|
Self-organization Processes (SOP)5 ECTS (englische Bezeichnung: Self-organization Processes)
(Prüfungsordnungsmodul: Self-organisation processes)
Modulverantwortliche/r: Michael Engel Lehrende:
Michael Engel, Nicolas Vogel, Robin N. Klupp Taylor
Startsemester: |
SS 2022 | Dauer: |
1 Semester | Turnus: |
jährlich (SS) |
Präsenzzeit: |
75 Std. | Eigenstudium: |
75 Std. | Sprache: |
Englisch |
Lehrveranstaltungen:
Inhalt:
Structure formation with elementary building blocks in molecular, particulate, soft, and biological systems. Theoretical aspects, experimental realizations, and applications are discussed.
1. Theory 1 (introduction): the idea of building blocks, thermodynamic principles
2. Theory 2 (continuum): spinodal decomposition, reaction diffusion, phase field model, feedback
3. Theory 3 (particles): entropy maximization, interface minimization
4. Molecules 1 (basics): molecular interactions, role of shape
5. Molecules 2 (liquid crystals): topological order, defects
6. Molecules 3 (interfaces): surfactants, micelles, emulsions, foams, vesicles
7. Molecules 4 (beyond): block copolymers, membranes, proteins, metal organic frameworks
8. Colloids 1 (isotropic particles): interaction forces, depletion, hydrophobic(-philic)
9. Colloids 2 (directed assembly): diffusion-limited aggregation, printing, coffee stain effect
10. Colloids 3 (anisotropic particles): nanoparticles, patchy particles, ligands, directionality
11. Colloids 4 (properties): surface functionalization, plasmonics, filtration, catalysis, mechanical
12. Bioinspired 1 (dynamic self-assembly): active matter, bacteria, swarms, robots
13. Bioinspired 2 (design): programmable assembly, DNA nanotechnology, inverse problems
Lernziele und Kompetenzen:
The students
• describe complex self-organization processes with the help of simple model systems
• apply this knowledge to physical, chemical, and bioinspired systems
• develop an advanced understanding of the self-organization of (macro)molecules and colloids
• understand processes to direct and influence self-organization processes
• judge the relevance of self-organization for the processing and synthesis of materials
• gain insight into current research in the field of the lecture
Literatur:
[1] Ian W. Hamley, “Introduction to Soft Matter: Synthetic and Biological Self-Assembling
Materials”, Wiley, 2007.
[2] Yoon S. Lee, „Self-Assembly and Nanotechnology Systems”, Wiley, 2011.
[3] Scott Camazine, Jean-Louis Deneubourg, Nigel R. Franks, „Self-Organization in Biological
Systems“, Princeton University Press, 2003.
[4] John A. Pelesko, „Self Assembly: The Science of Things That Put Themselves Together“,
Chapman and Hall/CRC, 2007.
[5] Jacob N. Israelachvili, „Intermolecular and Surface Forces”, Academic Press, 2011.
Bemerkung:
Unterrichtssprache: Englisch
Verwendbarkeit des Moduls / Einpassung in den Musterstudienplan:
- Clean Energy Processes (Master of Science)
(Po-Vers. 2021w | Gesamtkonto | Specialisation Energy technologies | Compulsory elective module 1-3 | Self-organisation processes)
Dieses Modul ist daneben auch in den Studienfächern "Chemical Engineering - Nachhaltige Chemische Technologien (Master of Science)", "Chemie- und Bioingenieurwesen (Master of Science)", "Life Science Engineering (Master of Science)" verwendbar. Details
Studien-/Prüfungsleistungen:
Self-organization Processes (Prüfungsnummer: 29361)
- Prüfungsleistung, mündliche Prüfung, Dauer (in Minuten): 30, benotet
- Anteil an der Berechnung der Modulnote: 100.0 %
- Prüfungssprache: Englisch
- Erstablegung: SS 2022, 1. Wdh.: WS 2022/2023
1. Prüfer: | Engel/Klupp Taylor/Vogel |
|
|
|
|
UnivIS ist ein Produkt der Config eG, Buckenhof |
|
|