Covers the principles and applications of Transmission Electron Microscopy, including imaging, diffraction, contrast mechanisms, and in situ techniques.
Explores the principles of Scanning Transmission Electron Microscopy (STEM) for analytical microscopy, covering TEM diffraction, detectors, and EDS analysis.
Explains Bragg's law in Transmission Electron Microscopy, focusing on the relationship between wavelength, crystal lattice spacing, and diffraction angle.
Explores the historical perspective, properties, and applications of X-rays, including diffraction, atomic resolution, and spectral colors of elements.
Explores Transmission Electron Microscopy (TEM) principles, contrast mechanisms, dislocation identification, and sample cleaning methods for accurate imaging.
Covers the basics of transmission electron microscopy, including components, operation, imaging modes, diffraction analysis, and the interaction of high-energy electrons with matter.
