Matthias Ernst: Katalogdaten im Frühjahrssemester 2021

NameHerr Prof. Dr. Matthias Ernst
LehrgebietPhysikalische Chemie
Adresse
Lab. für Physikalische Chemie
ETH Zürich, HCI D 227
Vladimir-Prelog-Weg 1-5/10
8093 Zürich
SWITZERLAND
Telefon+41 44 632 43 66
Fax+41 44 632 16 21
E-Mailmaer@ethz.ch
URLhttp://www.nmr.ethz.ch/~maer
DepartementChemie und Angewandte Biowissenschaften
BeziehungTitularprofessor und Privatdozent

NummerTitelECTSUmfangDozierende
529-0014-00LAdvanced Magnetic Resonance - Relaxation Information 6 KP3GM. Ernst, T. Wiegand
KurzbeschreibungThe course is for advanced students and covers relaxation theory in magnetic resonance spectroscopy.
LernzielThe aim of the course is to familiarize students with the theory behind relaxation phenomena in magnetic resonance. Starting from a theoretical description of magnetic resonance, Redfield theory will be developed and applications to liquid-state and solid-state NMR will be discussed. In the end, students should be able to read and understand research publications in the field of magnetic resonance relaxation.
InhaltThe lecture will discuss Hamiltonian in Magnetic Resonance that are important for relaxation phenomena. Building on this, Redfield theory will be discussed and put into context with other relaxation theories used in Magnetic Resonance. To illustrate the working of Redfield theory, relaxation a simple two-spin model will be calculated in extensive detail. Building on this, selected topics from relaxation in liquids and solids are discussed so that at the end a reasonable overview of the field is given.
Prerequisite: A basic knowledge of NMR, e.g. as covered in the Lecture Physical Chemistry IV, or the book by Malcolm Levitt.
SkriptA script which covers the topics will be distributed in the lecture and will be accessible through the web page http://www.ssnmr.ethz.ch/education
LiteraturJ. Kowalewski, L. Mäler, Nuclear Spin Relaxation in Liquids, CRC Press, 2006.
J. McConnell, The Theory of Nuclear Magnetic Relaxation in Liquids, Cambridge University Press, 2009.
529-0432-AALPhysical Chemistry IV: Magnetic Resonance
Belegung ist NUR erlaubt für MSc Studierende, die diese Lerneinheit als Auflagenfach verfügt haben.

Alle andere Studierenden (u.a. auch Mobilitätsstudierende, Doktorierende) können diese Lerneinheit NICHT belegen.
4 KP9RB. H. Meier, M. Ernst, G. Jeschke
KurzbeschreibungTheoretical foundations of magnetic resonance (NMR,EPR) and selected applications.
LernzielIntroduction to magnetic resonance in isotropic and anisotropic phase.
InhaltThe course gives an introduction to magnetic resonance spectroscopy (NMR and EPR) in liquid, liquid crystalline and solid phase. It starts from a classical description in the framework of the Bloch equations. The implications of chemical exchange are studied and two-dimensional exchange spectroscopy is introduced. An introduction to Fourier spectroscopy in one and two dimensions is given and simple 'pulse trickery' is described. A quantum-mechanical description of magnetic resonance experiments is introduced and the spin Hamiltonian is derived. The chemical shift term as well as the scalar, dipolar and quadrupolar terms are discussed. The product-operator formalism is introduced and various experiments are described, e.g. polarization transfer. Applications in chemistry, biology, physics and medicine, e.g. determination of 3D molecular structure of dissolved molecules, determination of the structure of paramagnetic compounds and imaging (MRI) are presented.
Skripthanded out in the lecture (in english)
Literatursee http://www.ssnmr.ethz.ch/education/PC_IV_Lecture
529-0499-00LPhysical Chemistry1 KP1KB. H. Meier, A. Barnes, M. Ernst, P. H. Hünenberger, G. Jeschke, F. Merkt, M. Reiher, J. Richardson, R. Riek, S. Riniker, T. Schmidt, R. Signorell, H. J. Wörner
KurzbeschreibungSeminar series covering current developments in Physical Chemistry
LernzielDiscussing current developments in Physical Chemistry