Entrance requirements
- Completed academic studies of the second degree, at least 300 ECTS and the grade point average of at least 8; or
- completed academic studies of the second degree, at least 300 ECTS and at least one scientific paper published in an international journal from the SCI list; or
- the Master of Science degree obtained in the pre-Bologna system.
Study outcome
Upon completing the study program Chemistry, the candidate is awarded the title "PhD in Chemistry".
Students will be able to independently and proficiently conduct complex research within a team with the aim of solving relevant scientific problems from the field of chemistry and related disciplines. They will become familiar with the use and operation of the latest instruments used in chemistry research laboratories. They will demonstrate the capacity to apply their knowledge in practice, particularly in solving problems, in acquiring new knowledge and making new discoveries. They will be able to formulate hypotheses and design experiments to test them. They will be able to analyze a material and formulate concepts. They will be able to adapt to new situations and make decisions. They will be able to establish various types of scientific cooperation and communication in Serbian and English.
Access to further studies
Diploma holders can continue their education within postdoctoral research at Serbian or world universities and scientific research institutions.
Professional qualifications
Students who have successfully completed doctoral academic studies in chemistry:
- are able to independently and proficiently conduct complex research within a team with the aim of solving relevant scientific problems from the field of chemistry and related disciplines;
- are able to work with the latest instruments used in chemistry research laboratories;
- are able to use their knowledge in practice, particularly in problem-solving and making new discoveries;
- are able to formulate hypotheses and design experiments to test them;
- are able to analyze a material and formulate concepts;
- can adapt to new situations and make decisions;
- are able to establish various types of scientific cooperation and communication in Serbian and English;
- are able to improve research and chemical education and can be competent mentors to the students of undergraduate, graduate and doctoral studies.
Curriculum
Weekly number of classes for each course is shown as: lectures + study research work.
Course | Code | ECTS | Semester | |
---|---|---|---|---|
Year I | 1 | 2 | ||
Elective Course 1 | E71H2 | 10 | — |
|
Elective Course 2 | E72H2 | 10 | — |
|
Study and Research | R71H2 | 10 | 0+8 |
|
Writing and Publishing Scientific Papers 1 | 773A2 | 10 | 8+1 |
|
Study and Research | R72H2 | 15 | 0+12 |
|
Semester Paper | S71H2 | 5 | 0+4 |
|
60 | ||||
Year II | 1 | 2 | ||
Elective Course 3 | E73H2 | 10 | — |
|
Elective Course 4 | E74H2 | 10 | — |
|
Study and Research | R73H2 | 10 | 0+8 |
|
Writing and Publishing Scientific Papers 2 | 774A2 | 10 | 8+1 |
|
Study and Research | R74H2 | 20 | 0+16 |
|
60 | ||||
Year III | 1 | 2 | ||
Study and Research | R75H2 | 25 | 0+20 |
|
Study and Research | R76H2 | 25 | 0+20 |
|
Doctoral Thesis | Z70H2 | 10 | 0+8 |
|
60 |
Elective Courses
- Metals and Metal Complexes in Medicine (171A2)
- Spectroscopic Methods in Inorganic Chemistry (172H2)
- Methods of Conformational Analysis (173H2)
- Inorganic Materials (174H2)
- Inorganic Syntheses (175H2)
- Noble Metals Chemistry (176H2)
- Magnetochemistry (177H2)
- Quantum Chemistry (178H2)
- Supramolecular Structures of Transition Metal Complexes (179H2)
- Advanced Methods of Thermic Analysis (180H2)
- X-ray Structural Analysis (181H2)
- Structure and Biological Activity of Organic Compounds (271H2)
- New Synthetic Methods (272H2)
- Chemistry of Secondary Metabolites (274H2)
- Molecular Machines (275H2)
- Modern Structural Methods 2 (276H2)
- Chemical Weapons (279H2)
- Synthesis and Characterization of Polymers (280H2)
- Metabolomics (281A2)
- Chemometrics (371H2)
- Modern Instrumental Methods (372H2)
- Modern Chromatographic Methods (373H2)
- Bioanalytical Chemistry (374H2)
- Sensors (375H2)
- Fuels (571H2)
- Advanced Oxidation Processes (572H2)
- Chemodynamics of Selected Pollutants (573H2)
- Non-destructive Chemical Analysis - Selected Chapters (574H2)
- Biomarkers in Reconstruction of Geological Evolution (575H2)
- Selected Chapters of Catalysis (577H2)
- Methodology of Pedagogical Investigation in Chemistry Teaching (671H2)
- Developmental Psychology (672H2)
- Educational Psychology (673H2)
- Organometallic Chemistry (771H2)
- Scientific research project menagement (772A2)