Determine the physico-chemical parameters of the composition analysis of the sample:
Understand concepts and methods of applying the theories and principles of chemistry for practical purposes:
Understand the good practices of laboratory work, the application of chemistry in the chemical industry, and instrumental work techniques:
Process the statistical data of physical and chemical analysis of the results achieved during laboratory work or process in the chemical industry:
Conduct research in the field of applied chemistry and share findings at scientific conferences and other environments:
Demonstrate professionalism and ethical behavior in all areas of practice:
Know basic principles of laboratory work and the application of standard procedures of practical work in the Industry:
The structure of the Applied Chemistry BSc. program is thoughtfully designed to align with the mission of the faculty, which aims to foster innovation and progress in the field of chemistry and its various industrial, environmental, and research applications. The curriculum emphasizes core principles such as Organic Chemistry, Inorganic Chemistry, Analytical Chemistry, and Physical Chemistry, offering a strong theoretical foundation. Moreover, the inclusion of courses such as Industrial Chemistry, Environmental Chemistry, and Materials Science reflects the faculty’s commitment to producing graduates who are prepared to tackle real-world challenges. These courses equip students with technical skills and practical knowledge that can be applied in a variety of sectors, such as pharmaceuticals, agriculture, energy, and materials development.
Innovative Teaching Methods and Research Opportunities
The Applied Chemistry Program incorporates innovative teaching methods, combining theoretical instruction with extensive laboratory experience. Courses such as Advanced Analytical Techniques, Green Chemistry, and Nanotechnology ensure that students are exposed to the latest scientific tools and methodologies. This hands-on approach prepares students for industrial settings, research institutions, and regulatory bodies. Research opportunities are embedded throughout the program, allowing students to participate in projects that address key issues such as sustainable chemical processes, materials innovation, and environmental pollution control. This alignment with the faculty’s mission ensures that students are well-prepared to contribute to chemical research and industry advancements.
Sustainability in Chemical Practices
The program emphasizes sustainability, particularly through courses such as Green Chemistry and Environmental Chemistry. These courses focus on the principles of designing chemical processes that minimize environmental impact, reduce waste, and use renewable resources. Students learn to apply chemistry in ways that support sustainable development, both in industry and environmental protection. This commitment to sustainability is a central element of the faculty’s mission, ensuring that graduates are equipped to address global environmental challenges and promote the responsible use of chemical technologies.
Global Perspectives and Leadership Development
In today’s interconnected world, the Applied Chemistry Program places strong emphasis on global perspectives. Courses like International Chemical Standards and Global Chemical Markets provide students with insight into the global impact of chemical industries and how they operate within international regulatory frameworks. The program’s focus on leadership development ensures that graduates are not only experts in chemistry but are also prepared to take on managerial and strategic roles in industry, research, and government. This reflects the faculty’s mission of producing leaders who can contribute to global advancements in chemical sciences.