General information

Course type AMUPIE
Module title Spectroscopy
Language English
Module lecturer prof. zw. dr hab. Marek Sikorski
Lecturer's email sikorski@amu.edu.pl
Lecturer position profesor
Faculty Faculty of Chemistry
Semester 2024/2025 (winter)
Duration 45
ECTS 5
USOS code 02-SPXCA

Timetable

The course will start in the second half of the semester - the first lecture is scheduled for December 5 in room 3.48 at 12:00.
The laboratories will start on Friday, December 6 at 8:00 - 11:45 in lab 4.58.
All at Faculty of Chemistry, Uniwersytetu Poznanskiego 8.

Module aim (aims)

This course facilitates acquiring knowledge necessary for understanding the direct relation between different spectroscopic methods and the processes taking place as a result of interaction of light and matter. Moreover, the students will become familiar with the applications of the spectroscopic methods, and instrumental aspects of specific techniques, including: electronic absorption and emission spectroscopy of atoms and molecules, circular dichroism spectroscopy, IR spectroscopy, Raman spectroscopy, NMR spectroscopy, EPR spectroscopy, Mössbauer spectroscopy, spectroscopy on surfaces, and mass spectrometry. All techniques will be illustrated by application and data from pure chemistry experiments, and by some studies illustrated on systems of practical importance, including food and (natural and synthetic) polymers and some others.

Pre-requisites in terms of knowledge, skills and social competences (where relevant)

Syllabus

Week 1 The types of spectroscopy (electronic absorption and emission spectroscopy of atoms and molecules)

Week 2 The types of spectroscopy (circular dichroism spectroscopy, IR spectroscopy, Raman spectroscopy, NMR spectroscopy, EPR spectroscopy, Mössbauer spectroscopy, spectroscopy on surfaces, and mass spectrometry)

Week 3 Construction and principle of operations of colorimeter, spectrocolorimeter, spectrophotometer, spectrofluorimeter, NMR equipments etc.

Week 4 Selection of measurement conditions, preparation of the sample to studies

Week 5 Practical recording of electronic absorption and emission spectra of atoms and molecules

Week 6 Analyze and interpret spectroscopic data collected by the different methods discussed in the course (electronic absorption and emission spectroscopy of atoms and molecules)

Week 7 Practical applications of spectroscopy, including determination of falsification of edible oil.

Week 8 Practical applications of spectroscopy, including determining the color of paints and dyes available in stores with paints,

Week 9 Practical applications of determination of the effects of aging beer.

Week 10 Practical applications of spectroscopy to determine of shade of dental materials

Week 11 Ultrafast laser spectroscopy

Week 12 Practical recording of circular dichroism spectroscopy, IR spectroscopy, Raman spectroscopy, NMR spectroscopy, EPR spectroscopy, Mössbauer spectroscopy, spectroscopy on surfaces, and mass spectrometry

Week 13 Analyze and interpret spectroscopic data collected by the different methods discussed in the course (circular dichroism spectroscopy, IR spectroscopy, Raman spectroscopy, NMR spectroscopy, EPR spectroscopy, Mössbauer spectroscopy, spectroscopy on surfaces, and mass spectrometry)

Week 14 Applications of UV-Vis absorption-emission spectroscopy to deterime acid-base equilibriums for organic compounds and studies of excited state double proton transfer reaction

Week 15 Summary and exam

Reading list

1. W. Schmidt, Optical Spectroscopy in Chemistry and Life Sciences, Wiley, Weinheim 2005.
2. J. R. Lakowicz, Principles of Fluorescence Spectroscopy, Second Edition, Kluwer Academic/Plenum Publishers, New York 1999.
3. Mazur-Koczorowska A.; Sikorska E.; Krawczyk A.; Khmelinskii I.; Sikorski M.; Koczorowski R.; Stopa J. Luminescence of selected dental composites in vitro. Dental Materials. 24: 1329-1335.
4. E. Sikorska, I. Khmelinskii, M. Sikorski: Analysis of olive oils by fluorescence spectroscopy: Methods and applications, in: Olive Oil - Constituents, Quality, Health Properties and Bioconversions Ed. D. Boskou, InTech 2012, pp. 63-88.
5. Sikorska E.; Gorecki T.; Khmelinskii I.; Sikorski M.; De Keukeleire D. Monitoring beer during storage by fluorescence spectroscopy. FOOD CHEMISTRY 96: 632-639.
6. E. Sikorska, I. Khmelinski, M. Sikorski: Fluorescence methods for analysis of beer, in: Beer in health and disease prevention Ed. V. R. Preedy, Elsevier/Academic Press 2008, pp. 963-976.
7. E. Sikorska, I. Khmelinski, M. Sikorski: Vibrational and Electronic Spectroscopy and Chemometrics in Analysis of Edible Oils, in: Methods in Food Analysis Ed. R.M.S. Cruz, I. Khmelinskii, M. Vieira, CRC Press 2014, Chapter
8. Mazur-Koczorowska A., Sikorska E., Krawczyk A., Khmelinskii I., Sikorski M., Koczorowski R. & Stopa J. (2008) Luminescence of selected dental composites in vitro. Dental Materials, 24, 1329-1335