Syllabus del corso
Titolo
Scanning and Transmission Electron Microscopy, Principles and Applications
Docente(i)
Giancarlo Capitani ; Paride Mantecca ; Giovanni Maria Vanacore
Lingua
English
Breve descrizione
Aim of the Course: Scanning and Transmission Electron Microscopy (SEM and TEM, respectively) are powerful techniques for the characterization of materials at a very fine scale. They are potentially of interest for all the scientific fields addressed in this Doctoral Course. Exploiting the different signals produced by the electron matter interaction, information on morphology, structure, and composition of hard and soft materials from the micrometre to the nanometre scale is possible. The course will provide with the principles governing electron microscopy, the sample preparation, and the different operational modes available in modern instruments. Some case studies will be presented and practical sessions on the instruments installed at the “Piattaforma di Microscopia” di Milano-Bicocca are planned.
Detailed Program
1. Brief history of Electron Microscopy development
2. Electron-matter interaction
3. SEM and TEM sample preparation
4. Methods for bio-Electron Microscopy
5. Secondary (SE) and backscattered (BSE) observations
6. Electron backscattered diffraction (EBSD)
7. Bright field (BF), dark field (DF) and high resolution (HR) imaging
8. Selected area diffraction (SAD) and diffraction tomography (EDT)
9. Energy-dispersive (EDS) and wave-dispersive (WDS) analyses
10. Practical use of SEM and TEM
11.Electron Microscopy limits and pitfalls
Evaluation: NO
CFU / Ore
3 CFU - 30 Hours (12h lecture - 18h laboratory training)
Periodo di erogazione
II semester
Title
Scanning and Transmission Electron Microscopy, Principles and Applications
Teacher(s)
Giancarlo Capitani ; Paride Mantecca ; Giovanni Maria Vanacore
Language
English
Short description
Aim of the Course: Scanning and Transmission Electron Microscopy (SEM and TEM, respectively) are powerful techniques for the characterization of materials at a very fine scale. They are potentially of interest for all the scientific fields addressed in this Doctoral Course. Exploiting the different signals produced by the electron matter interaction, information on morphology, structure, and composition of hard and soft materials from the micrometre to the nanometre scale is possible. The course will provide with the principles governing electron microscopy, the sample preparation, and the different operational modes available in modern instruments. Some case studies will be presented and practical sessions on the instruments installed at the “Piattaforma di Microscopia” di Milano-Bicocca are planned.
Detailed Program
1. Brief history of Electron Microscopy development
2. Electron-matter interaction
3. SEM and TEM sample preparation
4. Methods for bio-Electron Microscopy
5. Secondary (SE) and backscattered (BSE) observations
6. Electron backscattered diffraction (EBSD)
7. Bright field (BF), dark field (DF) and high resolution (HR) imaging
8. Selected area diffraction (SAD) and diffraction tomography (EDT)
9. Energy-dispersive (EDS) and wave-dispersive (WDS) analyses
10. Practical use of SEM and TEM
11.Electron Microscopy limits and pitfalls
Evaluation: NO
CFU / Hours
3 CFU - 30 Hours (12h lecture - 18h laboratory training)
Teaching period
II semester