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Basics in Nanomaterials and Nanotechnology 1+2: Mechanical and Optical Properties, Nanoscale Surface Characterization and Structures (Basics Nano 1+2)5 ECTS (englische Bezeichnung: Basics in Nanomaterials and Nanotechnology 1+2: Mechanical and Optical Properties, Nanoscale Surface Characterization and Structures)
Modulverantwortliche/r: Mathias Göken Lehrende:
Shiva Mohajernia, Peter Felfer, Nicolas Vogel, Volker Altstädt, Patrik Schmuki
Startsemester: |
WS 2020/2021 | Dauer: |
2 Semester | Turnus: |
halbjährlich (WS+SS) |
Präsenzzeit: |
60 Std. | Eigenstudium: |
90 Std. | Sprache: |
Englisch |
Lehrveranstaltungen:
Inhalt:
Basics in Nanomaterials and Nanotechnology 1: Nanoscale Surface Characterization and Structures:
surface Analysis
contact angle measurements
AFM/STM
SEM/AES
XPS/UPS
ToF-SIMS/LEIS
XRD and diffraction methods
SFG and optical methods
surface modification
generation of 0D-nanostructures (dendrimer encapsulated growth, arrested precipitation, micelles)
generation of 1D-nanostructures (VLS mechanism, template assisted, CVD)
generation of 2D-nanostructures (anodic growth, block-copolymers, mechanically assisted, superlattice structures)
UHV technique
scientific problem training
Basics in Namomaterials and Nanotechnology 2
Lectures Prof. Felfer:
General introduction to Nanotechnology:
properties of Nanomaterials (magnetic, mechanical . . . ):
production of nanomaterials: Sol-Gel technique, severe plastic deformation
mechanical properties of materials and size-effects in mechanics
characterization of Nanomaterials, Transmission Electron Microscopy, Focused Ion Beam, Scanning Tunneling Microscope, Atom Probe Microscopy
Lectures Prof. Vogel:
general introduction of nanoparticulate systems and their applications
introduction to size-dependent physical properties of dielectric, metallic and semiconducting nanoparticles: light scattering, plasmonic properties, size-dependent emission properties and magnetism
collective effects and properties of nanoparticle thin films: structural color and tailored emission properties
Lectures Prof. Altstädt (Reinforced plastics I + II):
introduction to reinforced plastics
manufacturing and applications of fibre reinforced polymers and market
comparison with metals
components of reinforces plastics: Fibre, Matrix, Interphase
fibre: glas, carbon, aramide: manufacturing and properties
matrix: thermoplastic and thermosets: properties and applications
interphase: Load transmission
influence of fibre length
calculation: modulus and strength
Lernziele und Kompetenzen:
Basics in Nanomaterials and Nanotechnology 2:
Students who successfully participate in this module can
describe fabrication methods to produce nanomaterials
understand fundamental structure-function relationships of nanostructured materials
understand the concept behind fibre reinforced composite materials and identify the influence of the individual components in such materials
identify the potential of polymer composites in applications
identify established, new and upcoming applications of nanoparticles
explain the physical origin and applicability of nanoscale effects including quantum confinement, surface plasmon resonance and superparamagnetism
differentiate between single particle effects and collective effects (e.g. photonic bandgaps)
identify suitable characterisation techniques for determining the electronic, magnetic and optical properties of nanoparticles
decide which combination of surface analytical tools to use for specific scientific questions
demonstrate knowledge about the working principles of surface analysis techniques
describe limitations and strengths of common surface analysis techniques
generate nanostructures of different dimensions
Literatur:
- S.N. Magonov, M.-H. Whangbo, Surface Analysis with STM and AFM
G.I. Goldstein, D.E. Newbury, et al., Scanning electron microscopy and X-ray microanalysis
D. Briggs, M.P. Seah, Practical Surface Analysis
Vickerman, J.C., Briggs, D.,ToF-SIMS : Surface Analysis by Mass Spectrometry.
B.E. Warren, X-ray Diffraction
Nanoscale Science and Technology, R. Kelsall, I Hamley, M. Georghegan, Wiley 2005
Faserverbund-KunststoffeG. W. Ehrenstein, Carl Hanser Verlag (2006), ISBN 3-446-22716-4
Faserverbundbauweise (4 Bände)M. Flemming, G. Ziegmann, S. Roth, Springer Verlag (1999), ISBN 3-540-58645-6
Handbuch Verbundwerkstoffe M. Neizel, U. Breuer, Carl Hanser Verlag (2004), ISBN 3-446-22041-0
Analysis and performance of fiber composites B. D. Agarwal, L. J. Broutman, John Wilwy & Sons (1990), ISBN 0-471-51152-8
An introduction to composite materialsD. Hull, Cambridge University Press (1981), ISBN 0-521-23991-5
Dimensionieren mit FaserverbundwerkstoffenW. Michaeli, D. Huybrechts, M. Wegener, Carl Hanser Verlag (1995), ISBN 3-446-17659-4
Physics and Chemistry of Interfaces, H.J. Butt, Wiley-VCH
Further recommended reading will be announced in the lectures.
Weitere Informationen:
Schlüsselwörter: Elitestudiengang "Advanced Materials and Processes" (MAP)
www: https://www.map.tf.fau.de/
Studien-/Prüfungsleistungen:
Nanomaterials and Nanotechnology 1+2: Nanoscale Surface Characterization and Structures, Mechanical and Optical Properties (Prüfungsnummer: 1766)
(englischer Titel: Basics in Nanomaterials and Nanotechnology 1+2: Mechanical and Optical Properties, Nanoscale Surface Characterization and Structures)
- Prüfungsleistung, Klausur, Dauer (in Minuten): 120, benotet, 5 ECTS
- Anteil an der Berechnung der Modulnote: 100.0 %
- Prüfungssprache: Englisch
- Erstablegung: SS 2021, 1. Wdh.: WS 2021/2022
- Termin: 23.02.2021, 10:00 Uhr, Ort: H9, TF
Termin: 27.07.2021, 14:00 Uhr, Ort: K 1 TechF
Termin: 22.02.2022, 10:00 Uhr, Ort: K1-119 Brose
Nanomaterials and Nanotechnology 1: Nanoscale Surface Characterization and Structures (Prüfungsnummer: 1767)
- Prüfungsleistung, Klausur, Dauer (in Minuten): 60, benotet, 2.5 ECTS
- Anteil an der Berechnung der Modulnote: 50.0 %
- weitere Erläuterungen:
Gemäß Corona-Satzung wird als alternative Prüfungsform festgelegt: mündliche Prüfung mit 30 Minuten Dauer.
- Prüfungssprache: Englisch
- Erstablegung: WS 2020/2021, 1. Wdh.: SS 2021
1. Prüfer: | Patrik Schmuki |
- Termin: 23.02.2021, 10:00 Uhr, Ort: H9
Termin: 27.07.2021, 14:00 Uhr, Ort: K 1 TechF
Nanomaterials and Nanotechnology 2: Mechanical and Optical Properties (Prüfungsnummer: 1768)
- Prüfungsleistung, Klausur, Dauer (in Minuten): 60, benotet, 2.5 ECTS
- Anteil an der Berechnung der Modulnote: 50.0 %
- Prüfungssprache: Englisch
- Erstablegung: SS 2021, 1. Wdh.: WS 2021/2022
- Termin: 23.02.2021, 10:00 Uhr, Ort: H9, TF
Termin: 27.07.2021, 14:00 Uhr, Ort: K 1 TechF
Termin: 22.02.2022, 10:00 Uhr, Ort: K1-119 Brose
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