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Lecturer(s)
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Wágner Tomáš, prof. Ing. DrSc.
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Course content
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Based on the quantum approach, classical and statistical thermodynamics, it explains the formation of compounds, intermediates, bertholides, daltonides, nanomaterials and glasses, the formation of internal and external defects of crystals and the amorphous state. Great attention is paid to the structure of solids, processes of phase changes (equilibria ss, sl, sg, lg, nonequilibrium changes), the effects of high pressure and high temperature processes and the formation of defects and their effect on the physicochemical properties of metals, glasses, semiconductors and dielectrics. Optical, electrical, catalytic and magnetic properties of solids are discussed. Attention is also paid to the application of solids in chemistry, medicine, electronics, optics and optoelectronics and in information technology.
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Learning activities and teaching methods
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Work with text (with textbook, with book)
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Learning outcomes
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Advanced Solid State Chemistry describes and explains syntheses, methods for preparing amorphous, glassy, nano- and microcrystalline solids, single crystals and sintered materials.
The student will be able to critically evaluate and understand the properties of individual types of solids on a theoretical basis and find the relationship between synthesis, structure and their physical properties. At the same time, he will gain a basic orientation in the actual or potential use of individual materials.
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Prerequisites
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Basic knowledge of chemistry and physical chemistry.
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Assessment methods and criteria
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Oral examination, Home assignment evaluation
Interest in studying the relationship structure-properties-use of solids, in the development of new research trends in applications in catalysis, electronics and optics.
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Recommended literature
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