Advanced Studies in Physical Chemistry

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Advanced Studies in Physical Chemistry Molecular modelling-workshop 781626S Lectures 8 Practical exercise, 782624S Molecular Modelling, or 782625S Quantum Chemistry After this course the student is familiar with basics of state-of-the-art molecular modelling program like Gaussian or Gromacs and their use. Practical workshop where students learn to use some state-of-the-art molecular modelling program like Gaussian or Gromacs. If possible student s own problem is tried to solve using molecular modelling tools. A report of the work is done. Report of practical exercise Material handed out by the lecturer, Gaussian or Gromacs Manuals Molecular modelling 782624S

8 After this course the student is familiar with molecular modelling using empirical and ab initio molecular dynamics. Principles of molecular dynamics and the statistical mechanics related to molecular modelling. Reasoning of the empirical force fields used in molecular mechanics. Ab initio molecular dynamics. Several examples of molecular dynamics studies. This course focuses on the theoretical aspects whereas the practical aspects will be dealt in the course 781626S Molecular modelling workshop. Material given by the lecturer (in Finnish) and Leach, A.R.: Molecular Modelling, Longman, 1996. Quantum Chemistry 782625S Autumn

After this course the student is familiar with the basics of quantum chemical modelling. This course focuses on the quantum chemical modelling. The emphasis is on the many-electron methods like Hartree-Fock, configuration method and density functional theory. The computational aspects like the basis set are discussed in detail. Application to IR and Raman spectra are considered in detail. This course focuses on the theoretical aspects whereas the hands-on exercises are dealt in the course 781626S Molecular modelling workshop. Material given in the lectures (in Finnish) and Cramer, C.J.: Essentials of Computational Chemistry, Willey, 2002 Physical Chemistry of Surfaces 782620S Autumn After this course the students have good knowledge of properties of liquid surfaces and interfaces. The role of surfactants is emphasised. This course focuses on properties of soft surfaces. A detailed view of liquid-gas, liquid-liquid interfaces are given. The roles of surfactant and liquid mixtures are studied in detail. A wide range of applications are discussed, for example emulsion, foams, flotation,

nucleation, soaps on molecular level. Adamson, A.W.: Physical Chemistry of Surfaces, 6th ed., John Wiley & Sons, New York, 1996. Atmospheric chemistry 782626S After this course the student is familiar with the physical chemistry of several atmospheric processes including the ozone depletion, acid rain and greenhouse gases. The course concentrates on atmospheric phenomena, especially the physical chemistry related to atmospheric pollutions. Topics include: the chemical reaction on different parts of atmosphere (including ozone depletion, atmospheric sulphur chamistry), aerosoles, formation of small droplets and their impurities, acid rain and global warming. Material given by the lecturer (in Finnish) and Seinfeld, J.H. and Pandis, S. N.: Atmospheric Chemistry and Physics, Willey-Interscience, 1998

Quantum mechanics and spectroscopy 782630S s 6 Finnish or English on demand After this course the student is familiar with the quantum mechanics related to various types of spectroscopies. Quantum mechanics of radiation field and matter. Quantum description of molecular rotation and vibrations. IR and Raman spectra. Fluorescence and phosphorence. Atkins, P.W. and Friedman, R.S.: Molecular Quantum Mechanics, 3rd ed., Oxford University Press Interactions Between Molecules 782629S Lectures 40 ECTS credits 4

Finnish or English on demand After this course the student is familiar with the principles and applications of intermolecular interactions. Non-covalent intermolecular interactions have fundamental effects in practically all the applications of modern chemistry, including solvent interactions, surface chemistry, catalysis and supramolecular chemistry. Principles and applications of intermolecular interactions. Electrostatic, van der Waals and pi-pi bonding. Host-guest interactions. Solvent effects and Huges-Ingold rules. Applications to solvent interactions, surface chemistry, catalysis and supramolecular chemistry. Atkins, P.W. Physical Chemistry, 6th ed., 1998, or 7th ed., 2002, Oxford University Press, Chapters 21-22. Reichart, C.: Solvents and Solvent Effects in Organic Chemistry, 2nd ed., VCH, 1990, partly and Prof. Jouni Pursiainen Physical Chemistry of Surfaces 782620S Autumn After this course the students have good knowledge of properties of liquid surfaces and interfaces. The role of

surfactants is emphasised. This course focuses on properties of soft surfaces. A detailed view of liquid-gas, liquid-liquid interfaces are given. The roles of surfactant and liquid mixtures are studied in detail. A wide range of applications are discussed, for example emulsion, foams, flotation, nucleation, soaps on molecular level. Adamson, A.W.: Physical Chemistry of Surfaces, 6th ed., John Wiley & Sons, New York, 1996. Surface chemistry II 782633S After the course the student is familiar with interfaces (solid-gas, solid-liquid), properties of surfaces and surface phenomena. Student knows the most important surface structures and methods used in surface science studies. Surface phenomena are significant in several industrial applications, and those applications are theoretically studied during the course. Properties of solid-gas and solid-liquid interfaces, Surface structures, Surface phenomena and Surface analytical methods. Heterogeneous catalysis at solid surfaces is studied as an application.

Adamson, A.W. : Physical Chemistry of Surfaces, 6 th edition, John Wiley and Sons, New York, 1997 (to the appropriate extent); Somorjai, G.A. : Introduction to Surface Chemistry and Catalysis, John Wiley and Sons, New York, 1994 (to the appropriate extent). Lecture notes (in English). Prof. U. Lassi Chemistry in Industrial Applications 782634S After this course the student is familiar with chemical applications in process and environmental technology. In particular, new applications of chemistry are considered. Catalytic applications in water purification, catalytic oxidation, preparation of biofuels from biomass, biomass gasification and the utilisation of biogas, chemistry and chemical reactions in mining processes etc. (visiting lecturers from the companies) Material given by the lecturer, scientific review papers Prof. U. Lassi

High Pressure Kinetics 782618S Lectures 17 5 ECTS credits 4 Finnish Physical Chemistry II (782631S) After this course the student is familiar with different effects of pressure on various chemical reactions, especially on reaction rates Chemical applications of high pressure, determination and calculation of activation volumes, activation volumes of different reaction classes, reaction kinetics by UV/Vis spectrometric methods, especially organic hostguest reactions Partly: Porter, G.: Progress in Reaction Kinetics, Pergamon Press, Oxford,1970., van Eldik, R.: Inorganic High Pressure Chemistry, Elsevier, New York 1986 and Reichardt, C.: Solvents and Solvent Effects in Organic Chemistry, 3 th ed.,wiley-vch Verlag GmbH, Weinheim 2003 Doc. Toivo Kuokkanen Catalysis 782621S

Autumn After this course the student is familiar with the theory of catalysis. Thermodynamic and kinetic background will be studied, including mechanisms of the most important catalytic reactions. Applications, preparation, characterisation and structure of homogenous, heterogeneous and enzymatic catalysts will be discussed. Principles of catalysis, homogeneous catalysis in solutions, polymer catalysis, zeolites, heterogeneous catalysis on surfaces. Gates, B.C.: Catalytic Chemistry, John Wiley & Sons, 1992, partly. Prof. J. Pursiainen Chemical Applications in Hazardous Waste Management and Environmental Technology 782627S Lectures 28 5 ECTS credits 4 Finnish Basic Principles in Green Chemistry (780372A) After this course the student is familiar both in theory and practice with chemical applications in utilization and

disposal of chemical wastes, especially hazardous wastes as well as with new chemical environmental technology Principles and activities in management of hazardous and other chemical wastes, modern treating methods of chemical wastes, new chemical methods and technologies in the utilization of chemical wastes, especially hazardous wastes Clark, J.H.: Chemistry of Waste Minimization, Blackie Academic & Professional, Glasgow 1995, partly and material handed out by the lecturer Doc. Toivo Kuokkanen Last modified: 15.09.2008

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