MLU
PHY.05566.05 - Advanced Polymer Physics (Complete module description)
Original version English
PHY.05566.05 10 CP
Module label Advanced Polymer Physics
Module code PHY.05566.05
Semester of first implementation
Faculty/Institute Institut für Physik
Module used in courses of study / semesters
  • Polymer Materials Science (MA120 LP) (Master) > Werkstofftechnik PolymerMaterialScMA120, Version of accreditation valid from WS 2014/15 > Polymer Physics
  • Polymer Materials Science (MA120 LP) (Master) > Werkstofftechnik PolymerMaterialScMA120, Version of accreditation valid from WS 2014/15 > Polymer Science *
Responsible person for this module
Further responsible persons
Prof. Dr. Kay Saalwächter
Prerequisites
Skills to be acquired in this module
  • The students deepen their background knowledge in polymer physics.
  • They will be familiar with fundamental principles of soft-matter physics.
  • They gain experience in advanced concepts of experimental or theoretical polymer physics.
Module contents
This module covers advanced experimental and theoretical details of polymer physics. Beside basic lecture (Soft Condensed Matter Physics), the students can focus on either experimental (Polymer Structure and Morphology) or more theoretical approaches (Polymer Theory). The Lab courses Advanced Polymer Physics Lab and Polymer Structure and Morphology give the students the opportunity to perform their own characterization experiments.
Lectures:
1. Soft Condensed Matter Physics
  • Structure and dynamics of liquids (existence, pair correlation function, glass transition)
  • Liquid crystals (classification, structure and defects in nematics, nematic-to-isotropic phase transition, elastic properties and Fredericks-transition)
  • Surfactants: supramolecular structures and self-organization (micelles and membranes)
  • Colloidal dispersions: heterogeneous systems (Brownian motion, forces between colloids, colloidal phase transitions)
  • Polymers (conformations: ideal chains, rubber elasticity, introduction into semicrystalline polymers)
2a. (either) Polymer Structure and Morphology
  • Scattering techniques: basic principles & general aspects, primary scattering and interference, comparison x-rays and neutrons, radiation sources and detectors
  • X-ray diffraction (WAXS): typical setups, diffraction by crystals, Braggs law and Laue condition, Miller indices, Structure factor and lattice factor, scattering of amorphous materials and liquids
  • Small-angle X-ray scattering (SAXS): typical setups, application to semi-crystalline and self-assembled polymers, Guinier law and application to disordered systems
  • Imaging techniques: light microscopy, atomic force microscopy, electron microscopy techniques
2b. (or) Polymer Theory
  • Conformational statistics of polymers
  • Flory-Huggins theory for solutions and blends
  • Self-consistent field theory
  • Random phase approximation
  • Polymer networks
  • Scaling theory of polymers
  • Theories of polymer dynamics
Lab courses:
1. Advanced Polymer Physics Lab
  • Experiments using special techniques for physical structure details: Dielectric spectroscopy, low-field NMR, light microscopy, atomic force microscopy, X-ray scattering
2. (optional) Polymer Structure and Morphology
  • Practical exercises in imaging techniques, X-ray experiments with 1- and 2-dim detectors, AFM investigations on thin films
  • Practical exercises in imaging techniques
Forms of instruction Lecture (3 SWS)
Lecture (3 SWS)
Seminar (1 SWS)
Seminar (1 SWS)
Practical training (1 SWS)
Practical training (1 SWS)
Lecture (2 SWS)
Lecture (2 SWS)
Practical training (1 SWS)
Seminar (1 SWS)
Course
Course
Languages of instruction German, English
Duration (semesters) 1 Semester Semester
Module frequency jedes Sommersemester
Module capacity unlimited
Time of examination
Credit points 10 CP
Share on module final degree Course 1: %; Course 2: %; Course 3: %; Course 4: %; Course 5: %; Course 6: %; Course 7: %; Course 8: %; Course 9: %; Course 10: %; Course 11: %; Course 12: %.
Share of module grade on the course of study's final grade 1
Module course label Course type Course title SWS Workload of compulsory attendance Workload of preparation / homework etc Workload of independent learning Workload (examination and preparation) Sum workload
Course 1 Lecture Lecture Soft Condensed Matter Physics 3 0
Course 2 Lecture Lecture Soft Condensed Matter Physics 3 0
Course 3 Seminar Seminar Soft Condensed Matter Physics 1 0
Course 4 Seminar Seminar Soft Condensed Matter Physics 1 0
Course 5 Practical training Lab course Advanced Polymer Physics 1 0
Course 6 Practical training Lab Course Advanced Poly.Phys. Lab 1 0
Course 7 Lecture Lecture Polymer Structure and Morphology 2 0
Course 8 Lecture Lecture Polymer Theory 2 0
Course 9 Practical training LabCourse Polymer Structure and Morphology 1 0
Course 10 Seminar Seminar Polymer Theory 1 0
Course 11 Course Private study 0
Course 12 Course Private study 0
Workload by module 300 300
Total module workload 300
Examination Exam prerequisites Type of examination
Course 1
Course 2
Course 3
Course 4
Course 5
Course 6
Course 7
Course 8
Course 9
Course 10
Course 11
Course 12
Final exam of module
completed lab course protocols, seminar (Soft Condensed Matter Physics) problem set solutions
oral or written examination (Condensed Matter, Polymer Theory or Polymer Structure)
Exam repetition information
Prerequisites and conditions Prerequisites Frequency Compulsory attendance Share on module grade in percent
Course 1 Summer semester No %
Course 2 Summer semester No %
Course 3 Summer semester No %
Course 4 Summer semester No %
Course 5 Summer semester No %
Course 6 Summer semester No %
Course 7 Summer semester No %
Course 8 Summer semester No %
Course 9 Summer semester No %
Course 10 Summer semester No %
Course 11 Summer semester No %
Course 12 Summer semester No %