Covers the principles and applications of Transmission Electron Microscopy, including imaging, diffraction, contrast mechanisms, and in situ techniques.
Covers the basics of Scanning Electron Microscopy, including electron-sample interactions, detectors, sample preparation, image formation, resolution, and contrasts in SEM images.
Explores electron microscopy instrumentation in life sciences, covering techniques, instrument limitations, components, specimen preparation, beam interactions, and contrast functions.
Explores Energy-Dispersive X-ray Spectroscopy (EDS) in electron microscopy, covering x-ray generation, detection, quantification, and mapping of elements in samples.
Explores the principles of Scanning Transmission Electron Microscopy (STEM) for analytical microscopy, covering TEM diffraction, detectors, and EDS analysis.
Explores electron microscopy techniques for polymer morphological characterization, covering contrast sources, beam damage, and strategies to avoid damage.
Explores ptychography for imaging atoms and fields at picometer scale, covering resolution limits, depth sectioning, Lorentz microscopy, and detector advancements.
