ECTS - University of Pisa
Scheda programma d'esame
Nanostructured Materials
LUCIA SORBA
Academic year2020/21
CourseMATERIALS AND NANOTECHNOLOGY
Code312BB
Credits9
PeriodSemester 2
LanguageEnglish

ModulesAreaTypeHoursTeacher(s)
NANOSTRUCTURED MATERIALSFIS/03LEZIONI72
STEFAN HEUN unimap
LUCIA SORBA unimap
Programma non disponibile nella lingua selezionata
Learning outcomes
Knowledge

Growth techniques (bulk, epitaxial: CVD, MOCVD, MBE, CBE)
Fabrication techniques of nanostructures: top-down and bottom-up
Morphological properties of nanostructures (AFM, SEM, STM)
Electronic, chemical and compositional properties of nanostructures (Photoemission, PEEM, XPEEM)
Structural properties of nanostructures (TEM, XRD)
Optical properties of nanostructures (PL, PLE)
Materials (2DEG, Graphene, bP, NW, QD)
Examples (quantum Hall effect, superconductivity, thermoelectricity, hydrogen storage)
Assessment criteria of knowledge

Oral exam
Skills

Students will gain a detailed knowledge of the structural, electronic and optical properties of nanostructures. They will learn about the techniques to measure these properties. They will be able able to understand the main experimental phenomenologies observed and design novel nanostructures with desired electronic properties.
Prerequisites

Solid State Physics, Semiconductor Physics
Bibliography

Jeffrey Y. Tsao, Materials Fundamentals of Molecular Beam Epitaxy, 1992
Ivan V. Markov, Crystal Growth for Beginners: Fundamentals of Nucleation, Crystal Growth, and Epitaxy, 2004
Yu Peter, Cardona Manuel, Fundamentals of Semiconductors: Physics and Materials Properties
Ashcroft Neil W, David Mermin N, Solid State Physics
Updated: 05/12/2020 16:40