Teaching GuideTerm Faculty of Science |
Grao en Nanociencia e Nanotecnoloxía |
Subjects |
Spectroscopy |
Contents |
Identifying Data | 2023/24 | |||||||||||||
Subject | Spectroscopy | Code | 610G04017 | |||||||||||
Study programme |
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Descriptors | Cycle | Period | Year | Type | Credits | |||||||||
Graduate | 2nd four-month period |
Second | Obligatory | 6 | ||||||||||
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Topic | Sub-topic |
1. Introduction to spectroscopy. | Electromagnetic radiation and matter. Resonant and non resonant processes. Transition dipole moment. Spontaneous emission. Selection rules. Types of spectra. Population of energy levels. Lmbert-Beer Law. Factors that determine the shape and width of spectral bands. Principles of laser action. |
2. Vibrational spectroscopy. | Symmetry in Chemistry. Applications to Spectroscopy. IR spectroscopy Electron energy loss spectroscopy: EELS Raman spectroscopy |
3. Electronic spectroscopy | UV-Vis spectroscopy Diffuse reflectance spectroscopy Luminescence: fluorescence, phosphorescence Surface plasmon resonance Size quantum effects |
4. Photoelectron spectroscopy | UPS spectroscopy XPS spectroscopy Auger spectroscopy Other |
5. Introduction to diffraction techniques | XR diffraction: XRD, SAXS XR fluorescence Electron diffraction: LEED Neutron diffraction |
6. Electron microscopy | Scanning electron microscopy (SEM, SEM-EDS) Transmission electron microscopy (TEM) Atomic force microscopy (AFM) |
7. Magnetic resonance techniques | Nuclear magnetic resonance: NMR, SS-NMR, MAS-NMR Electron and paramagnetic resonance: EPR |
8. Other spectroscopies | Mössbauer spectroscopy Ionic spectrometry: RBS, SIMS Dielectric response spectroscopy |
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