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Catalyst Characterization II: X-ray Techniques and Synchrotron Radiation
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Inelastic Scattering in Transmission Electron Microscopy
Introduces inelastic scattering in transmission electron microscopy, focusing on electron energy-loss spectroscopy principles and applications.
Characterization Techniques in Solid State Chemistry
Explores standard characterization techniques, focusing on x-ray diffraction and its importance in determining crystal structures.
X-rays: From Discovery to Applications
Explores the historical perspective, properties, and applications of X-rays, including diffraction, atomic resolution, and spectral colors of elements.
Crystal Structures: Determination and Analysis
Covers the determination and analysis of crystal structures using techniques such as X-ray diffraction and electron microscopy.
Crystallography: Atomic Bonding, Structures, and Diffraction
Covers crystallography, atomic bonding, structures, diffraction, and coordination numbers in materials.
Macromolecular Crystallography: Techniques and Applications
Explores macromolecular crystallography techniques using synchrotrons and x-ray lasers for large molecules.
Electron Diffraction: Basics & Applications
Covers the basics of electron diffraction, explaining contrast in TEM images and its applications in material analysis.
Monochromators: General Features
Introduces monochromators and their importance in selecting specific frequencies for experiments.
Synchrotrons and X-ray Techniques
Covers crystal diffraction basics, unit cells, lattice constants, and Miller indices.
Crystal Diffraction: Phases and Structure Factor
Explores crystal diffraction techniques, phases of scattered waves, and the structure factor.
