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 the knowledge of classical physics (light and waves) and bases of quantum mechanics (formalisms and light-matter interactions). Knowledge of energy band models for metals, semiconductors and insulators as well as electronics bases (p-n junction, diodes and transistors) is required. Concepts related to charge transport phenomena and to the physics of semiconductors are supposed to be already acquired by the students. A good basic knowledge of organic chemistry is also required.
  • Obiettivi: I Part Nanomaterials and nanotechnologies: first principles and characterization techniques Quantum Mechanics and p-n junction Solar Cells: main electrical characterization techniques Absorbance and Fluorescence Spectroscopy Electron scanning microscopy (SEM) Electron transmission microscopy (TEM) Scanning tunneling microscopy (STM) Atomic force microscopy (AFM) Kelvin Probe Microscopy (KPFM) Raman spectroscopy Bi-Dimensional Materials II Part : Nanomaterials and nanodevices: deposition techniques and new generation photovoltaic technologies. Introduction to the nanotechnology and thin film properties; Thin Film Deposition Thermal Evaporation DC and RF Sputtering Pulsed Laser Deposition Chemical Vapour Deposition Atomic Layer Deposition Solution Processing: Spin coating, Screen Printing, Blade Coating, Slot die coating Patterning Procedures: Photolithography and Laser Ablation Introduction to Perovskite Solar Cell Building Integration Photovoltaics

Didattica:

  • A.A.: 2021/2022
  • Canale: UNICO
  • Crediti: 6
  • Obbligo di Frequenza: No

Classe virtuale:

  • Nome classe: AGRESTI-8039791-NANOTECHNOLOGY_1
  • Link Microsoft Teams: Link
  • Docente: AGRESTI ANTONIO