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Physical chemistry of inorganic systems - AP101005

Title:	Physical chemistry of inorganic systems
Guaranteed by:	Department of Inorganic Chemistry (101)
Faculty:	Faculty of Chemical Technology
Actual:	from 2019
Semester:	both
Points:	0
E-Credits:	0
Examination process:
Hours per week, examination:	3/0, other [HT]
Capacity:	winter:unknown / unknown (unknown) summer:unknown / unknown (unknown)
Min. number of students:	unlimited
State of the course:	taught
Language:	English
Teaching methods:	full-time
Teaching methods:	full-time
Level:
Note:	course is intended for doctoral students only can be fulfilled in the future you can enroll for the course in winter and in summer semester

Guarantor:	Sedmidubský David prof. Dr. Ing.
Classification:	Chemistry > Physical Chemistry
Interchangeability :	P101005

Examination dates

Annotation -

The course is focused on the extension of knowledge and skills acquired in the master subject Theoretical principles of inorganic chemistry and/ or similar courses. The objective is to get acquainted with advanced methods of studying inorganic substances such as electronic structure calculations of molecules, complexes and solids, their energies, vibration spectra, chemical and phase equilibria. Programs like Gaussian, Orca, Wien2k, Medea - VASP and FactSage will be used for solution of practical problems and projects.

Last update: Hladíková Jana (19.11.2018)

Aim of the course -

Students will be able to:

Actively apply ligand field theory and molecular orbital theory in the study of electronic properties of inorganic substances

Apply group theory to derive the normal vibrational modes of molecules and to calculate their frequencies

Derive thermodynamic functions from ground and excited states

Propose thermodynamic models of solution phases

Calculate phase and chemical equilibria and construct phase diagrams of inorganic systems

Last update: Hladíková Jana (19.11.2018)

Course completion requirements - Czech

Úspěšné zpracování projektu, jehož téma bude voleno s ohledem na téma dizertační práce

Last update: Hladíková Jana (19.11.2018)

Literature -

P. Atkins, J. de Paula, Physical chemistry, 9th Edition, Oxford University Press, 2010 (R)

T.A. Albright, J.K. Burdett Myung‐Hwan Whangbo, Orbital Interactions in Chemistry, 2nd Edition, J.Wiley & Sons, 2013 (R)

F. Weinhold, Chemical and Phase Thermodynamics – Classical and Geometrical Theory, J. Wiley & Sons, 2009.(A)

H.A.J. Oonk, M.T. Calvet, Equilibrium between Phases of Matter, Springer, 2008. (R)

Last update: Hladíková Jana (19.11.2018)

Syllabus -

Electron structure of atoms and ions - quantum-mechanical description

Ligand field theory - multipole expansion of potential, terms and multiplets energies in ligand field

Electron structure of molecules - quantum-mechanical description

Rotational and vibraitonal spectra of molecules and crystals

Total energy and statistical mechanics

Speciation of inorganic systems, mass balance equations, identification of independent reactions

Thermodynamic description of solution phases

Homogeneous equilibrium in gases and aqueous solutions

Phase transitions and heterogeneous equilibria

Thermodynamic modeling, phase diagrams

Last update: Hladíková Jana (19.11.2018)

Learning resources - Czech

https://e-learning.vscht.cz/course/

Last update: Hladíková Jana (19.11.2018)

Registration requirements - Czech

Obecná a anorganická chemie II, Fyzikální chemie I, Teoretické principy anorganické chemie,

Last update: Hladíková Jana (19.11.2018)