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Physical chemistry of nanodispersed s ystems and polymer solutions

Physical chemistry of nanodispersed s ystems and polymer solutions. SERP-Chem course: Physical Chemistry of Interfaces, Nanodispersions and Polymer Solutions version 2011-04-23 16:09, file: intro.ppt. Physical chemistry of nanodispersed systems and polymer solutions.

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Physical chemistry of nanodispersed s ystems and polymer solutions

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  1. Physical chemistry of nanodispersed systemsand polymer solutions SERP-Chem course: Physical Chemistry of Interfaces, Nanodispersions and Polymer Solutions version 2011-04-23 16:09, file: intro.ppt

  2. Physical chemistry of nanodispersed systems and polymer solutions lectures                        15 hlaboratory classes       30 h project work 5 h

  3. Physical chemistry of nanodispersed systems and polymer solutions Objectives of the course: The course aims to provide the physical chemistry background necessary for explanation of phenomena and processes taking place in the nanoscale – in colloids, micellar systems and polymer solutions and the achievement of skills of the computer modelling and experimental studies of processes in nanoscales. The course contains selected ideas, laws, models and theories necessary to understand the basic nanotechnology problems. Synonyms: physics of mesoscale introduction to nanotechnology soft matter physics

  4. Physical chemistry of nanodispersed systems and polymer solutions • Programming – pascal (FPC) and Surface Evolver • Preliminaries: intermolecular interactions and thermodynamics in nanodisperse systems. • The main types of colloids, characteristic phenomena in colloid systems. • Micelle formation, solubilization. Surfactants at interfaces: wetting, contact angles, surface and interfacial tension, films, foams topology. • The stability of colloid suspension. The electric double layer. Colloid stability, DLVO theory. Coagulation kinetics. • Conformation of an isolated polymer coil. The Flory-Huggins theory. Other theories of polymer solutions. Polyelectrolytes in solution: electrophoresis, Donnan equilibria. • Miscellaneous: Static and dynamic light scattering. Diffusion. Viscosity. Rheology. Effect of polymer on colloid stability, steric stabilization and bridging flocculation,  flocculation, depletion flocculation

  5. Physical chemistry of nanodispersed systems and polymer solutions Lectures - timetable (room 3.52, 11:00 – 12:30) Laboratory exercises – timetable (room 4.42) two groups: 8 – 12:30 and 12:30 – 17:00 03.04.13 10.04.13 17.04.13 24.04.13 08.05.13 15.05.13 22.05.13 05.06.13 exam 23.04.13* 30.04.13 07.05.13 14.05.13 21.05.13 28.05.13 * First group starts exceptionally at about 10:00, after prof. J. Waluk lecture

  6. Physical chemistry of nanodispersed systems and polymer solutions Available exercises 1. A droplet of liquid on a surface of a solid; relation between the contact angle and interface tension 2. Modelling of the conformation of flexible polymer chains. The static MC method. 3. Conformational entropy of the linear polymer chain. 4. The effect of the solvent on the conformation of linear polymer macromolecule. Metropolis MC method. 5. State equation of foam 6. Dynamic light scattreing. The Brownian dynamics simulation. 7. Kinetics of the dissapearance of small cells in cellular fluids 9. Coagulation kinetics 10. Micellization of ionic surfactant

  7. Physical chemistry of nanodispersed systems and polymer solutions Laboratory exercises 1. A droplet of liquid on a surface of a solid; relation between the contact angle and interface tension 2. Modelling of the conformation of flexible polymer chains. The static MC method. 6. Dynamic light scattreing. The Brownian dynamics simulation. 9. Coagulation kinetics 10. Micellization of ionic surfactant

  8. Physical chemistry of nanodispersed systems and polymer solutions Final projects 3. Conformational entropy of the linear polymer chain. 4. The effect of the solvent on the conformation of linear polymer macromolecule. Metropolis MC method. 5. State equation of foam 7. Kinetics of the dissapearance of small cells in cellular fluids The course deadline (the time limit for projects) 5.06.13 Report files in Word, Excel, Pascal, Surface Evolver, Origin, .pdf formats gwnow@amu.edu.pl

  9. Physical chemistry of nanodispersed systems and polymer solutions Conditions of course crediting 1. Student is obliged to carry out all experiments within the programme and has to present a report on each experiment which is separately credited* 2. The report containing experimental results, calculations, conclusions and responses to the questions given in the description of the experiment should be presented after completion of the experiment of submitted (preferably as a pdf file) to one of the following addresses, gwnow@amu.edu.pl (reports on experiments 1, 2 and 6) gnow@amu.edu.pl (reports on experiments 9 and 10) 3. The acceptance of report is credited with 1 point. 4. For presentation of his/her own project and the relevant report the student can score from 0 to 5 points. Report on the project should be submitted to the address gwnow@amu.edu.pl till 5.06.2013. The final note is given upon review of the report and a possible talk (oral exam) concerning the project. 5. Final notes are presented in the table. * If a student has a legitimate reason for absence the way of crediting can be individually consulted.

  10. Physical chemistry of nanodispersed systems and polymer solutions Laboratory exercises – timetable *First group starts exceptionally at about 10:00, after prof. Waluk lecture

  11. Physical chemistry of nanodispersed systems and polymer solutions Laboratory exercises Read the description of the experiment before laboratory classes Sent the report (.pdf?) with your results, disscussion of results and answers to the questions to gwnow@amu.edu.pl Exercises 1, 2 and 6 gnow@amu.edu.pl Exercises 9 and 10

  12. Physical chemistry of nanodispersed systems and polymer solutions Paper handbooks • P.W. Atkins, Physical Chemistry, Oxford University Press, 6th edition, Oxford, 1998 • P.C. Hiemenz, Principles of Colloid and Surface Chemistry, 2nd edition., Marcel Dekker, Inc., New York, Basel, 1986 • I. Teraoka, Polymer Solutions. An Introduction to Physical Properties, A John Wiley & Sons, Inc. Publication, nwe York, 2002 • H.J. Butt, K. Graf, M. Kappl, Physics and Chemistry of Interfaces, Wiley-VCH GmbH & Co, Kga, Weinheim, 2003 • A.Yu. Grosberg, A.R. Khokhlov, Giant Molecules, Academic press, New York, 1997 • D.F Evans, H. Wennerstrom, The Colloidal Domain. Where physics, Chemistry, Biology and Technology meet, 2nd edition, Wiley VCH, New York, 1999 • T. Witten, P. Pincus, Structured Fluids. Polymers, Colloids, Surfactants, Oxford University Press, Oxford, 2004. • G.T. Barnes, I.R. Gentle, Interfacial Science. An Introduction, Oxford University Press, Oxford, 2005 • W.B. Russel, D.A. Saville, W.R. Schowalter, Colloidal Dispersions, Cambridge University Press, Cambridge, 1999 • R.G. Mortimer, Mathematics for Physical Chemistry, 2nd edition, Academic Press, San Diego, 1999

  13. Physical chemistry of nanodispersed systems and polymer solutions Links (programming) http://www.susqu.edu/brakke/evolver/html/evolver.htm http://www.freepascal.org/docs-html/fpctoc.html http://wiki.lazarus.freepascal.org/Lazarus_Documentation http://www.scilab.org/product/man/

  14. Physical chemistry of nanodispersed systems and polymer solutions Lecture slides, materials for laboratory experiments, tools http://www.staff.amu.edu.pl/~gwnow/SERP-Chem/SERP-Chem.html User: SERP-Chem Password: **** Contact: gwnow@amu.edu.pl gnow@amu.edu.pl

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