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Nanotechnology of Disperse Systems (Nano)5 ECTS (englische Bezeichnung: Nanotechnology of Disperse Systems)
(Prüfungsordnungsmodul: Nanotechnology of Disperse Systems)
Modulverantwortliche/r: Robin N. Klupp Taylor, Monica Distaso Lehrende:
Robin N. Klupp Taylor, Monica Distaso
Startsemester: |
SS 2022 | Dauer: |
1 Semester | Turnus: |
halbjährlich (WS+SS) |
Präsenzzeit: |
45 Std. | Eigenstudium: |
105 Std. | Sprache: |
Englisch |
Lehrveranstaltungen:
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Nanotechnology of Disperse Systems
(Vorlesung, 2 SWS, Robin N. Klupp Taylor et al., Mi, 14:15 - 15:45, 1.84; Link to the StudOn page: https://www.studon.fau.de/crs4410018.html)
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Übung zu Nanotechnology of Disperse Systems
(Übung, 1 SWS, Robin N. Klupp Taylor et al., Mi, 16:15 - 17:45, 1.84; https://www.studon.fau.de/crs4410018.html)
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Nanotechnology of Disperse Systems: Synthesis, Formation Mechanisms and Applications of Mesocrystals
(Vorlesung, Monica Distaso, Mi, 14:15 - 15:45, 1.84; Link to the StudOn page: https://www.studon.fau.de/crs4410018.html)
Inhalt:
- Introduction to nanodisperse systems and their broad fields of application and research
Revision of the fundamentals of colloid science
Fundamental aspects of the preparation of nanodisperse systems (Thermodynamic fundamentals; Hydrolysis and polycondensation (metal oxides); Redox-reactions (metals); Control of particle size and morphology)
Morphological characterization of nanodisperse systems (Optical methods; Electron microscopy; Scanning probe microscopy
Properties of nanodisperse systems (Optical properties; Magnetic properties)
Advanced nanodisperse systems (multifunctional particles, self-assembly)
Lernziele und Kompetenzen:
On completion of the lecture course students will be able to:
Identify major applications and research fields of nanodisperse systems
Identify and explain the fundamental theories of nucleation and growth and colloidal stability
Differentiate between different approaches for the preparation of nanodisperse systems
Select metal and metal oxide precursors and oxidizing/reducing agents according to their thermodynamic properties.
Give examples of means to control nanoparticle size, shape and agglomeration state
Distinguish between different characterization tools according to their advantages and disadvantages for the analysis of nanodisperse systems
Identify the influence of particle size on key physical properties
Match physical properties of nanoparticles to current or emergent applications
Literatur:
- Everett, D.H. Basic Principles of Colloid Science, Cambridge, Royal Society of Chemistry 2007
Vollath, Dieter, Nanoparticles, nanocomposites, nanomaterials. Weinheim, Wiley-VCH, 2013
Nogi, Kiyoshi, Naito, Makio, and Yokoyama, Toyokazu. Nanoparticle Technology Handbook , Amsterdam, Elsevier 2012
Pelton, Matthew, and Bryant, Garnett W. Introduction to Metal-Nanoparticle Plasmonics. Somerset, NJ, USA: John Wiley & Sons, 2013
Gubin, Sergei. Magnetic Nanoparticles. Weinheim, Wiley-VCH, 2009
Verwendbarkeit des Moduls / Einpassung in den Musterstudienplan:
- Energietechnik (Master of Science)
(Po-Vers. 2018w | TechFak | Energietechnik (Master of Science) | Gesamtkonto | Studienrichtung Verfahrenstechnik der Energiewandlung | Modulgruppe Erneuerbare Energien (EE) | Nanotechnology of Disperse Systems)
Dieses Modul ist daneben auch in den Studienfächern "Chemical Engineering - Nachhaltige Chemische Technologien (Master of Science)", "Chemie- und Bioingenieurwesen (Master of Science)" verwendbar. Details
Studien-/Prüfungsleistungen:
Mündliche Prüfung Nanotechnology of Disperse Systems (Prüfungsnummer: 53501)
(englischer Titel: Nanotechnology of Disperse Systems)
- Prüfungsleistung, mündliche Prüfung, Dauer (in Minuten): 30, benotet, 5 ECTS
- Anteil an der Berechnung der Modulnote: 100.0 %
- weitere Erläuterungen:
gemäß Corona-Satzung gegebenenfalls Durchführung in digitaler Form
- Prüfungssprache: Englisch
- Erstablegung: SS 2022, 1. Wdh.: WS 2022/2023, 2. Wdh.: keine Wiederholung
1. Prüfer: | Robin N. Klupp Taylor |
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UnivIS ist ein Produkt der Config eG, Buckenhof |
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