~ 5x-500,000x Sensitive to: Topography Chemistry Crystallography Etc.

The Scanning Electron Microscope is an instrument that investigates the surfaces of solid samples. Magnification range ~ 5x-500,000x Sensitive to: Topography Chemistry Crystallography Etc. Resolution down to 1nm. point-to-point

Products of interaction of electrons with matter:

Secondary Electrons (Low energy)

Products of interaction of electrons with matter: Secondary Electrons (Low energy) Back-scattered electrons (High energy)

Products of interaction of electrons with matter: Secondary Electrons (Low energy) Back-scattered electrons (High energy) X-rays

Products of interaction of electrons with matter: Secondary Electrons (Low energy) Back-scattered electrons (High energy) X-rays Auger electrons (Medium energy)

Products of interaction of electrons with matter: Secondary Electrons (Low energy) Back-scattered electrons (High energy) X-rays Auger electrons (Medium energy) Light

Products of interaction of electrons with matter: Secondary Electrons (Low energy) Back-scattered electrons (High energy) X-rays Auger electrons (Medium energy) Light Etc

JEOL 5910 General-Purpose SEM

FEI XL30 FEG-ESEM

JEOL 6320 High-resolution SEM

Features of our SEMs

Large sample chambers (6320 more restricted)

Features of our SEMs Large sample chambers (6320 more restricted) Secondary detectors

Features of our SEMs Large sample chambers (6320 more restricted) Secondary and Backscatter detectors

Features of our SEMs Large sample chambers (6320 more restricted) Secondary and Backscatter detectors Energy-dispersive X-ray detectors

SECu PbSn

BSECu PbSn

Features of our SEMs Large sample chambers (6320 more restricted) Secondary and Backscatter detectors Energy-dispersive X-ray detectors Backscatter diffraction patterns

Electron Backscatter Diffraction (EBSD) analysis: Define different grains (~0.5  m)

Electron Backscatter Diffraction (EBSD) analysis: Define different grains (~0.5  m) Detect Preferred orientations (texture)

Electron Backscatter Diffraction (EBSD) analysis: Define different grains (~0.5  m) Detect Preferred orientations (texture) Measure misorientations (~1 o )

Electron Backscatter Diffraction (EBSD) analysis: Define different grains (~0.5  m) Detect Preferred orientations (texture) Measure misorientations (~1 o ) Detect different phases

Electron Backscatter Diffraction (EBSD) analysis: Define different grains (~0.5  m) Detect Preferred orientations (texture) Measure misorientations (~1 o ) Detect different phases BUT – Needs VERY well prepared samples!

What else can we do? Stereo Imaging

What else can we do? Stereo Imaging Height Mapping (Using MeX software)

What else can we do? Stereo Imaging Height Mapping (Using MeX software) Feature analysis (Using Image Analysis software)

Introduction to Scanning Electron Microscopy Patrick Boisvert Thu Jan 25, 10-11:00am, The lecture will provide an introduction to the basic principles of Scanning Electron Microscopy with an approach to EDX, EBSD, and BSE. Contact: Patrick Boisvert, , x3-3317,