Preface1: Electron crystallography - an introductionI. Fundamental crystallography2: Fundamental crystallography3: The effects of symmetry in real and reciprocal spaceII. Fundamental electron microscopy4: Fundamental electron microscopy5: Electrons interact strongly with matter6: Electron diffraction7: Phase identification and 3D electron diffraction8: Phase contrast, contrast transfer function (CTF) and high resolution electron microscopy (HRTEM)9: Convergent beam electron diffraction10: Simulation of Images and electron diffraction patternsIII. Structure determination by electron crystallography11: Solving crystal structures from HRTEM images by crystallographic image processing12: Experimental procedures for Crystallographic Image Processing13: Solving crystal structures from ED data14: Structure refinement from ED data15: 3D electron crystallography16: ApplicationsIV. AppendicesAppendix 1: Goals of a course in electron crystallographyAppendix 2: Sample preparationAppendix 3: Reflection conditions generated by symmetry elements and latticeAppendix 4: Characteristics of the 17 plane groups and 3D Space group determinationAppendix 5: Convolutions, Fourier transforms and how to get phases - an introductionAppendix 6: Identify HRTEM images, Calculated FT from HRTEM images, SAED patterns and potential mapsAppendix 7: Computer lab on crystallographic image processing of HRTEM imagesAppendix 8: Indexing electron diffraction patternsAppendix 9: Computer lab on quantifying and analysing electron diffraction patternsAppendix 10. Determining space group and unit cell dimensions from ED patterns- Web page/ Server- Computer labs, including processing HRTEM images and ED patterns, Original Datasets, Figures, Images and ED patterns - related to the examples described in the book, The programs CRISP, ELD and Space Group Explorer.