Difference between revisions of "Physics of Soft and Biological Matter 1 WS 2013/2014"
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|16.01.2014 || Depletion interactions I || Bechinger || | |16.01.2014 || Depletion interactions I || Bechinger || | ||
− | {{Download|Soft_Matter1_WS1314_lecture1_16_01_14.pdf| | + | {{Download|Soft_Matter1_WS1314_lecture1_16_01_14.pdf|Slides}} {{Download|Soft_Matter1_WS1314_lecture1_16_01_14_ppt.pdf|Lecture Notes}} |
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|23.01.2014 || Depletion interactions II || Bechinger || | |23.01.2014 || Depletion interactions II || Bechinger || | ||
+ | {{Download|Soft_Matter1_WS1314_lecture1_23_01_14_ppt.pdf|Lecture Notes}} | ||
+ | {{Download|Slides_230114.pdf|Slides}} | ||
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+ | |30.01.2014 || Biological soft matter || Holm || | ||
+ | {{Download|Vorlesung14_30.1.2014.pdf|Slides}} | ||
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|06.02.2014 || Lab tour || Bechinger || | |06.02.2014 || Lab tour || Bechinger || | ||
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*'''[[Media:Tutorial_5.zip|Worksheet 5 (zip-File with work sheet and literature)]]''': ''Microscopy'' | *'''[[Media:Tutorial_5.zip|Worksheet 5 (zip-File with work sheet and literature)]]''': ''Microscopy'' | ||
*'''[[Media:tutorial_6.pdf|Worksheet 6 ]]''': ''Phase transitions and solubilities'' | *'''[[Media:tutorial_6.pdf|Worksheet 6 ]]''': ''Phase transitions and solubilities'' | ||
+ | *'''[[Media:tutorial_7.pdf|Worksheet 7 ]]''': ''Depletion interactions and Total Internal Reflection Microscopy'' {{Download|tirm.dat}} |
Latest revision as of 18:51, 30 January 2014
Overview
- Type
- Lecture (2 SWS) and Tutorials (every 2nd week)
- Lecturer
- Prof. Dr. Christian Holm and Prof. Dr. Clemens Bechinger (Lecture); Dr. Jens Smiatek and Stefan Kesselheim (Tutorials)
- Course language
- English
- Location and Time
- October 17th, 2013 - February 6th, 2014
- Lecture: Thu, 14:00 - 15:30 (Seminar room ICP 1.079, Allmandring 3)
- Tutorials: Every second week on Thursday, 08:00-09:30 in CIP pool 1.033, ICP, Allmandring 3
- Prerequisites
- B. Sc. 5. Semester or Master
Scope
The lecture intends to give an overview about the physics behind soft and biological matter which has been established as a novel interdisciplinary research field over the last decades. Soft matter typically includes easily deformable objects like colloids, polymers/polyelectrolytes, membranes, liquid crystals as well as vesicles and micelles. Most soft matter effects are driven by electrostatic, van-der-Waals, solute-solvent as well as entropic interactions. Typical phenomena include order-disorder phase transitions or aggregation behavior. The lecture will focus on the physical principles behind the observed effects. In addition, fundamental principles and theories like the DLVO- and the Poisson-Boltzmann theory will be introduced. The interdisciplinary character of this research field is reflected by the presentation of experimental and theoretical work in addition to numerical simulation results.
Recommended literature
- Pierre Gilles de Gennes: Soft matter, Rev. Mod. Phys. 64, 645 (1992)
- Richard A. L. Jones: Soft Condensed Matter, Oxford University Press (2002)
- D. Fennell Evans and Hakan Wennerström: The Colloidal Domain - Where Physics, Chemistry, Biology, and Technology Meet, Wiley-VCH (1999)
- Robert J. Hunter: Foundations of Colloid Science, Oxford University Press (2002)
- Gert R. Strobl: The Physics of Polymers: Concepts for Understanding Their Structures and Behavior, Springer (2007)
- Jean-Pierre Hansen and Ian R. McDonald: Theory of Simple Liquids, Academic Press (2006)
- Mohamed Daoud and Claudine E. Williams (Eds.): Soft Matter Physics, Springer (1999)
- Pierre Gilles de Gennes: Scaling Concepts in Polymer Physics, Cornell University Press (1979)
- Ian W. Hamley: Introduction to Soft Matter, J. Wiley (2000).
- Maurice Kleman and Oleg G. Laverntovich: Soft Matter Physics: An Introduction, Springer (2003)
- Jacob Israelachvili: Intermolecular and Surface Forces, Academic Press (1992)
- Michael Rubinstein and Ralph H. Colby: Polymer Physics, Oxford University Press (2003)
- Gerhard Nägele: Lecture Notes: The Physics of Colloidal Soft Matter (2004)
Course Material
Date | Subject | Lecturer | Ressources |
---|---|---|---|
17.10.2013 | Motivation and historical overview | Bechinger | Lecture Notes (181 KB) and Slides |
24.10.2013 | Many-particle systems: description of structural properties | Holm | Lecture Notes (1.19 MB) |
31.10.2013 | Pair interactions between dispersed particles | Bechinger | Lecture Notes (696 KB) Slides (3.33 MB) |
07.11.2013 | Poisson-Boltzmann theory | Holm |
Lecture Notes (2.36 MB) |
14.11.2013 | Introduction to polymer physics | Holm |
Lecture Notes (7.79 MB) |
21.11.2013 | Polyelectrolytes I | Holm |
Lecture Notes (3.45 MB) |
28.11.2013 | Polyelectrolytes II | Holm |
Lecture Notes (3.45 MB) (Continued from 21.11.2013) |
05.12.2013 | Experimental techniques | Bechinger | |
12.12.2013 | Phase transitions | Bechinger, Holm |
Lecture Notes (485 KB) |
19.12.2013 | Xmas lecture: Soft matter food science | Bechinger, Holm |
Lecture Notes (4.15 MB) |
09.01.2014 | Phase transitions II | Holm |
Lecture Notes (130 KB) |
16.01.2014 | Depletion interactions I | Bechinger |
Slides (1.68 MB) Lecture Notes (262 KB) |
23.01.2014 | Depletion interactions II | Bechinger |
Lecture Notes (25 KB) Slides (3.61 MB) |
30.01.2014 | Biological soft matter | Holm |
Slides (4.34 MB) |
06.02.2014 | Lab tour | Bechinger |
Additional Material
-
Markus Deserno, Christian Holm.
Cell-model and Poisson-Boltzmann-theory: A brief introduction.
In Electrostatic Effects in Soft Matter and Biophysics, pages 27–50. Edited by C. Holm, P. Kékicheff, R. Podgornik. Part of NATO Science Series II - Mathematics, Physics and Chemistry, volume 46.
Kluwer Academic Publishers, Dordrecht, Nl, 2001.
[PDF] (262 KB) [DOI]
-
S. Alexander, P. M. Chaikin, P. Grant, G. J. Morales, P. Pincus, D. Hone.
Charge Renormalization, Osmotic-Pressure, And Bulk Modulus Of Colloidal Crystals - Theory.
The Journal of Chemical Physics 80(11):5776–5781, 1984.
[PDF] (706 KB)
-
M. Aubouy, Emmanuel Trizac, Lyderic Bocquet.
Effective charge versus bare charge: an analytical estimate for colloids in the infinite dilution limit.
Journal of Physics A: Mathematical and General 36(22):5835–5840, 2003.
[PDF] (106 KB)
-
Jean-Louis Barrat, Jean-Pierre Hansen.
Basic Concepts fo Simple and Complex Liquids.
Cambridge University Press, 2003. ISBN: 0-521-78953-2.
Extract on van-der-Waals equation of state (2.24 MB)
Work sheets
- Worksheet 1 (zip-File with work sheet and literature): 1D-Random walk, Langevin equation and atomistic revolution
- Slides: Simulating Brownian Motion (1.54 MB)
- Worksheet 2 (zip-File with work sheet and literature): Pair distribution functions and colloids in suspense
- Worksheet 3 (zip-File with work sheet and literature): Electrostatic screening and polymer properties
- Worksheet 4 : Gibbs-Donnan equilibrium and the van-der-Waals equation of state
- Worksheet 5 (zip-File with work sheet and literature): Microscopy
- Worksheet 6 : Phase transitions and solubilities
- Worksheet 7 : Depletion interactions and Total Internal Reflection Microscopy tirm.dat (2.76 MB)