Mr. Jabir Hussain | Nonlinear Optics | Research Excellence Award

Mr. Jabir Hussain | The Islamia University of Bahawalpur, Bahawalpur | Pakistan

Mr. Jabir Hussain is an active and highly focused researcher in computational chemistry, specializing in nonlinear optical (NLO) materials, alkaline earthide design, and theoretical sensor development. His work centers on the exploration of excess-electron systems to enhance NLO properties, ultraviolet transparency, and electronic performance in next-generation molecular materials. He has contributed significantly to understanding the electronic and structural behavior of alkaline earthides, presenting innovative molecular designs that demonstrate excellent NLO responses, particularly in systems involving transition metals and external electric field modulation. His publications in reputable journals, including Polyhedron, Journal of Molecular Graphics and Modelling, Structural Chemistry, Chemical Papers, and Results in Chemistry, reflect a strong research trajectory supported by rigorous methodologies and advanced computational modeling. Alongside his NLO studies, he has conducted theoretical investigations related to sensor design aimed at detecting environmental pollutants and disease-causing chemical agents, addressing both scientific and societal needs. His involvement in computational drug discovery, including studies on urease and α-glucosidase inhibitors supported by docking analyses, further highlights his multidisciplinary capabilities. With one submitted article and multiple manuscripts in preparation, he demonstrates sustained productivity, innovation, and commitment to expanding the scientific understanding of molecular systems with high technological relevance. His body of work reflects a researcher dedicated to advancing computational approaches for material design, chemical sensing, and therapeutic exploration, positioning him as a valuable contributor to the broader scientific community.

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Featured Publications

• Hussain, J., Hussain, R., Hussain, A., Arshad, M., & Haider, M. D. S., Fawy, K. F. (2025). Exploration of electronic and nonlinear optical properties of excess electrons system (alkaline earthides) based on 18-aza-crown complexant. Polyhedron, 117711.

• Hussain, J., Hussain, R., Hussain, A., Yawer, M. A., Arshad, M., & Alarfaji, S. S. (2024). Theoretical design of alkaline earthides M+ (36 adz) Be− (M+ = V, Cr, Mn, Fe, Co, Ni, Cu, and Zn) with excellent nonlinear optical response and ultraviolet transparency. Journal of Molecular Graphics and Modelling, 130, 108791.

• Hussain, J., Hussain, R., Hussain, A., Ahsan, A., & Arshad, M. (2025). Enhanced nonlinear optical response of alkaline earthides based on transition metals as a source of excess electrons in the presence of horizontally oriented external … Structural Chemistry, 2.

• Atteeque Ahmed, C. L., Channar, P. A., Ejaz, S. A., & Saeed, A. (2024). Synthesis of small size adamantane‑linked aminothiazoles as potent inhibitors of urease, α‑glucosidase and carbonic anhydrase and their molecular docking studies. Chemical Papers, 2.

• Manan, A., Tariq, H. Z., Ejaz, S. A., Saeed, A., Ahmed, A., Ahmed, A., & Wani, T. A. (2024). N-Adamantanyl-2-(2-(phenyl) hydrazone)-3-oxobutanamides endowed with dual inhibitors of urease and α-glucosidase: Design, synthesis, and computational studies. Results in Chemistry, 7, 101399.