Detlef Günther: Catalogue data in Autumn Semester 2020 |
Name | Prof. Dr. Detlef Günther |
Name variants | Detlef Günther Detlef Guenther Detlef Gunther |
Field | Spurenelement- und Mikroanalytik |
Address | Spurenelement- und Mikroanalytik ETH Zürich, HCI G 113 Vladimir-Prelog-Weg 1-5/10 8093 Zürich SWITZERLAND |
Telephone | +41 44 632 46 87 |
guenther@inorg.chem.ethz.ch | |
Department | Chemistry and Applied Biosciences |
Relationship | Full Professor |
Number | Title | ECTS | Hours | Lecturers | |
---|---|---|---|---|---|
529-0041-00L | Modern Mass Spectrometry, Hyphenated Methods, and Chemometrics | 6 credits | 3G | R. Zenobi, M. Badertscher, D. Günther, B. Hattendorf, P. Sinués Martinez-Lozano | |
Abstract | Modern mass spectrometry, hyphenated analytical methods, speciation, methods of surface analysis, chemometrics. | ||||
Learning objective | Comprehensive knowledge about the analytical methods introduced in this course, and their applications. | ||||
Content | Coupling of separation with identification methods such as GC-MS, LC-MS, GC-IR, LC-IR, LC-NMR etc.; importance of speciation. Modern mass spectrometry: Time of flight and ion cyclotron resonance mass spectrometry, ICP-MS. Soft ionization methods, desorption methods, spray methods. Methods of surface analysis (ESCA, Auger, SIMS, raster microscopy methods). Employment of computer science for processing data in chemical analysis (chemometrics). | ||||
Lecture notes | lecture notes will be available in the lecture at production cost. | ||||
Literature | information about relevant literature will be available in the lecture & in the lecture notes. | ||||
Prerequisites / Notice | Exercises are an integral part of the lecture. Prerequisites: 529-0051-00 "Analytische Chemie I (3. Semester)" 529-0058-00 "Analytische Chemie II (4. Semester)" (or equivalent) | ||||
529-0043-01L | Analytical Strategy | 6 credits | 3G | R. Zenobi, M. Badertscher, K. Eyer, S. Giannoukos, D. Günther | |
Abstract | Problem-oriented development of analytical strategies and solutions. | ||||
Learning objective | Ability to create solutions for particular analytical problems. | ||||
Content | Individual development of strategies for the optimal application of chemical, biochemical, and physico-chemical methods in analytical chemistry solving predefined problems. Experts from industry and administration present particular problems in their field of activity. Principles of sampling. Design and application of microanalytical systems. | ||||
Lecture notes | Copies of problem sets and solutions will be distributed free fo charge | ||||
Prerequisites / Notice | Prerequisites: 529-0051-00 "Analytical Chemistry I (3. Semester)" 529-0058-00 "Analytical Chemistry II (4. Semester)" (or equivalent) | ||||
529-0051-AAL | Analytical Chemistry I Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement. Any other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit. | 3 credits | 6R | D. Günther, R. Zenobi | |
Abstract | Introduction into the most important spectroscopical methods and their applications to gain structural information. | ||||
Learning objective | Knowledge about the necessary theoretical background of spectroscopical methods and their practical applications | ||||
Content | Application oriented basics of organic and inorganic instrumental analysis and of the empirical employment of structure elucidation methods: Mass spectrometry: Ionization methods, mass separation, isotope signals, rules of fragmentation, rearrangements. NMR spectroscopy: Experimental basics, chemical shift, spin-spin coupling. IR spectroscopy: Revisiting topics like harmonic oscillator, normal vibrations, coupled oscillating systems (in accordance to the basics of the related lecture in physical chemistry); sample preparation, acquisition techniques, law of Lambert and Beer, interpretation of IR spectra; Raman spectroscopy. UV/VIS spectroscopy: Basics, interpretation of electron spectra. Circular dichroism (CD) und optical rotation dispersion (ORD). Atomic absorption, emission, and X-ray fluorescence spectroscopy: Basics, sample preparation. | ||||
Lecture notes | Script will be provided for the production price | ||||
Literature | - R. Kellner, J.-M. Mermet, M. Otto, H. M. Widmer (Eds.) Analytical Chemistry, Wiley-VCH, Weinheim, 1998; - D. A. Skoog und J. J. Leary, Instrumentelle Analytik, Springer, Heidelberg, 1996; - M. Hesse, H. Meier, B. Zeeh, Spektroskopische Methoden in der organischen Chemie, 5. überarbeitete Auflage, Thieme, Stuttgart, 1995 - E. Pretsch, P. Bühlmann, C. Affolter, M. Badertscher, Spektroskopische Daten zur Strukturaufklärung organischer verbindungen, 4. Auflage, Springer, Berlin/Heidelberg, 2001- Kläntschi N., Lienemann P., Richner P., Vonmont H: Elementanalytik. Instrumenteller Nachweis und Bestimmung von Elementen und deren Verbindungen. Spektrum Analytik, 1996, Hardcover, 339 S., ISBN 3-86025-134-1. | ||||
Prerequisites / Notice | Excercises are integrated in the lectures. In addition, attendance in the lecture 529-0289-00 "Instrumental analysis of organic compounts" (4th semester) is recommended. | ||||
529-0051-00L | Analytical Chemistry I | 3 credits | 3G | D. Günther, M.‑O. Ebert, G. Schwarz, R. Zenobi | |
Abstract | Introduction into the most important spectroscopical methods and their applications to gain structural information. | ||||
Learning objective | Knowledge about the necessary theoretical background of spectroscopical methods and their practical applications | ||||
Content | Application oriented basics of organic and inorganic instrumental analysis and of the empirical employment of structure elucidation methods: Mass spectrometry: Ionization methods, mass separation, isotope signals, rules of fragmentation, rearrangements. NMR spectroscopy: Experimental basics, chemical shift, spin-spin coupling. IR spectroscopy: Revisiting topics like harmonic oscillator, normal vibrations, coupled oscillating systems (in accordance to the basics of the related lecture in physical chemistry); sample preparation, acquisition techniques, law of Lambert and Beer, interpretation of IR spectra; Raman spectroscopy. UV/VIS spectroscopy: Basics, interpretation of electron spectra. Circular dichroism (CD) und optical rotation dispersion (ORD). Atomic absorption, emission, and X-ray fluorescence spectroscopy: Basics, sample preparation. | ||||
Lecture notes | Script will be for the production price | ||||
Literature | - R. Kellner, J.-M. Mermet, M. Otto, H. M. Widmer (Eds.) Analytical Chemistry, Wiley-VCH, Weinheim, 1998; - D. A. Skoog und J. J. Leary, Instrumentelle Analytik, Springer, Heidelberg, 1996; - M. Hesse, H. Meier, B. Zeeh, Spektroskopische Methoden in der organischen Chemie, 5. überarbeitete Auflage, Thieme, Stuttgart, 1995 - E. Pretsch, P. Bühlmann, C. Affolter, M. Badertscher, Spektroskopische Daten zur Strukturaufklärung organischer verbindungen, 4. Auflage, Springer, Berlin/Heidelberg, 2001- Kläntschi N., Lienemann P., Richner P., Vonmont H: Elementanalytik. Instrumenteller Nachweis und Bestimmung von Elementen und deren Verbindungen. Spektrum Analytik, 1996, Hardcover, 339 S., ISBN 3-86025-134-1. | ||||
Prerequisites / Notice | Excercises are integrated in the lectures. In addition, attendance in the lecture 529-0289-00 "Instrumental analysis of organic compounts" (4th semester) is recommended. | ||||
529-0058-AAL | Analytical Chemistry II Enrolment ONLY for MSc students with a decree declaring this course unit as an additional admission requirement. Any other students (e.g. incoming exchange students, doctoral students) CANNOT enrol for this course unit. This course does not offer a lecture of its own but it is linked to the course 529-0058-00L. | 3 credits | 6R | D. Günther, M.‑O. Ebert, P. Lienemann, G. Schwarz, R. Zenobi | |
Abstract | Enhanced knowledge about the elemental analysis and spectrocopical techniques with close relation to practical applications. This course is based on the knowledge from analytical chemistry I. Separation methods are included. | ||||
Learning objective | Use and applications of the elemental analysis and spectroscopical knowledge to solve relevant analytical problems. | ||||
Content | Combined application of spectroscopic methods for structure determination, and practical application of element analysis. More complex NMR methods: recording techniques, application of exchange phenomena, double resonance, spin-lattice relaxation, nuclear Overhauser effect, applications of experimental 2d and multipulse NMR spectroscopy, shift reagents. Application of chromatographic and electrophoretic separation methods: basics, working technique, quality assessment of a separation method, van-Deemter equation, gas chromatography, liquid chromatography (HPLC, ion chromatography, gel permeation, packing materials, gradient elution, retention index), electrophoresis, electroosmotic flow, zone electrophoresis, capillary electrophoresis, isoelectrical focussing, electrochromatography, 2d gel electrophoresis, SDS-PAGE, field flow fractionation, enhanced knowledge in atomic absorption spectroscopy, atomic emission spectroscopy, X-ray fluorescence spectroscopy, ICP-OES, ICP-MS. | ||||
Literature | general: R. Kellner, J.-M. Mermet, M. Otto, H. M. Widmer (Eds.) Analytical Chemistry, Wiley-VCH, Weinheim, 1998; XRF: R. Schramm, X-Ray Fluorescence Analysis: Practical and Easy, Fluxana, Kleve, 2012; ICP-MS: R. Thomas, Practical Guide to ICP-MS - A Tutorial for beginners, 3rd Edition, CRC Press, Taylor & Francis Group, Boca Raton, 2013 (especially: chapters 1-15, 19 and 21). Separation methods: S. Ahuja (Ed.), Chromatography and Separation Science, Volume 4 of series "Separation Science and Technology", Elsevier Academic Press, San Diego, 2003. K. Robards, P. R. Haddad, and P. E. Jackson, Principle and Practise of Modern Chromatographic Methods, Academic Press, London, 1994. F. Foret, L. Krivankova, and P. Bocek, Capillary Zone Electrophoresis, VCH, Weinheim (1993) | ||||
Prerequisites / Notice | None. | ||||
529-0141-00L | Physical Methods for Inorganic Chemistry | 6 credits | 3G | M. D. Wörle, D. Günther, J. Koch, R. Verel | |
Abstract | Introduction into the important methods for structural analysis (solid state NMR), crystal structure analysis and surface analysis techniques and their applications | ||||
Learning objective | Knowledge in solid state NMR, crystal structure analysis and surface analytical techniques relevant for inorganic materials | ||||
Content | This lecture course consists of three parts 1) Solid-state NMR 2) Surface and direct solid analysis 3) Crystal structure anaylsis. Most important fundamentals of the individual methods will be presented and details will be explained on most relevant inorganic applications | ||||
Lecture notes | Will be given during the lectures | ||||
529-0169-00L | Instrumental Analysis | 0 credits | 2S | D. Günther | |
Abstract | Group seminar on elemental analysis and isotope ratio determinations using various plasma sources | ||||
Learning objective | Group seminar on elemental analysis and isotope ratio determinations using various plasma sources | ||||
Content | Developments in plasma mass spectrometry and alternative plasma sources | ||||
529-0199-00L | Inorganic and Organometallic Chemistry | 0 credits | 2K | C. Copéret, H. Grützmacher, D. Günther, M. Kovalenko, A. Mezzetti, V. Mougel, A. Togni | |
Abstract | Weekly one-hour lecture per year given by experts in the field to illustrate the latest development in inorganic/organometallic/solid-state chemistry (the fields of expertise include molecular and solid-state chemistry, main group and transition metal chemistry, analytical and computational chemistry as well as discussion on physical and catalytic properties of inorganic compounds); these lectures | ||||
Learning objective | Learn the latest developments in inorganic/organometallic/solid-state chemistry from experts in the fields ; it also includes learning how to discuss chemistry with experts in an interactive fashion. |