Structure Determination by Nuclear Magnetic Resonance
BASIC DATA
course listing
A - main register
course code
YKA0059
course title in Estonian
Ainete struktuuranalüüs tuumamagnetresonants spektroskoopiaga
course title in English
Structure Determination by Nuclear Magnetic Resonance
course volume CP
-
ECTS credits
6.00
to be declared
yes
assessment form
Examination
teaching semester
spring
language of instruction
Estonian
English
Study programmes that contain the course
code of the study programme version
course compulsory
no
Structural units teaching the course
LK - Department of Chemistry and Biotechnology
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Tutvustada tuumade magnetresonantsspektroskoopia meetodit, selle füüsikalisi aluseid ja praktilist rakendamist ühendite struktuuri määramisel. Õpetada TMR meetodi põhimõisteid ja nende füüsikalist sisu, näidata spektrite ja aine struktuuri vahelisi seoseid. Õpetada erinevaid spektrite liike. Õpetada spektrite alusel koostama ainete struktuurvalemeid.
course aims in English
Introduce nuclear magnetic resonance method, its physical principles and practical application for structure determination. Develop understanding on correlation between NMR spectra and organic compound structure. Learn different types of 1D and 2D spectra and how to draw chemical structure based on the spectra.
learning outcomes in the course in Est.
Teab TMR põhimõisteid ja saab aru nende füüsikalistest alustest. Teab erinevaid spektritüüpe ja milliste ülesannete lahendamiseks neid kasutada. Oskab analüüsida 1H ja 13C ning kahedimensionaalseid 1H-1H, 1H-13C ja 13C-13C spektreid. Oskab kasutada TMR spektreid ühendi struktuuri määramiseks
learning outcomes in the course in Eng.
Knows principles of NMR, understands its physical background. Is familiar with different types of spectra and can use them to solve the problems. Can analyse 1D and 2D homo and hetero-nuclear spectra. Knows how to use NMR spectra for structure elucidation.
brief description of the course in Estonian
Loengute teemad: tuumade omadused: spin, magnetmoment, magneetiline anisotroopia, relaksatsioon, varjestus. Keemiline nihe, spin-spin sidestus- dupletid tripletid, kvartetid, multipletid, sidestuskonstant, homo- ja heteroaatomite vaheline sidestus. TMR eksperimentide põhimõtted, Ühe ka kahedimensionaalne TMR. Harjutustundides lahendatakse TMR spektrite põhjal ülesandeid, ning määratakse orgaaniliste ühendite struktuuri. Praktikumi läbides saadakse selgeks kuidas teostada rutiinseid NMR mõõtmisi instituudi TMR spektromeetril.
brief description of the course in English
The lectures will cover properties of nuclei in magnetic filed, their spin, magnetic moment, anisotropy, relaxation, shielding, chemical shift, coupling constant, basics of NMR experiments, NMR spectrometer and data analysis. The seminars will be based on the problem solving through analysis of real NMR spectra. Training for ability to access the routine NMR measurements on the department instrument will be given.
type of assessment in Estonian
Eksam, mis koosneb kahest osast:
1. Iseseisev praktiline töösooritus, kus üliõpilane valmistab tundmatu aine proovi ja identifitseerib mõõdetud spektrite põhjal orgaanilise ühendi struktuuri (70%)
2. suuline eksam (30%)
1. Iseseisev praktiline töösooritus, kus üliõpilane valmistab tundmatu aine proovi ja identifitseerib mõõdetud spektrite põhjal orgaanilise ühendi struktuuri (70%)
2. suuline eksam (30%)
type of assessment in English
Exam consist of two parts:
1. Practical assignment, where student prepares a sample from unknown compound and determines its structure based on measured NMR spectra (70%)
2. Oral exam (30%)
1. Practical assignment, where student prepares a sample from unknown compound and determines its structure based on measured NMR spectra (70%)
2. Oral exam (30%)
independent study in Estonian
Spektrite lahendamine
independent study in English
Solving NMR spectra
study literature
J. B. Lambert, E. P. Mazzola: Nuclear Magnetic Resonance Spectroscopy. An
Introduction to Prinziples, Applications, and Experimental Methods, 2004
H. Friebolin : Basic One- and Two-dimensional NMR Spectroscopy, 2008
T. D. W. Claridge : High-Resolution NMR Techniques in Organic Chemistry, 2009
James Keeler Understanding NMR Spectroscopy, 2nd Edition, 2010
Kursuse kodulehe materjalid (materials on course web page)
Introduction to Prinziples, Applications, and Experimental Methods, 2004
H. Friebolin : Basic One- and Two-dimensional NMR Spectroscopy, 2008
T. D. W. Claridge : High-Resolution NMR Techniques in Organic Chemistry, 2009
James Keeler Understanding NMR Spectroscopy, 2nd Edition, 2010
Kursuse kodulehe materjalid (materials on course web page)
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
1.0
lectures
-
practices
0.5
practices
-
exercises
2.5
exercises
-
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2024/2025 spring
Riina Aav, LK - Department of Chemistry and Biotechnology
Estonian