DEPARTMENT OF FASHION DESIGNThe Department of Fashion Design at TIMES University, Multan is dedicated to nurturing creative talent and transforming innovative ideas into professional design excellence. The department offers a dynamic learning environment where students develop artistic vision, technical expertise, and entrepreneurial skills to excel in the rapidly evolving fashion and textile industry. Through a blend of creativity, technology, research, and practical learning, students are prepared to become professional designers, stylists, merchandisers, entrepreneurs, and fashion innovators. ![]()
Mission
Vision
To become a leading center of excellence in fashion education by producing innovative, socially responsible, and globally competent fashion professionals who contribute to the creative economy through sustainable design, research, and entrepreneurship. PhilosophyThe Department of Fashion Design believes that fashion is more than clothing—it is a powerful medium of creativity, cultural expression, innovation, and social transformation. We strive to cultivate originality, critical thinking, craftsmanship, and professionalism while preserving cultural heritage and embracing global fashion trends. Our educational philosophy emphasizes experiential learning, design thinking, sustainability, and lifelong learning, enabling students to become visionary designers capable of shaping the future of the fashion industry.
Programs Offered:BS Fashion Design
Total Credit Hours: 30
List of Elective Subjects M.Phil. Chemistry
01 Solid State Chemistry 3(3-0) 02 Photochemical Reactions of Transition Metals 3(3-0) 03 Applied Transition Metal Catalytic Chemistry 3(3-0) 04 Chemistry of Organometallic Compounds 3(3-0) 05 Inorganic Electronic Spectroscopy 3(3-0) 06 Kinetics and Mechanisms of Inorganic Reactions 3(3-0) 07 Bio-Inorganic Chemistry 3(3-0) 08 Nano Chemistry 3(3-0) 09 Applied Spectroscopy 3(3-0) 10 Medicinal Inorganic Chemistry 3(3-0) 11 Advanced Thermal Analysis 3(3-0) 12 Metal Complexes in Cancer Chemotherapy 3(3-0) 13 Inorganic Polymers 3(3-0) 14 Radiochemistry 3(3-0) 15 Advanced Research Methodology 3(3-0) 16 Advanced Gas Chromatography 3(3-0) 17 Advanced Liquid Chromatography 3(3-0) 18 Advanced Molecular Spectroscopy 3(3-0) 19 Mass Spectrometric Analysis 3(3-0) 20 Advanced Emission Spectroscopy 3(3-0) 21 Laser and Luminescence Spectroscopy 3(3-0) 22 Analytical Aspects of NMR Spectroscopy 3(3-0) 23 Modern Extraction Techniques 3(3-0) 24 Quality Assurance and Quality Control 3(3-0) 25 Techniques for Polymer Analysis 3(3-0) 26 X-Ray Methods of Analysis 3(3-0) 27 Advanced Electroanalytical Techniques 3(3-0) 28 Automated Methods of Analysis 3(3-0) 29 Modern Trends in Organic Synthesis 3(3-0) 30 Advanced Stereochemistry 3(3-0) 31 Physico-Organic Chemistry and Reaction Mechanism 3(3-0) 32 Advanced Heterocycles I 3(3-0) 33 Chemistry of Glycosides 3(3-0) 34 Biosynthesis of Natural Products 3(3-0) 35 Advanced Nuclear Magnetic Resonance 3(3-0) 36 Role of Protecting Groups in Organic Synthesis 3(3-0) 37 Advanced Heterocycles II 3(3-0) 38 Advanced Molecular Rearrangements 3(3-0) 39 Chemistry of Nitrogenous Compounds 3(3-0) 40 Advanced Mass Spectrometry 3(3-0) 41 Supramolecular Chemistry 3(3-0) 42 Chemistry of Drugs 3(3-0) 43 Physical Chemistry of High Polymers 3(3-0) 44 Complex Extension of Quantum Chemistry 3(3-0) 45 Electrode Processes 3(3-0) 46 Magnetic Spin Dynamics 3(3-0) 47 Molecular Spectroscopy 3(3-0) 48 Photochemistry 3(3-0) 49 Solution Chemistry 3(3-0) 50 Colloids and Surfactants 3(3-0) 51 Theoretical and Computational Chemistry 3(3-0) 52 Advanced Composite Materials 3(3-0) 53 Heterogeneous Catalysis 3(3-0) 54 Modern Aspects of Chemical Kinetics 3(3-0) 55 Solid State and Semiconductors 3(3-0) 56 Instrumental Physical Chemistry 3(3-0)
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