n applied chemistry degree program focuses on combining chemistry and engineering. Scholars in a program may learn about various aspects of chemistry, such as nanomaterials, corrosion science, analytical chemistry, liquid chromatography, and spectrometry. Students may also study natural resources, environmental contamination, occupational health and safety, risk management and environmental toxicology. Courses may also cover physical and materials chemistry, such as colloidal chemistry, nanobiotechnology, and photocatalysis. Programs may include a research project that lets participants put their studies to practical use.
Completing the program can enable an individual to develop advanced research skills that can then be applied to a future career. In addition, students may learn skills that enable them to make new discoveries in the field of applied chemistry.
The course is a basis for the deeper understanding of chemical elements for any kind of research and is also very beneficial for people looking to teach in the field. It is a mandate to pursue Ph.D. in the field of chemistry.
Career Prospects for M.Sc. in Applied Chemistry are many depending on the level of expertise and experience in the industry. They are hired for profiles from lab supervisor to Research assistant.
The employment areas are among government agencies, biotechnology units, chemical agencies, labs, chemical manufacturing units, oil industry, petroleum sector, pharmaceutical sector, heavy chemical firms etc.
The job profiles for these positions range as a Lab supervisor, researcher, technician, scientist, professor, analytical chemist, lab chemist, production chemist, chemical engineering associate, biomedical chemist etc. The compensation and salaries for these individual jobs are specific and depend largely on the skill-set they have built and the experience in the industry.