Informazioni di Nanotechnology | DidatticaWEB

Generali:

Dipartimento: Ingegneria
Settore Ministeriale: ING-INF/01
Codice di verbalizzazione: 8039791
Metodi di insegnamento: Frontale E Altro
Metodi di valutazione: Orale
Prerequisiti: The Nanotechnology course requires knowledge about: - classical physics (light and waves) and basic electronics; - basic notions of differential and integral calculus; - basic notions of electronics both from a circuit point of view (Kirchhoff's laws, Thévenin-Norton theorem, etc...) and components (resistors, capacitors, inductors, diodes, transformers etc...); - the main notions of organic and inorganic chemistry.
Obiettivi: I part: Physics and Engineering of cutting-edge nanotechnologies (tot. 3 CFU) 1) Quantum Mechanics and physiscs of semiconductors. 2) Quantum structures and nanodevices: quantum wires, quantum dots, quantum well. 3) p-n junction and diodes. 4) Devices based on quantum mechanics: Working principles and design guidelines for photodiodes, solar cells, light emitting diode (LED), laser. 5) New frontiers of the nanotechnology applications: innovative nanomaterials (2D materials) and organic electronics. II part) Characterization techniques for nanomaterials and nanodevices (tot. 2 CFU) 1) Absorbance and Fluorescence Spectroscopy 2) Transient Absorption Spectroscopy 3) Raman Spectroscopy 4) Electron Scanning Microscopy (SEM) 5) Tansmission Electron Microscopy (TEM) 6) Scanning Tunneling Microscopy (STM) 7) Atomic Force Microscopy (AFM) 8) Kelvin Probe Microscopy (KPFM) III part: Lab Experiences on characterization and engineering of nanomaterials and nanodevices (tot. 1 CFU)

Didattica:

A.A.: 2024/2025
Canale: UNICO
Crediti: 6

Classe virtuale:

Nome classe: AGRESTI-8039791-NANOTECHNOLOGY_4
Link Microsoft Teams: Link
Docente: AGRESTI ANTONIO