The subject focuses on the importance of transition metals for the composition and properties of molecules. It gives an overview of the approaches used to describe coordinating compounds, it deals with the properties of the metal and the ligand that are critical to the formation of complexes and what determines their properties (reactivity, interaction with IR and UV-Vis radiation, magnetic behavior, biological activity).

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The module belongs among the basic subjects of the study program chenistry and chemical technology. In the frame of this module students obtain the knowledge from the field of phase equilibria of condensed systems, phase equilibria of gas-liquid and liquid -liquid systems, chemical equilibria and electrochemistry. Emphasis is given to theoretical principles as well as to their connection with real processes in chemical industry.

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The course is focused on distribution of molar mass of polymers, polymer chain dimensions in solution, thermodynamic of polymer solutions, theoretical basics of methods used in determination of polymer molar mass and polymer - solvent interactions.

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Thermodynamics of materials is an inseparable part of theoretical foundations of materials engineering. It deals with thermodynamic properties of solids and phase and chemical equilibria in heterogeneous systems. It allows to simulate various processes of materials preparation and treatment and so it contributes to better understanding of these processes and their optimization. This course proposes the above mentioned theme in slightly advanced form. Knowledge obtained within this course will be used in other materials related subjects in Mgr. study.

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The subject is focused on the analysis of behaviour of chemically reacting systems and design of chemical reactors. The students are introduced to basic concepts, mass and energy balances of reacting systems in steady and dynamic states. Further the students are acquainted with the analysis of heterogeneous reactions both catalytic and non catalytic together with chemical reactor models used in heterogeneous reaction applications. The important part of subject is the design of chemical reactor based on laboratory kinetic data.

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Basic inorganic technologies subserve for relationship between physico-chemical properties of reacting materials and products, kinetics and thermodynamics of reactions and technical solution. The production processes are also described from the environmental and development point of view.

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This course shows the use of carbon sources in the preparation of basic organic products ane intermediates. The course is divided on the base of processes used for the production. This sorting enables the accent on similar production design. All processes possess by the similar structure starting with reaction overview. Reaction overview is followed by explanation of kinetic and thermodynamic aspects, examples of catalysts used for this process and information about technical leading of processes. Each process ends by the most important examples of processes. Examples of processes show the simplified basic technologies of chosen compounds. The basic knowledges are taken from organic, physical and analytical chemistry together with chemical engineering.

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This course provides a comprehensive overview on the methods used for the characterization of particles, particle systems and microstructures of heterogeneous materials, including nanoparticles, nanocrystalline and nanoporous materials. In the first part parameters for the description of the size, shape and arrangement of particles, grains and pores in microstructures are defined and the statistics of small particles, grains and pores is explained, including quantiles, mean values, moments and moment ratios. In the second part the different methods for the characterization of particles, grains and pores are treated in some detail, from sedimentation methods, laser diffraction, dynamic light scattering, image analysis, X-ray diffraction, adsorption methods and mercury porosimetry to less popular methods for the characterization of particles and microstructures. A special focus of this course is the evaluation of planar sections of the microstructure using stereological relations and the use of integral transformations for the correction of the random section problem. In two lectures also sintering and disperse systems are briefly treated, including suspensions and nanofluids and methods for characterizing their electrokinetic behavior. The course is suitable for students of all fields of chemistry and materials science and engineering. It can be particularly recommended for everyone interested in characterizing systems of small particles or microstructures of heterogeneous materials.

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The purpose of Diploma Thesis is to prove students’ capability of dealing with the particular topic independently.
The description of applied methods and comprehensive evaluation of obtained results as well as consequent
discussion concerning these results are expected. The Thesis consists of the theoretical part, where students
perform literary (re)search sourcing mainly from scientific literature, chiefly from foreign origin. They improve their
theoretical background related to the topic of the thesis. The practical part of the thesis is experimental and
requires application of knowledge and skills acquired during previous studies and during the literary (re)search
mentioned above. The clear and relevant presentation of the obtained results, their comprehensive evaluation and
discussion held in the context of the current state of knowledge presented in the theoretical part form an integral
part of the thesis. Formulation of conclusions demonstrating that the aims of the thesis have been accomplished is
also required.

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