Dr. Madiha Irfan is an accomplished scholar in organic and material chemistry, currently serving as an Assistant Professor at the Department of Chemistry, Khwaja Fareed University of Engineering and Information Technology, Rahim Yar Khan. Her expertise lies in the design and synthesis of organic semiconducting and optoelectronic materials. With extensive experience in nanotechnology, organometallics, and device fabrication, she has contributed significantly to advancing material science for energy and electronic applications. She has published widely in international journals, presented at global conferences, and authored book chapters, establishing her as a strong voice in cutting-edge chemical research.
Dr. Madiha Irfan | Khwaja Fareed University of Engineering and Information Technology | Pakistan
Profile
SCOPUS
Education
Dr. Irfan completed her Ph.D. in Organic Chemistry at Quaid-i-Azam University, Islamabad, where her doctoral research focused on carbazole, fluorene, and perylene-based materials for applications in organic light-emitting diodes. She earned her M.Phil. in Organic Chemistry from the same university, specializing in novel organic materials for electronics. She also holds an M.Sc. and B.Sc. in Chemistry from Islamia University, Bahawalpur, both with distinction. Her academic journey reflects a solid foundation in organic chemistry, spectroscopy, and advanced material science, preparing her to contribute significantly to the interdisciplinary field of materials and device applications.
Experience
Dr. Irfan has a blend of research, teaching, and project management experience. She has worked on a Pak-USAID collaborative project focused on materials for optoelectronic applications and gained international training at the University of Central Florida. She previously served as Lecturer at the University of Wah and as Assistant Professor at The Women University Multan under the IPFP program. At KFUEIT, she has taken on administrative roles including Graduate Program Advisor, Examination Coordinator, and Lab Incharge. She has successfully led funded projects from the Higher Education Commission of Pakistan as Principal Investigator.
Awards and Recognitions
Dr. Irfan has received several certificates of appreciation for excellence in teaching, research project achievements, and her role in academic event organization. She has been honored for securing funded projects such as NRPU and SRGP from the Higher Education Commission of Pakistan. Additionally, her contributions to major conferences, such as the International and National Chemistry Conferences, have earned her recognition for advancing sustainable development goals through chemistry. Her consistent acknowledgment by academic institutions highlights her dedication and impactful contributions.
Research Focus
Her research encompasses material chemistry, organic synthesis, nanotechnology, and device fabrication, with an emphasis on developing novel organic semiconducting and luminescent molecular materials. She specializes in optoelectronic materials for applications such as OLEDs, perovskite solar cells, and other electronic devices. Her work also includes exploring spectral techniques, electrochemical analysis, and molecular design for sustainable and energy-efficient technologies. Through interdisciplinary collaboration and innovation, Dr. Irfan contributes to bridging chemistry with applied material science for real-world technological advancements.
Publications
Perylene-based Electron Transport Materials in Perovskite Solar Cells To Improve Power Conversion Efficiency.
Evaluation of Ternary Thiazole-Coumarin-Azomethine Derivatives as Multi-Target Inhibitors: α-Amylase, Urease, Free Radical Scavenging and Antibacterial Activities with Molecular Docking Studies
Journal: Chemistry Africa (2025)
Conclusion
Dr. Madiha Irfan demonstrates strong academic and research excellence in organic and material chemistry with significant contributions to optoelectronics and nanotechnology. Her educational achievements, funded projects, and impactful publications position her as a highly promising researcher. With a record of innovation, international collaboration, and leadership in both research and teaching, she is a highly suitable candidate for the Best Researcher Award. Her contributions reflect not only scientific advancement but also the application of chemistry to solve energy and sustainability challenges.