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Lecturer(s)
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Barták Petr, prof. RNDr. Ph.D.
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Havlíček Vladimír, prof. Ing. Dr.
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Milde David, doc. Ing. Ph.D.
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Course content
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Current topics in development of new instrumentation and applications of atomic and molecular spectrometry. Physical and chemical principles, instrumentation details of atomic spectrometry of valence (OES, AAS, AFS) and sub-valence electrons; of molecular absorption (in UV/Vis, IR, microwave and radio frequency spectral regions) and emission spectrometry. Inorganic mass spectrometry. Spectrometry based on scattering. Spectrometries that do not involve an exchange of energy between radiation and matter. Up-to-date applications in spectrometry (ultra trace analysis, speciation analysis, isotopic ration determination, surface analysis).
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Learning activities and teaching methods
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Dialogic Lecture (Discussion, Dialog, Brainstorming)
- Attendace
- 20 hours per semester
- Preparation for the Exam
- 80 hours per semester
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Learning outcomes
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Current topics in development of new instrumentation and applications of atomic and molecular spectrometry. Physical and chemical principles, instrumentation details of atomic spectrometry of valence (OES, AAS, AFS) and sub-valence electrons; of molecular absorption (in UV/Vis, IR, microwave and radio frequency spectral regions) and emission spectrometry. Inorganic mass spectrometry. Spectrometry based on scattering. Spectrometries that do not involve an exchange of energy between radiation and matter. Up-to-date applications in spectrometry (ultra trace analysis, speciation analysis, isotopic ration determination, surface analysis).
Explain up to date novelties in spectrometric methods, compare methods, explain results.
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Prerequisites
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Successfully graduation master's programme Analytical chemistry
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Assessment methods and criteria
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Student performance
To become acquainted with the subject matter according to guarantor or teacher recommendations and prove capability to explain and discuss given topic.
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Recommended literature
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Broekaert, J. A. (2002). Analytical Atomic Spectrometry with Flames and Plasmas. Wiley VCH, Weinheim, Germany.
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Bubert, H., Jenett, H. (2002). Surface and Thin Film Analysis. Wiley VCH, Weinheim, Germany.
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Friebolin, H. (2005). Basic One- and Two-Dimensional NMR Spectroscopy. Wiley VCH, Weinheim, Germany.
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Gore, M. G. (ed.). (2000). Spectrophotometry and spectrofluorimetry.
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Günzler H., Gremlich H.-U. (2002). IR spectroscopy, An introduction. Wiley-VCH Verlag.
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Hill, S. E. (2007). Inductively Coupled Plasma Spectrometry and its Applications, 2nd Ed..
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John C. Lindon, George E. Tranter, John L. Holmes. (2000). Encyclopedia of Spectroscopy and spectrometry.. Academic press, London, UK.
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Kellner R., Mermet J.-M., Otto M., Valcárcel M., Widmer, H. M. (2004). Analytical Chemistry. A Modern Approach to Analytical Science. Wiley-VCH.
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Lindon, J.C., Tranter, G.E., Holmes, J.L. Encyclopiedia of spectroscopy and spectrometry II..
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Valeur, B. (2001). Molecular Fluorescence - Principles and Applications. Wiley VCH, Weinheim, Germany.
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Welz, B., Sperling, M. (1999). Atomic absorption spectrometry, 3 rd Ed.. Wiley-VCH Verlag.
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