Entrance requirements
Completed undergraduate academic studies with a workload of 240 ECTS.
Study outcome
Upon completing the study program Chemistry, the candidate is awarded the title "MSc in Chemistry".
Access to further studies
Diploma holders are entitled to enroll on doctoral academic studies, which have the workload of 180 ECTS.
Professional qualifications
Students who have successfully completed master academic studies in chemistry:
- are capable of conducting, both independently and within a team, all stages of a part of research within a research project;
- have the experience of working with modern instruments used in research laboratories and relevant laboratory practice;
- are able to solve scientific and chemical problems by using analytical and computational methods;
- are able to work independently in chemical laboratories of various profiles and purposes (research and development, quality control, standardization, process monitoring, etc.);
- have the knowledge and skills necessary for working with real, complex samples and the ability to study literature and provide a critical overview of the collected data;
- are able to independently apply complex chemical protocols and are familiar with the use of computers in all stages of research work;
- are able to present the results of their work at scientific conferences both orally and in writing.
Curriculum
Weekly number of classes for each course is shown as: lectures + practical classes + laboratory classes or as: (active teaching + independent work).
Course | Code | ECTS | Semester | |
---|---|---|---|---|
Year I | 1 | 2 | ||
Elective Course 1 | E51H2 | 9 | — |
|
Elective Course 2 | E52H2 | 9 | — |
|
Elective Course 3 | E53H2 | 9 | — |
|
Study and Research | R51H2 | 3 | (0+3) |
|
Practice | P51H2 | 3 | (0+6) |
|
Master Thesis Work | R52H2 | 20 | (0+20) |
|
Master Thesis | Z50H2 | 7 | (0+4) |
|
60 |
Elective Course 1
- Solid State Chemistry (151H2)
- Selected Chapters of Supramolecular Chemistry and Nanochemistry (254H2)
- Synthesis of Complex Organic Molecules (255H2)
- Chemistry of Scent (259H2)
- Selected Methods of Instrumental Analysis (351H2)
- Green Approach to Analytical Chemistry (354H2)
- Organic Geochemistry and Petroleum Pollutants (551H2)
Elective Course 2
- Bioinorganic Chemistry (152H2)
- Bioorganic Chemistry (251H2)
- Physical Organic Chemistry (252H2)
- Introduction to Metabolomics (258H2)
- Chromatographic Methods (352H2)
- Electrochemical Nano-bio-sensors (355H2)
- Analytical Methods in Drug Design and Development (356H2)
- Green Chemistry (751H2)
Elective Course 3
- Coordination Chemistry (153H2)
- Conformational Analysis (253H2)
- Modern Structural Methods (256H2)
- Statistics and Quality Control in Analytical Chemistry (353H2)
- Modern Optical Methods (357H2)
- Toxicological Chemistry (460H2)
The courses which are compulsory within other study programs of the same level of study can also be elective courses for the students of this study program.