Ahmad Saeed | Drug Delivery Systems | Best Researcher Award

Published on by Top Pharmaceutical

Mr. Ahmad Saeed | Drug Delivery Systems | Best Researcher Award

University of Education Lahore | Pakistan

Mr. Ahmad Saeed is a dedicated researcher in the field of analytical chemistry with a strong academic and research background. Currently pursuing a Bachelor of Science in Chemistry at the University of Education, Township Campus, Lahore, he has consistently demonstrated academic excellence with a notable CGPA of 3.60. Throughout his academic journey, he has actively participated in multiple research projects, including the development of biodegradable films containing biological macromolecules impregnated with curcumin for food preservation, investigation of the toxic effects of heavy metals in cosmetics on human health, and the advancement of revolutionized electrochemical sensors utilizing 2D materials as sensor electrodes. He has also contributed to innovative environmental projects, such as Clay Eco Filters, aimed at developing metal nanoparticle-impregnated clay tablets for water purification, and Ecofoil, focused on synthesizing biodegradable films for sustainable food packaging solutions.Mr. Ahmad Saeed has enriched his academic experience through hands-on laboratory work as a Graduate Research Assistant, where he worked extensively on projects involving the synthesis of nanomaterials for environmental and analytical applications. As a Teaching Assistant, he contributed to the academic development of students by assisting in atomic spectrophotometry courses, grading assignments, and providing academic guidance. He has participated in major conferences, including the International Conference on Trends and Research in Chemistry and the International Conference on Material Chemistry and Industrial Technologies, serving as both an organizer and a participant, thus gaining exposure to scholarly dialogues and academic networking.His research contributions are reflected in several scholarly publications, including Multivariate Statistical Analysis of Cosmetics Due to Potentially Toxic/Heavy Metal(loid) Contamination: Source Identification for Sustainability and Human Health Risk Assessment published in Sustainability, Structural Development of Curcumin: A Natural Product Arsenal for Diverse Therapeutic Targets – Seizing Opportunities Through Serendipity and Rational Design in the Journal of Molecular Structure, and FDA-Approved Sulfonamides-Containing Molecules: An Insightful Review on the Synthesis Strategy, Medical Indication, and Their Binding Mode under review in Chemistry and Biodiversity. These works highlight his interest in environmental sustainability, analytical chemistry, natural products, and biomedical applications.

Profile: Orcid

Featured Publications

Ahmed, M., Basheer, S., Mughram, M. H. A., Iqbal, D. N., Qamar, S., Saeed, A., Batool, R., Sanaullah, M., Raza, H., & Hussain, R. (2025). Structural development of curcumin: A natural product arsenal for diverse therapeutic targets—Seizing opportunities through serendipity and rational design. Journal of Molecular Structure.

Aslam, A. A., Ahmed, M., Mughram, M. H. A. L., Habib-ur-Rahman Mahmood, M., Basheer, S., Hussain, R., Eiman, E., Sanaullah, M., Raza, H., Saeed, A., et al. (2025). Sulfonamides as a promising scaffold in drug discovery: An insightful review on FDA-approved molecules, synthesis strategy, medical indication, and their binding mode. Chemistry and Biodiversity.

Ahmed, M., Basheer, S., Mughram, M. H. A., Iqbal, D. N., Qamar, S., Saeed, A., Batool, R., Sanaullah, M., Raza, H., & Hussain, R. (2025). Multivariate statistical analysis of cosmetics due to potentially toxic/heavy metal(loid) contamination: Source identification for sustainability and human health risk assessment. Sustainability.