Chemistry Degrees Online

School of Science and doctorate in chemical technologies
No Area 3 – Chemical Sciences
Scientific-disciplinary sectors: CHIM/01 – CHIM/02 – CHIM/03 – CHIM/04 – CHIM/05 – CHIM/06 – ING-IND/21 – ING-IND/23 – ING-IND/25.
Head Office: Department of Organic chemistry and industry.
Competing structures: Departments of Inorganic Chemistry, metallorganic and analytical and physical chemistry electrochemistry, structural chemistry and inorganic stereochemistry.
Duration: 3 years
Coordinator: prof. Paolo Ferri, Dipartimento di Chimica Organica e Industriale – via Venezian 21 – 20133 Milano
Curricula: 5
1) Physical chemistry and catalysis in industrial processes
2) Summary, processes and controls in the primary chemical
3) Industrial Electrochemistry and Corrosion
4) Synthesis, structure and properties of polymers
5) Summary and fine chemical processes.
Admission requirements:
Science / magistrale class: 8 / S Industrial Biotechnology, 14 / S Pharmacy and Industrial Pharmacy, 20 / S Physics, 27 / S Chemical Engineering, 61 / S Sciences and Engineering Materials, 62 / S Chemical Sciences, 81 / S Science and technology of industrial chemistry.

The Master program in chemistry is suitable for you if you wonder why medicines work as they do and how to tailor molecules for medicines, catalysts in the industry or numerous other applications. Or if you want to learn how nature’s chemistry works, and how environmental problems can be solved. NTNU is the only university in Norway where you can specialise within Environmental and analytical chemistry. You can also study advanced structural chemistry using synchroton radiation.

Course Objectives
The 2-year program in chemistry gives students academic specialisation within topics such as Biochemistry, Environmental and analytical chemistry, Organic chemistry, Structural chemistry or Chemistry education and dissemination. The objective of the program is to educate chemists who are able to work independently with chemistry at a high level.

Through lectures, laboratory work, exercises, project work, excursions, and an independent master’s thesis you will gain knowledge about relevant working methods for research, industry, administration, and education. The Master’s degree program in Chemistry also forms the foundation for doctoral programs in Chemistry.

Chemistry consists of two courses, Fundamental Chemistry and Interdisciplinary Chemistry, and offers excellent programs in inorganic, organic, physical, macromolecular, biological, theoretical, and computational chemistry. The department has faculty renowned in these fields. Sharing their excitement about chemistry, all of the faculty members are committed to both research and teaching. About 30 students are engaged in the pre-doctoral programs, and research in the laboratories equipped with modern instrumentation while attending classes on many areas of expertise within chemistry. Appropriate size and intimate atmosphere of the department lead to close interaction between faculty and students, thereby supporting not only the highest quality of education and research activities but intellectual and social life as well. Students who also want to study other fields of science such as biology, physics, and computer science can take those classes in view of these interdisciplinary approaches.

Course of Fundamental Chemistry
This course deals with the fundamental and frontier subjects in inorganic, organic, and physical chemistry. It offers research programs in structural chemistry, chemical reactions, organic and inorganic syntheses, molecular dynamics, and physical chemistry of solutions. A wide variety of compounds such as metal complexes, organic heterocycles, liquid crystals and biopolymers are targeted for research in this course both experimentally and theoretically.

Course of Interdisciplinary Chemistry
This course covers extensive fields of chemistry that cross traditional disciplinary boundaries: coordination chemistry, bioinorganic chemistry, biological chemistry, macromolecular chemistry, quantum chemistry, and organometallic chemistry. Synthetic, kinetic, genetic, and physicochemical approaches are adopted to analyze the structure of complex molecules, elucidate reaction mechanisms in biological systems, and develop novel functional molecules and materials.