SubjectsSubjects(version: 948)
Course, academic year 2023/2024
  
Theory and Experiment of Molecular Spectroscopy - N402082
Title: Teorie a experiment molekulové spektroskopie
Guaranteed by: Department of Analytical Chemistry (402)
Faculty: Faculty of Chemical Engineering
Actual: from 2021
Semester: summer
Points: summer s.:4
E-Credits: summer s.:4
Examination process: summer s.:
Hours per week, examination: summer s.:2/1, Ex [HT]
Capacity: unknown / unknown (unknown)
Min. number of students: unlimited
Language: Czech
Teaching methods: full-time
Teaching methods: full-time
Level:  
Is provided by: M402045
For type:  
Guarantor: Urban Štěpán prof. RNDr. CSc.
Matějka Pavel prof. Dr. RNDr.
Is interchangeable with: M402045
Examination dates   Schedule   
Annotation -
Last update: VED402 (04.10.2013)
A review of methods of Molecular Spectroscopy is presented from the perspective of the experiment and theory.This is based on the principle of quantum mechanics and the same formalism is used for rotational, vibrational and electronic spectroscopy. Quantitative spectroscopic analysis is derived from the equation of radiation transfer and limits of validity of Lambert-Beerova of law are discussed. Part of it is the application of group theory. Attention is paid to the preparation of samples for different types of spectroscopy, with emphasis on the differences between samples with different origin (geological, biological, and environmental) and methods of work with portable spectrometers in the terrain and techniques of long-distance detection of molecules. Part of the teaching are laboratory tasks - Nuclear magnetic resonance spectroscopy (NMR), Raman spectroscopy of the samples in the solid phase, including natural material, Infrared spectrometry of the samples in the solid phase with the use of reflective techniques and mass spectrometry.
Aim of the course -
Last update: VED402 (04.10.2013)

Students will be able:

To describe and explain the basic principles of Molecular Spectroscopy methods, on the basis of quantum mechanics.

To discuss the validity of Lambert-Beerova law with regard to the general physical principles and the real implementation of the experiment.

To apply the basic principles of group theory in spectroscopy.

Literature -
Last update: VED402 (04.10.2013)

R:Handbook of Spectroscopy, Editor(s): Prof. Dr. Guenter Gauglitz, Prof. Dr. Tuan Vo-Dinh, Wiley-VCH 2003, Print ISBN: 9783527297825 Online ISBN: 9783527602308 DOI: 10.1002/3527602305

A:Frontiers of Molecular Spectroscopy, Edited by: Jaan Laane, Elsevier 2008, ISBN 9780444531759, http://www.sciencedirect.com/science/book/9780444531759

Learning resources -
Last update: VED402 (04.10.2013)

Materials in electronic form are available during instruction.

Syllabus -
Last update: TAJ402 (16.05.2012)

1. Introduction. Population of quantum states. Einstein theory of spectral transitions. Planck law.

2. Equation of radiation tranfer and its special cases. Theoretical priciples of kvantitative analysis.

3. Theory of spectroscopic experiment and basic principles of experimental spectroscopy.

4. Radiation sources, detectors, optical materials and other elements of spectrospy instruments.

5. Molecular spectroscopy, common theoretical background. Born-Oppenheimer aproximation

6. Microwave spectroscopy. Rotational spectroscopy and structure of molecules.

7. Vibration spectroscopy. Cartesian coordinates and symetry coordinates

8. Chemical aplication of IR and Raman spectroscopy. Analytical aplications

9. Application of group theory in spectroscopy

10. NMR and ESR spectroscopy

11. Quantum chemistry principles. Energy levels of electrons. Transitions types.

12. Electronic spectroscopy. Qualitative and quantitative analysis.

13. Photoelectron spectroscopy (UPS, XPS, ESCA)

14. Advanced spectroscopy applications

Entry requirements -
Last update: VED402 (04.10.2013)

The subject does not have laboratories and is intended for master's students in other fields of study than analytical chemistry and quality engineering (OH) and Molecular Analytical and Physical Chemistry (MAFY). OH, and disciplines the students MAFY's written exclusively by the subject with the laboratories, N402015-Molecular Spectroscopy.

Registration requirements -
Last update: VED402 (04.10.2013)

The subject does not have laboratories and is intended for master's students in other fields of study than analytical chemistry and quality engineering (OH) and Molecular Analytical and Physical Chemistry (MAFY). OH, and disciplines the students MAFY's written exclusively by the subject with the laboratories, N402015-Molecular Spectroscopy.

Teaching methods
Activity Credits Hours
Konzultace s vyučujícími 0.5 14
Účast na přednáškách 1 28
Příprava na přednášky, semináře, laboratoře, exkurzi nebo praxi 0.5 14
Příprava na zkoušku a její absolvování 1.5 42
Účast na seminářích 0.5 14
4 / 4 112 / 112
Coursework assessment
Form Significance
Regular attendance 10
Continuous assessment of study performance and course -credit tests 15
Oral examination 75

 
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