Basic subjects
The basic disciplines correspond to the main directions of chemical science - general and inorganic chemistry, analytical chemistry, organic chemistry, physical chemistry, quantum chemistry, colloidal chemistry, electrochemistry, high molecular compounds, chemical technology, biochemistry
Specialized subjects
The set of specialized disciplines is very wide and is determined by the choice of the student's profile (six possible directions).
Program Overview
The basic educational program is aimed at training students with high-quality fundamental and professional knowledge in the field of chemistry, who will be competitive in the labor market, and who as well will be able to successfully solve professional tasks in the research field. Graduates will be able to successfully engage in research and teaching activities in any field of chemistry, work in chemical industries and in business structures as a highly qualified specialists and experts in the field of chemistry, computer and nanotechnology. The program uses productive educational technologies in the learning process that implement an activity-based approach in education. The following methods will be used in the preparation of students: project and modular training, interactive methods and forms of educational process organization, information technologies, sign-contextual learning, and case technology. The program provides study of a pedagogical module that ensures obtaining pedagogical qualification. This program also creates conditions for the realization of students scientific potential in the learning process by attracting them to work in existing student research laboratories of the Faculty of Chemistry with the prospect of participating in grants, conferences, internships, etc.
Prospects. Career & Employment
More than 90% of graduates get employed according to their specialty. Graduates are employed in laboratories of state and non-state scientific centers conducting research in the field of chemistry and related fields (mainly in biochemistry, ecology, food production technology); research and analytical laboratories of various chemical and food industries; laboratories conducting environmental monitoring, food analysis and toxicological studies. Graduates also get employed in research laboratories of institutions and organizations involved in the development, research and production of medicinal substances; in the food, perfume and pharmaceutical industries. - It is possible to continue studying at the PhD program. - Jobs directly related to your degree include: Agricultural Chemistry, Analytical Chemistry, Biochemistry, Biotechnology, Catalysis, Chemical Education, Chemical Engineering, Chemical, Information Specialists, Chemical Sales, Chemical Technology, Colloid and Surface, Chemistry, Consulting, Consumer, Product Chemistry, Environmental Chemistry, Food and Flavor Chemistry.
Why is it important to pursue a higher education?
The main educational program is aimed at providing high-quality fundamental and professional training for graduates in the field of chemistry, who are competitive in the labor market and successfully solve professional problems in the research field. Specialists will be able to successfully engage in research and teaching activities in any field of chemistry, work in chemical industries and in business structures as a highly qualified specialist and expert in the field of chemistry, computer and nanotechnology.