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Lecturer(s)
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Němec Petr, prof. Ing. Ph.D.
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Střižík Lukáš, Ing. Ph.D.
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Wágner Tomáš, prof. Ing. DrSc.
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Course content
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Modern theory of solids, electrical conductivity of solids, semiconductors, optical absorption, luminiscence, p-n and Schottky junction, semiconductor materials and devices. photo-voltaic materials and devices, optical properties of materials, wave nature of light, optical amplifiers and lasers, dielectric materials and insulation.dielectric waveguides and optical fabers, light-emitting diodes, stimulated emission devices, photodetectors and image sensors, polarization and modulation of lights, photo-induced solid state reactions and structure modification by light.
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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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Understanding and critical evaluation of the relationship between the synthesis, structure and properties of materials materials for electronics, optics and optoelectonics.
The student will be able to critically evaluate the properties of individual types of materials on a theoretical basis and find the relationship between synthesis, structure and their physical properties. At the same time, he/she will gain a basic orientation in the specific or potential use of individual materials.
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Prerequisites
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Basic knowledge of chemistry and solid state physics.
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Assessment methods and criteria
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Oral examination, Home assignment evaluation
Interest in studying the structure-properties-use of solids, the development of new electronic and optical materials, etc.
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Recommended literature
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S. O. Kasap. Principles of Electronic Materials and Devices. 2013. ISBN 0273774182.
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S. O. Kasap. Principles of Electronic Materials and Devices. 2017. ISBN 9780078028182.
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